JP4057472B2 - POWER CONTROL / MANAGEMENT SYSTEM, SERVER, SERVER PROCESSING METHOD, PROCESSING PROGRAM, AND RECORDING MEDIUM CONTAINING THE PROGRAM - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a power control / management system, a server, a server processing method, a processing program, and a program for controlling and managing power generated by a power generation facility to be supplied to a power consuming facility of a consumer. Regarding the recorded media, more specifically, the electric power company purchases the electric power of the power generation company, or the electric power company owns the power generation equipment and generates power, and the power is different from other companies different from the electric power company, For example, a power control / management system, a server, a server processing method, and a processing program applied to a so-called power retail business that supplies a power generation company or an electric power company to consumers who use electric power using a power company's transmission network And a recording medium on which the program is recorded.
[0002]
[Prior art]
In recent years, with the development of human society, mass production and distribution of information industry and related daily goods, manufacturing and dissemination of various electronic devices, activation of commercial transactions, advancement of transportation system, quantitative expansion, world of food The activation of activities centering on production and distribution, such as distribution on a global scale, has become particularly prominent. Along with this, diversification of power and energy usage forms and a significant increase in usage have occurred.
[0003]
On the other hand, in the current energy system centered on fossil fuels, the remaining reserves of fossil fuels have been depleted, and there is concern about pollution of the earth by exhaust gas and waste. The effective use of energy has been screamed.
[0004]
Diversification of usage forms of energy, mainly electric power, and the increase of usage are expected to continue in the future as human society develops, and naturally, environmental conservation on a global scale and effective use of energy will naturally increase. There is no waiting for it to become an important issue.
[0005]
Under these circumstances, we will provide various forms of energy supply systems that respond to the diversification of energy usage forms such as electric power and gas, and reduce energy usage prices, creating a more advanced and satisfying energy supply system. In order to build it, the regulations of the energy industry such as electric power and gas were eased, and liberalization began.
[0006]
For the liberalization of the electric power business, not only conventional general electric power companies (hereinafter referred to as electric power companies), but also new business operators for the purpose of supplying electric power to electric power users (hereinafter referred to as consumers). That is, a specific-scale electric power company (hereinafter referred to as an electric power company) decided to conduct a power sales business.
[0007]
However, we have a large number of large-scale power plants such as nuclear power plants, thermal power plants, and hydroelectric power plants, and carefully adjust the power generation amount in response to changes in the amount of power used by each customer. Unlike a power company that does not need it, an electric power company that owns a fixed number of power plants or only has a power supply contract with the electric power company And, from time to time, adjustments must be made to contract from a power plant that owns or contracts with the power or amount of power that meets this.
[0008]
This is because if you generate excessively generated power or generated power to secure the estimated required power or estimated required power of consumers, you will not only be separated from the global problem of effective use of energy, but also profitable. It will be difficult to continue the business.
[0009]
On the other hand, in the system that supplies marginal power and power to the estimated required power of the consumer or the estimated required power, if the consumer's required power is unforeseen weather conditions such as an unexpected rise or fall in temperature, or entertainment When an unexpected situation such as unexpected concentration of interest occurs, the amount of power required by the customer increases, resulting in a shortage of supply.
[0010]
In this case, if the power supply from the power generation company or the power company to the consumer is in a state where the power transmission network of the entrusted power company is borrowed, of course the power transmitted by the power company itself to the power transmission network. Even if there is a shortage in the amount of power supplied from the power company and the power generation company that has contracted with the power company, the customer himself / herself is automatically covered by the power from the power company. Although there is no actual damage caused by the shortage of power supply, a large amount of compensation is charged by the power company entrusting transmission, and there is a risk that it will not be profitable and it will be difficult to continue the business.
[0011]
Therefore, own a generator that meets the total of the expected and necessary power and amount of electricity required for each consumer contracted by the power company, or contract with the power company to secure the necessary and required power. Therefore, it is necessary to construct a system for supplying electric power used by consumers, electric power corresponding to the electric power amount, or electric power amount in the business operation of electric power companies.
[0012]
However, due to legal restrictions, power supply has been carried out exclusively by some limited electric power companies, and power generation facilities with limited electric utilities who have newly entered the electric power business, limited contracts. Electric power can be supplied only by the power generation equipment of the power generation company, and it has been difficult to achieve a fine-tuned supply and demand balance according to the above-described required power and required power of the consumer.
[0013]
In addition, electric power companies limited under the existing legal regulations have a large number of power plants that can generate and generate much larger power than the power and power used by contracted customers. In the present situation, detailed power generation adjustment corresponding to the power and amount of power used by consumers is unnecessary and has not been implemented.
[0014]
Furthermore, compared to large-scale power generation facilities, relatively small-scale power generation facilities such as diesel engine generators and micro gas turbine engines are suitable for finely tuned power supply. ₂ , NO _x , SO _x In large metropolitan areas where the demand for electric power is soaring, the total amount of these exhaust gases is enforced by environmental regulations, and there are cases where local governments also issue orders to stop power generation. Therefore, it is difficult to always perform the power generation operation, and the power generation facility for power control intended by the present invention is insufficient.
[0015]
In addition, some large-scale power consumers have installed the above small-scale power generation facilities in the building space or on the premises in order to secure power in case of emergency. Currently, it is used for emergency use during times of power outages and disasters, and it is rarely used normally, leaving problems from the viewpoint of effective use.
[0016]
[Non-Patent Document 1]
The 6727th JPI Special Research Forum Materials: Sponsored by the Japan Institute for Planning Studies, July 17, 2002
[0017]
[Non-Patent Document 2]
T. Kondo, et. Al.,: “Enhancement of Hydrogen production by a Photosynthetic Bacterium Mutant with Reduced Pigment.”, J. Biosci. Bioeng., Vol.93, No.2, pp.145-150.2002
[0018]
[Non-Patent Document 3]
Abstracts of Annual Meeting of the Biotechnology Society of Japan p.224, "Hydrogen production of photosynthetic bacteria in a two-layer reactor"
[0019]
[Problems to be solved by the invention]
As mentioned above, in the past, the supply of electric power has been carried out exclusively by some limited electric power companies due to legal regulations, and electric power companies newly entering the electric power business have limited power generation facilities, limited However, it is difficult to achieve a fine-tuned supply and demand balance according to the above-mentioned required power and required power of the customers. is there.
[0020]
In addition, relatively small power generation facilities such as diesel engine generators and micro gas turbine engines are suitable for fine-tuned power supply. ₂ , NO _x , SO _x In order to discharge exhaust gas, etc., the total amount of exhaust gas is regulated by environmental regulations, and there is a case where a local government's power generation stop command is also issued. There is a problem that the power generation equipment for power control intended by the present invention is insufficient.
[0021]
The present invention has been made in view of the above, and the object of the present invention is to secure generated power that satisfies the power required by consumers with power generation means that contribute to environmental conservation using living organisms and natural energy. An object of the present invention is to provide a power control / management system, a server, a server processing method, a processing program, and a recording medium on which the program is recorded.
[0022]
[Means for Solving the Problems]
In order to achieve the above object, the present invention according to claim 1 is a power control / management system for controlling and managing power generated by a power generation facility to be supplied to power consumption maintenance of a consumer. The power generation equipment is provided as a facility for the power generation company. The main power generation means mainly generates power supplied to the power consumption facility of the consumer using biomass as fuel, and is provided as the facility for the power generation company. Sub-power generation means for generating secondary power to be supplied to the power consumption maintenance of consumers using hydrogen gas generated from hydrogen-producing microorganisms as fuel to assist the shortage of power generated by the power generation means; Control means for controlling the electric power generated by the main power generation means and the sub power generation means in accordance with the power consumption in the consumer's power consumption facility; and the fuel used to generate power by the sub power generation means. And summarized in that and a killed bacterial killing bacteria supplying means for supplying to the main generator means killing bacteria hydrogen generating microorganisms to be used as biomass fuel in the main power generation means hydrogen generating microorganisms.
[0023]
In the present invention according to claim 1, the power generated mainly by the main power generation means using biomass fuel and the power generated secondarily using the hydrogen gas from the hydrogen-producing microorganisms according to the power consumption. In order to supply killed bacteria of hydrogen-producing microorganisms to the main power generation means as biomass fuel, it is possible to generate power with appropriate power according to the power consumption by consumers using biomass fuel and hydrogen-producing microorganisms. Without destroying the environment, it can be efficiently realized by reusing hydrogen-producing microorganisms in the form of dead bacteria, and can make a significant contribution in terms of high reliability, profit assurance, and environmental conservation in the power generation business.
[0024]
The invention according to claim 2 is the invention according to claim 1, wherein the auxiliary power generation means uses hydrogen gas generated from hydrogen-producing microorganisms containing at least one of photosynthetic bacteria and anaerobic bacteria as fuel. And a DC / AC converter that converts the DC power generated from the fuel cell into AC power and outputs the AC power.
[0025]
In the present invention according to claim 2, the auxiliary power generation means is a fuel cell that uses hydrogen gas generated from a hydrogen-producing microorganism containing at least one of photosynthetic bacteria and anaerobic bacteria as a fuel. Since the DC power generated from the power is converted into AC power and output, it is possible to efficiently generate power without destroying the environment.
[0026]
Furthermore, the present invention according to claim 3 is the invention according to claim 1 or 2, wherein the main power generation means uses, in addition to the biomass fuel, one or both of an alternative fuel for biomass fuel and a fossil fuel. The gist of the invention is to have another fuel power generation means for generating main power.
[0027]
In the present invention described in claim 3, since the main power generation means generates main power using either one or both of the alternative fuel and the fossil fuel in addition to the biomass fuel, even when the biomass fuel is insufficient. The power generation can be performed without stopping, and the reliability can be improved.
[0028]
According to a fourth aspect of the present invention, in the invention according to any one of the first to third aspects, the control means converts the power generated by the main power generation means into power consumption in a consumer's power consumption facility. If the power is insufficient, the sub-power generation means generates the shortage of power and controls the power to be supplied to the consumer's power consumption facility in addition to the power generated by the main power generation means. The gist is to have means.
[0029]
According to the fourth aspect of the present invention, when the power generated by the main power generation means is insufficient with respect to the power consumption, the insufficient power is generated by the sub power generation means and is generated by the main power generation means. In addition to electric power, it is controlled so that it is supplied to the consumer's power consumption equipment, so even if the power generated by the main power generation means decreases, the sub-power generation means can generate the shortage of power and continue without stopping power generation. And reliability can be improved.
[0030]
According to a fifth aspect of the present invention, there is provided a server for controlling and managing the power generated by the power generation facility to be supplied to the consumer's power consumption facility, Main power data receiving means for receiving main power data as a result of measuring power generated mainly by main power generating means owned by a power generation company using biomass as fuel to be supplied via a communication network; and In order to supplement the shortage of power generated by the main power generation means, hydrogen gas generated from hydrogen-producing microorganisms is used as a fuel to generate power, and the used bacteria that kill the hydrogen-producing microorganisms are Measure power generated by secondary power generation means owned by power generation companies that are supplied to the main power generation means to be used as biomass fuel for the main power generation means. Sub power data receiving means for receiving the resulting sub power data via the communication network, and power consumption data for receiving the power consumption data as a result of measuring the power consumed by the power consuming equipment of the consumer via the communication network The main power data received by the receiving means and the main power data receiving means and the power consumption data received by the power consumption data receiving means are compared, and the main power generation means and the sub power generation means generate power based on the comparison result. For transmitting a control command for controlling the main power generation means and the sub power generation means to adjust the generated power to a control means for controlling the main power generation means and the sub power generation means of a power generation company via a communication network It has a gist of having command transmission means.
[0031]
In this invention of Claim 5, the main electric power data of the electric power mainly generated with the main power generation means using the biomass fuel and the auxiliary electric power generated secondarily using the hydrogen gas from the hydrogen generating microorganisms. Power data is received via a communication network, power consumption data used by consumers is received via a communication network, main power data and power consumption data are compared, and main power generation means based on the comparison result And control means for controlling the main power generation means and the sub power generation means of the power generation company via the communication network with a control command for controlling the main power generation means and the sub power generation means so as to adjust the power generated by the sub power generation means Power generation with no waste based on the power consumed by consumers, using biomass fuel and hydrogen-producing microorganisms, without environmental damage, and hydrogen generation It can be controlled from the server via a communication network so that it can be reused in the form of dead bacteria and efficiently realized, and it can make a huge contribution in terms of high reliability, profit assurance, and environmental conservation in the power generation business. it can.
[0032]
Further, the present invention according to claim 6 is the invention according to claim 5, wherein the control command transmission means receives main power data received by the main power data reception means and power consumption received by the power consumption data reception means. As a result of comparison with the data, when the main power data is smaller than the power consumption data and the generated power of the main power generation means is insufficient, the sub power generation means generates power for the shortage and the customer's power It has a shortage power generation control command transmission means for transmitting a shortage power generation control command for controlling to supply to the consuming equipment to the sub power generation control means for controlling the sub power generation means of the power generation company via the communication network. The gist.
[0033]
In the present invention described in claim 6, when the main power data is smaller than the power consumption data and the generated power of the main power generation means is insufficient, the deficient power is generated by the sub-power generation means and the demand Insufficient power generation control command for controlling to supply to the power consumption equipment of the house is transmitted via the communication network, so even if the generated power of the main power generation means decreases, the sub power generation means Power generation can be continued without stopping power generation, and reliability can be improved.
[0034]
The present invention according to claim 7 is a server processing method for controlling and managing power generated by a power generation facility to be supplied to a power consumption facility of a consumer, the power consumption facility of the consumer Main power to measure the power generated mainly by the main power generation means owned by the power generation company using biomass as fuel to be supplied to the power plant, and receive this measured power data as main power data via the communication network In order to assist the shortage of the power generated by the data generating step and the main power generating means, the hydrogen gas generated from the hydrogen generating microorganism is used as a fuel to generate power, and the used hydrogen generating microorganism A secondary power generation means owned by a power generation company that supplies the dead power bacteria to the main power generation means to be used as biomass fuel for the main power generation means. The sub-power data receiving step of receiving the measured power data as sub-power data via the communication network, and measuring the power consumed by the consumer's power consuming equipment, A power consumption data receiving step for receiving measured power consumption data via a communication network, a comparison of the main power data received in the main power data receiving step and the power consumption data received in the power consumption data receiving step, A control command for controlling the main power generation means and the sub power generation means so as to adjust the power generated by the main power generation means and the sub power generation means based on the comparison result is sent to the power generation company through the communication network. And a control command transmission step for transmitting to the control means for controlling the main power generation means and the sub power generation means.
[0035]
In the present invention described in claim 7, the main power data of the power mainly generated by the main power generation means using the biomass fuel and the power generated secondarily using the hydrogen gas from the hydrogen generating microorganisms are used. Sub power data is received via the communication network, power consumption data used by consumers is received via the communication network, the main power data is compared with the power consumption data, and the main power generation is performed based on the comparison result. Control means for controlling the main power generation means and the sub power generation means of the power generation company via the communication network with a control command for controlling the main power generation means and the sub power generation means so as to adjust the power generated by the means and the sub power generation Therefore, it is possible to generate power with reasonable power according to the power consumed by consumers without using biomass fuel or hydrogen-producing microorganisms to destroy the environment and It can be controlled from the server via a communication network so that it can be efficiently reused in the form of dead bacteria, and it can make a huge contribution in terms of high reliability, profit assurance, and environmental conservation in the power generation business. it can.
[0036]
According to an eighth aspect of the present invention, in the invention according to the seventh aspect, the control command transmission step receives the main power data received in the main power data reception step and the power consumption received in the power consumption data reception step. As a result of comparison with the data, when the main power data is smaller than the power consumption data and the generated power of the main power generation means is insufficient, the sub power generation means generates power for the shortage and the customer's power A power shortage power generation control command transmission step for transmitting a power shortage power generation control command for controlling the power generation equipment to be supplied to the power consumption equipment to the power generation control means for controlling the power generation company sub power generation means via the communication network; The gist.
[0037]
In the present invention described in claim 8, when the main power data is smaller than the power consumption data and the generated power of the main power generation means is insufficient, the power generated by the sub power generation means Insufficient power generation control command for controlling to supply to the power consumption equipment of the house is transmitted via the communication network, so even if the generated power of the main power generation means decreases, the sub power generation means Power generation can be continued without stopping power generation, and reliability can be improved.
[0038]
Furthermore, the present invention according to claim 9 is a server processing program that can be executed by a computer for controlling and managing power generated by a power generation facility to be supplied to a power consumption facility of a consumer. In order to supply the computer to a consumer's power consuming equipment, biomass is used as a fuel to measure the power generated mainly by the main power generation means owned by the power generation company, and the measured power data is mainly used. Main power data receiving means for receiving power data via a communication network, and secondary gas using hydrogen gas generated from hydrogen-producing microorganisms as fuel to assist the shortage of power generated by the main power generating means In addition to generating electricity, the killed bacteria of the used hydrogen-producing microorganisms are supplied to the main power generation means to be used as biomass fuel for the main power generation means. A sub power data receiving means for measuring the power generated by the sub power generating means owned by the power generation company to be received and receiving the measured power data as sub power data via the communication network Power consumption data receiving means for measuring the power consumed by the consumer's power consumption equipment and receiving the measured power consumption data via a communication network; and main power data received by the main power data receiving means And the power consumption data received by the power consumption data receiving means, and the main power generation means and the sub power generation means so as to adjust the power generated by the main power generation means and the sub power generation means based on the comparison result A control instruction for transmitting a control command for controlling the power generation means to a control means for controlling the main power generation means and the sub power generation means of the power generation company via a communication network. And summarized in that to function as a transmission unit.
[0039]
In the invention of claim 9, the main power data of the power mainly generated by the main power generation means using the biomass fuel and the sub main power data using the hydrogen gas from the hydrogen-producing microorganisms are transmitted via the communication network. The power consumption data received by the consumer is received via the communication network, the main power data and the power consumption data are compared, and the main power generation means and the sub power generation means generate power based on the comparison result. The control command for controlling the main power generation means and the sub power generation means to adjust the power to be transmitted is transmitted to the control means for controlling the main power generation means and the sub power generation means of the power generation company via the communication network. Better power generation according to the power consumption in the country without destroying the environment using biomass fuel and hydrogen-producing microorganisms, and killing the organisms that generate hydrogen And re-used in the form can be controlled via a communications network from a server to efficiently realize, reliable power generation business, revenue assurance, can play a very significant contribution in terms of environmental protection.
[0040]
According to a tenth aspect of the present invention, in the invention according to the ninth aspect, the control command transmission means includes main power data received by the main power data receiving means and power consumption data received by the power consumption data receiving means. As a result of the comparison, if the main power data is smaller than the power consumption data and the generated power of the main power generation means is insufficient, the sub power generation means generates power for the shortage and the power consumption facility of the consumer And a short power generation control command transmission means for transmitting a low power generation control command for controlling to supply to the sub power generation control means for controlling the sub power generation means of the power generation company via the communication network. To do.
[0041]
In the present invention described in claim 10, when the main power data is smaller than the power consumption data and the generated power of the main power generation means is insufficient, the deficient power is generated by the sub-power generation means and demanded. Insufficient power generation control command for controlling to supply to the power consumption equipment of the house is transmitted via the communication network, so even if the generated power of the main power generation means decreases, the sub power generation means Power generation can be continued without stopping power generation, and reliability can be improved.
[0042]
The present invention as set forth in claim 11 is a computer-executable server processing program for controlling and managing electric power generated by a power generation facility to be supplied to a consumer's power consumption facility. A recorded computer-readable recording medium for measuring power generated mainly by a main power generation means owned by a power generation company using biomass as fuel to supply the computer to a power consuming facility of a consumer The main power data receiving means for receiving the measured power data as main power data via a communication network, and hydrogen gas generated from hydrogen-producing microorganisms to assist the shortage of power generated by the main power generating means Is used as a fuel to generate power secondarily, and the used hydrogen-producing microorganisms are killed in the main power generation means. Measure power generated by secondary power generation means owned by power generation companies that are supplied to the main power generation means to be used as biomass fuel, and communicate the measured power data as sub power data. Sub power data receiving means for receiving via a network, power consumed by a consumer's power consuming equipment, power consumption data receiving means for receiving the measured power consumption data via a communication network, The main power data received by the main power data receiving means is compared with the power consumption data received by the power consumption data receiving means, and the power generated by the main power generating means and the sub power generating means is adjusted based on the comparison result. Control commands for control by the main power generation means and the sub power generation means are transmitted via a communication network to the main power generation means and And gist to record the sub-power generation means computer-readable recording medium recording a server processing program for functioning as a control command transmission means for transmitting to the control means for controlling at.
[0043]
In the present invention of claim 11, the main power data of the power mainly generated by the main power generation means using the biomass fuel and the power generated by the secondary generation using the hydrogen gas from the hydrogen generating microorganisms are used. Sub power data is received via the communication network, power consumption data used by consumers is received via the communication network, the main power data is compared with the power consumption data, and the main power generation is performed based on the comparison result. A control command for controlling the main power generation means and the sub power generation means so as to adjust the power generated by the means and the sub power generation means, the control for controlling the main power generation means and the sub power generation means of the power generation company via the communication network Since the processing program of the server to be transmitted to the means is recorded on the recording medium, it is possible to generate power with appropriate power according to the power consumption at the consumer by using biomass fuel or Highly reliable power generation business can be controlled from the server via a communication network so that hydrogen generation part organisms can be reused in the form of killed bacteria and efficiently realized without using environmentally friendly microorganisms. In addition to making a significant contribution in terms of revenue guarantee and environmental protection, the recording medium can be used to improve the distribution.
[0044]
Further, the present invention according to claim 12 is the invention according to claim 11, wherein the control command transmitting means receives main power data received by the main power data receiving means and power consumption received by the power consumption data receiving means. As a result of comparison with the data, when the main power data is smaller than the power consumption data and the generated power of the main power generation means is insufficient, the sub power generation means generates power for the shortage and the customer's power A server having a shortage power generation control command transmitting means for transmitting a shortage power generation control command for controlling to supply to a consumption facility to a secondary power generation control means for controlling the secondary power generation means of a power generation company via a communication network. The gist is to record the processing program on a computer-readable recording medium.
[0045]
In the present invention described in claim 12, when the main power data is smaller than the power consumption data and the generated power of the main power generation means is insufficient, the demand is generated by generating the insufficient power by the sub power generation means. Since the processing program of the server that transmits the insufficient power generation control command for controlling to supply to the power consumption equipment of the house via the communication network is recorded on the recording medium, the generated power of the main power generation means decreases. However, the shortage of electric power can be generated by the sub-power generation means, the power generation can be continued without being stopped, the reliability can be improved, and the flowability can be improved by using the recording medium.
[0046]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0047]
FIG. 1 is a block diagram showing the concept of a power supply and demand system to which a power control / management system according to an embodiment of the present invention is applied. In the figure, 11 is a device of a power generation company, 12 is a transmission network of an electric power company that transmits power supplied by the power generation company, and 13 is a customer who uses power transmitted through the power transmission network 12. A device, 14 is a device of an electric power company that controls and manages the demand for electric power, and 21 is a device of an electric power company.
[0048]
There are a plurality of power generators and consumers contracted with an electric power company having an electric power supplier's device 14 and a power generator company's device 11 and a customer's device 13 as the respective devices, and each power generator has a main power source. The electric power generated by the generator or the power generation facility (hereinafter collectively referred to as a generator) 15 constituting the main power generation means of the present invention owned as follows is supplied to the power grid 12 of the electric power company via the measuring instruments 161 and 16. Then, power is supplied to the consumer device 13 via the power transmission network 12.
[0049]
The power generation company device 11 monitors the power, power amount, power factor and the like supplied to the customer device 13 via the measuring device 16 and controls the power supplied to the customer device 13 and the like. The computer terminal 17 performs data communication with the server 19 of the electric utility apparatus 14 via the communication network 18.
[0050]
The server 19 constitutes the control means of the present invention, and the electric power generated by the main power source 15 as the main power generation means and the sub power source 113 as the sub power generation means depends on the power consumption in the power consumption facility of the consumer. Control. More specifically, the server 19 uses the biomass as fuel to be supplied to consumers, and the main power data obtained as a result of measuring the power generated mainly by the main power supply 15 with the measuring device 161 or the like via the communication network 18. The power is received by the main power data receiving means, and the hydrogen gas generated from the hydrogen-producing microorganism is used as a fuel to supplement the shortage of the power generated by the main power source 15, and the power is generated as a secondary. The power generated by the sub power source 113 owned by the power generation company that supplies the main power source 15 to use the dead bacteria of the hydrogen-producing microorganisms used as biomass fuel of the main power source 15 is used. Sub power data obtained as a result of measurement by a measuring instrument 162 or the like is received by the sub power data receiving means via the communication network 18, and the power consumed by the consumer is further reduced. The power consumption data as a result measured by the quantity meter 110 or the like is received by the power consumption data receiving means via the communication network 18, and the received main power data and the power consumption data are compared, and based on the comparison result. A control command for controlling the main power supply 15 and the sub power supply 113 so as to adjust the power generated by the main power supply 15 and the sub power supply 113 is sent via the communication network 18 to the main power supply 15 and the sub power supply 113 of the power generation company. Is transmitted from the control command transmitting means to the control means for controlling the control.
[0051]
In addition, the control command transmission unit of the server 19 determines that the main power data is smaller than the power consumption data as a result of the comparison between the main power data and the power consumption data. A sub-power generation control command for controlling the sub-power source 113 of the power generation company via the communication network 18 is transmitted to the sub-power generation control command for controlling to generate power by the sub-power source 113 and supply it to the power consuming facility of the consumer. The power generation control means is transmitted from the insufficient power generation control command transmission means.
[0052]
Moreover, the apparatus 11 for power generators of at least 1 contractor among several power generators has the generator 15 which can generate electricity by using biomass as a fuel as a main power supply. Further, the power generator's device 11 of the power generator constitutes the sub power generation means of the present invention in the vicinity of the main power source 15, and from the hydrogen generating microorganisms to assist the shortage of the power generated by the main power source 15. It has a plurality of sub power sources 113 that use the generated hydrogen gas as fuel to secondaryly generate power supplied to the power consuming equipment of consumers. The power generator company device 11 of the power generator having the main power source 15 and the sub power source 113 is in the vicinity of the responsible demarcation point between the power generator device 11 and the power transmission network 12 in order to measure the generated power and the amount of power. In addition to the measuring device 16 installed in the measuring device 16, the measuring device 161 has measuring devices 161, 162 installed near the main power supply 15 and the sub-power supply 113. The power generated by the power source 113 and the amount of power are measured and controlled. In this case, the measuring device 161 is not provided, and the measuring power 162 is measured by the measuring device 162 from the total generated power and the power amount measured by the measuring device 16. It is also possible to calculate by subtracting the generated power and amount of power from the sub power source 113, or conversely, the generated power and power amount of the sub power source 113 measured by this measuring device 162 without providing the measuring device 162. It is also possible to calculate by subtracting the generated power and electric energy of the main power source 15 measured by the measuring instrument 161 from the total generated electric power and electric energy measured by the measuring instrument 16.
[0053]
The sub power supply 113 is a fuel cell that uses hydrogen gas generated from hydrogen-producing microorganisms such as photosynthetic bacteria and anaerobic bacteria as fuel. In order to supply the sub power supply 113 with hydrogen gas as fuel, power generation is performed. The business apparatus 11 is filled with hydrogen-producing microorganisms, collects the hydrogen gas generated from the hydrogen-producing microorganisms, and supplies the sub-power source 113 with the photosynthesis reactor 114 and pipes from the photosynthesis reactor 114 to the sub-power source 113. The hydrogen storage tank 116 installed in the middle of the hydrogen gas supply pipe 115 is stored, the hydrogen gas from the photosynthetic reactor 114 is stored in the hydrogen storage tank 116, and the hydrogen gas supply amount to the sub power source 113 is adjusted.
[0054]
In addition, dead bacteria such as anaerobic bacteria and photosynthetic bacteria collected from the photosynthetic reactor 114 that have expired in the photosynthetic reactor 114 are sent from the photosynthetic reactor 114 to the killed bacteria storage tank 117 for predetermined processing. Then, the fuel is supplied to the main power supply 15 through the fuel supply pipe 118 as the fuel of the main power supply 15.
[0055]
The computer terminal 17 of the power generation company includes the ID of the power generation company, the generator type / basic data file, the generator characteristic monitoring menu file, the generator control / management menu file, the power generation plan file, and the past power generation data file. A weather data file and the like are inputted and stored in advance, and also have a data communication function with a server 19 of an electric power company and a data communication function with a center (not shown) necessary for acquiring weather information.
[0056]
The computer terminal 17 also measures and monitors necessary for control and management of the photosynthetic reactor 114, monitors the amount of hydrogen stored in the hydrogen storage tank 116, monitors the amount stored in the dead bacteria storage tank 117, and determines the amount of hydrogen supplied to the sub power source 113. Menu files such as monitoring and monitoring of fuel supply amount of dead bacteria to the main power source 15 are further inputted and stored.
[0057]
Each facility attached to the main power source 15 and the sub power source 113 may be owned by the electric power company 14 instead of the specific power generation company 11.
[0058]
On the other hand, in the consumer device 13, electric power is supplied from the electric power company's power transmission network 12 to the consumer's building 111 through the measuring instrument 110. The meter 110 measures the electric power, electric energy, power factor, etc. used in the customer's building 111, and the measured electric power, electric energy, power factor, etc. are taken into the computer terminal 112. The computer terminal 112 can communicate with the server 19 of the electric utility apparatus 14 via the communication network 18.
[0059]
The computer terminal 112 of the consumer device 13 is pre-inputted and stored with a customer ID, a consumer basic data file, a past power usage data file, a received power, a monitoring menu file such as received power, and the like, It has a data communication function with the server 19 of the electric utility device 14.
[0060]
If necessary, the electric power company can further purchase electric power from the electric power company and operate the business. In other words, the computer terminal 119 of the electric power company is connected to the power network 23 connected to the power transmission network 12 via the interface 25 and the communication network 18 via the interface 25, and the device for the electric power company is connected via the communication network 18. 14 has a computer terminal 119 having a function of performing data communication with the server 19, but the server 19 of the device 14 for the electric power company stores the power consumption conditions purchased from the electric power company in advance as a data file and is necessary. In such a case, an instruction can be issued to the computer terminal 119 of the power company device 21 to receive power from the power company.
[0061]
The server 19 of the device 14 for the electric power company includes the ID of the power generator and the customer, the generator (if the main power source and the sub power source are owned, the main power source, the same shall apply hereinafter), the sub power source ID and the basic data. Files, past generator data files, customer basic data files, secondary power source basic data files, customer past received data files, generator generator and secondary power generation plan files, Monitoring files related to required power, power generation results data file of sub power source, fuel stock remaining amount management file of main power source and sub power source, fuel supply control / management file, photosynthetic reactor environment control / management file, hydrogen storage tank control management File, power supply and demand balance control / management file, power supply command instruction file to generator and auxiliary power source of power generation company, with power company A supply and demand control file, a weather data file, a maintenance instruction management file for main and sub power supplies, a fuel replenishment order management file, and the like are input and stored in advance, and the computer terminal 17 of the power generator device 11 and the customer device It has a data communication function with a necessary center such as 13 computer terminals 112, a computer terminal 119 of the power company device 21, an auxiliary power maintenance center, a computer terminal of a fuel supplier, and a weather information management center.
[0062]
The server 19 of the device 14 for the electric power company receives and aggregates the data of the consumer ID and the electric power used from the computer terminal 112 of the device 13 for the consumer for every unit measurement time, and the computer of the device 11 for the electric power company. The output data of the main power supply and the sub power supply, the fuel supply data, the supplied power data, etc. are received from the terminal 17 and aggregated, and the power generation plan of the power generation company that is input and stored in the server 19 in advance, or appropriately communicated separately. A power generation control command is sent to the computer terminal 17 as necessary based on related information such as electric power company information and weather information acquired via the network 18 to control power supply and demand, as well as the main power supply 15 and the sub power supply 113. Increase / decrease control of power generation. The unit measurement time is a time interval shorter than a unit time related to control of electric energy.
[0063]
In FIG. 1, the server 19 of the electric utility device 14 receives the data on the power usage status of the customer's building 111 from the computer terminal 112 via the communication network 18, and the generator 15 of the electric power generator device 11. Power generation, power generation status, basic data, power generation plan, basic data on power usage in the customer concerned, power supply status of other power generation companies, and sub power supply that plays a role as auxiliary power for each unit time A power generation / stop command to 113 is transmitted to the computer terminal 17 of the power generator device 11 to adjust the power supply by the auxiliary power supply.
[0064]
In other words, when the auxiliary power source 113 plays a role as an auxiliary power source, if it is understood that the consumer's electricity usage is increasing, it is necessary to generate power from the auxiliary power source based on the power generation basic data input in advance. The sub-power supply 113 is activated a certain time before assuming the time to become, and control is performed to stop when the amount of electricity used by the consumer decreases.
[0065]
In the power control / management system according to the present embodiment, when the power supply from the generator is adjusted by the server 19 of the electric utility device 14, the main power supply 15 and the sub power supply 113 generate power. The server 19 compares and calculates the necessary expenses, the expenses accompanying the increase or decrease in the power generation output of the generator 15 of the generator 11 and the power supply from the power company, and the power supply by the generator of the power generation company or the electric company If it is determined that the cost can be reduced, it is determined to increase the power generation output of a part or all of the generator or to activate the sub power source 113 as an auxiliary power source. In this case, the computer terminal 17 that controls and manages the main power source 15 and the sub power source 113 generates necessary fuel when generating the remaining power data of the fuel supplied from the main power source 15 and the sub power source 113 and the necessary power amount by each power source by communication. If the basic fuel data is collected and the supplied fuel does not meet or may not meet the power generation amount of the main power source 15 and the sub power source 113, the server 19 may provide a part of the necessary supplemental power amount to the power company. It is possible to make a change decision to replenish electricity.
[0066]
Further, in the power control / management system of the present embodiment, the server 19 of the electric utility device 14 receives the power supply data of the generator 15 of each power generator device 11 from the computer terminal 17, and this supplied power Compare the data with the basic data of the generator 15, power generation plan, supply plan from the power company, consumer power usage, power usage status, power supply status of other power generators, and supply power command every unit time The power supply value of the generators of some power generators is based on the power generation plan determined in advance, or the power supply command values of the power companies, or certain upper and lower limits to those values. When power is supplied below the set control allowable range, the control allowable range where only the upper limit value is set, or the control allowable range where only the lower limit value is set, the generator 15 or sub By generating sources 113, planned power value, it is possible to compensate for the power shortage of a difference between the power supply command value, or a control tolerance and supply power.
[0067]
The server 19 of the device 14 for the electric power company receives the measurement data of the supplied power and the amount of supplied power from each of the generators 15 of each power generator device 11 and the power facility 23 of the power company. While receiving from the computer terminal 17 via the communication network 18, the measurement data of the electric power consumption and electric energy in the building 111 which is a power use facility of each consumer are transmitted from the computer terminal 112 of the consumer apparatus 13 via the communication network 18. The measurement data is received and compared with the related information data file such as the power generation plan, basic data, and weather information. As a result, the amount of fuel stock of the power generation company in which the main power source 15 and the sub power source 113 are installed is limited. If there is a possibility that the supplied power may be insufficient, calculate the shortage and calculate the amount of power that can be generated by each power source. The power supply from the power generation company or electric power company that owns the main power supply and sub power supply is reduced by comparison, and the reduction is compensated by the power generation and power supply of the power generation of other power generation business or electric power company. Is also possible. If the shortage of supply power is still not sufficient even with the amount of power generated by the auxiliary power supply, the server 19 contacts the power company center via the communication network 18 as described above, and the supply power requested in advance. In addition to the amount of power required, request for replenishment of required power and required power.
[0068]
In addition, when the power supply amount greatly exceeds the power consumption, the server 19 of the electric utility device 14 has the power purchase price from the electric power generation company, the power generation cost of the generator 113 owned by the electric power company, Comparing and calculating the electricity sales price of the customer and the purchase price from the electric power company, it is instructed to reduce the excess amount of power generation of the most expensive supply power source, or the excess is reduced more than the excess amount. Reduce the cost of power supply by adjusting the amount of power generated by the price generator.
[0069]
Next, the processing procedure of the power control / management system of the embodiment shown in FIG. 1 will be described with reference to the flowcharts shown in FIGS.
[0070]
The processing procedure of the power control / management system of this embodiment shown in FIGS. 2 to 4 is roughly divided into the power supply / demand balance evaluation of procedure A shown in FIG. 2, the power supply control of procedure B shown in FIG. 3, and the procedure shown in FIG. It can be divided into power reduction control of procedure C.
[0071]
First, in the power supply / demand balance evaluation of the procedure A shown in FIG. 2, the server 19 of the electric utility device 14 communicates the power generation status of each generator 15 of the power generator device 11 and the sub power supply 113 from the computer terminal 17. The information is received via the network 18 to grasp the power supply state in the power generator device 11 (step S11), and the power usage state in the customer's building 111 is similarly determined from the computer terminal 112 in the communication network 18. The power usage state at the consumer is ascertained (step S13). The server 19 of the device 14 for the electric power company grasps the power supply and power usage state, and then the basic data of the data file of each power generator device 11 that is input and stored in the server 19 in advance. , Power generation plan, basic data of power usage in each customer data file, and weather data such as weather, temperature, humidity received from the computer terminals of related organizations via the communication network 18 A comparison calculation is performed to estimate the amount of power used and the amount of power supply in the next unit measurement time, calculate the necessary power supply amount, and perform a supply-demand balance evaluation (step S15).
[0072]
As a result of the power demand balance evaluation described above, when it is estimated that the amount of power used exceeds the amount of power supply and it is determined that a certain amount of power supply is required, the required amount of power is replenished according to Procedure B shown in FIG. .
[0073]
That is, in the power supply control in the procedure B shown in FIG. 3, first, the server 19 of the electric utility device 14 sends the remaining fuel data to the generator 15 of the electric generator device 11 and the sub power supply 113 in the data file. , Refer to the basic data of power generation characteristics, and if part of the auxiliary power supply 113 is an auxiliary power source, refer to the basic data of power generation characteristics including necessary data such as fuel remaining amount data of the auxiliary power source. With reference to the electric power and electric energy supplied from the facility 23, prediction calculation of the electric power and electric energy which should be generated is performed (step S21).
[0074]
Next, the server 19 of the device 14 for the electric power company receives the state data of the generator from the computer terminal 17 of the device 11 for the power generation company 11 through the communication network 18, and the corresponding power generation of the device 11 for the power generation company. The power supply capacity from the machine 15 is calculated (step S23).
[0075]
Furthermore, the server 19 of the device 14 for the electric power company, from the data file of the server, the power purchase fee data from the power generation company, the power company, the power generation unit price data of the generator of the electric power company, and the auxiliary power source that is an auxiliary power source. The power supply from the generator 15 and the sub power supply 113 of the generator 11 is compared with reference to the auxiliary power sales charge data from the power supply, the power supplement charge data from the power company, and the fuel cost adjustment data if necessary. The amount increase, power generation of the auxiliary power source as an auxiliary power source, power generation cost and sales price related to power supplement from the power company are compared and calculated (step S25), and the most appropriate power supplement means is selected (step S27). Based on the selection result, whether to issue a command to increase the generated power to the corresponding generator 15 of the power generator device 11 (step S29), or to generate power from the auxiliary power source 113 as an auxiliary power source (step S31), Alternatively, a power supplement from the power company is requested (step S33).
[0076]
On the other hand, if it is determined in step S17 that the power supply amount exceeds the power usage amount as a result of the power supply / demand balance evaluation in step A in FIG. 2, the power reduction control in step C shown in FIG. 4 is performed.
[0077]
That is, in the power reduction control of the procedure C in FIG. 4, when it is determined that the power supply amount greatly exceeds the power usage amount (step S <b> 41), the generator 15 and the sub power source 113 of the power generator company device 11. Therefore, if necessary, the server 19 of the device 14 for the electric power company is able to adjust the power generation company in the data file in the same manner as the processing performed in the procedure B. The remaining power data and power generation characteristic basic data of the generator 15 of the power supply device 11 and the sub power source 113 are referred to, and the power and power amount supplied from the power company are referred to, and the power to be reduced and the predicted measurement of the power amount are performed. This is performed (step S43).
[0078]
Next, the server 19 of the electric utility device 14 receives the generator state data from the computer terminal 17 of the electric power generator device 11 via the communication network 18, and the state of the sub power supply 113 that is an auxiliary power supply. The data is also received via the communication network 18, and the power adjustment capability (reduction capability) from the corresponding generator 15 of the power generator device 11 and the power adjustment capability (reduction capability) of the auxiliary power source 113 as an auxiliary power source are obtained. Calculate (step S45).
[0079]
Along with these, the server 19 of the device 14 for the electric power company, from the data file of the server, the power purchase fee data from the power generation company, the power company, the power generation unit price data of the electric company's generator, and the auxiliary power source. Comparing and referring to supplementary power sales fee data from the power supply 113, power purchase fee data from the power company 118, and fuel cost adjustment data if necessary, the amount of power supplied from the generator 15 of the generator 11 Comparison and calculation of reduction, generation stoppage or reduction of the auxiliary power supply 113 as an auxiliary power supply, generation cost related to power reduction from an electric power company, sales price, etc. (step S47), and selection of the most appropriate power reduction is performed (step S49). ). Based on this selection result, whether to issue a command to reduce the generated power to the corresponding generator 15 of the power generator device 11 (step S51), or whether to stop or reduce the power generation of the auxiliary power source 113 as an auxiliary power source (step S51). S53), or a request for power reduction from the power company is made (step S55).
[0080]
As another method, based on the result of comparison of power generation prices, the power generation amount of some power generator equipment 11 or the sub power source 113 that is an auxiliary power source or the power supply amount from the power company is set to an excess amount or more. If it is possible to reduce the cost related to power supply by reducing the amount and replacing the appropriate amount by power generation by another power generation means instead, a reduction order is issued to the power generation means or the power supply means. It is also possible to make adjustments by issuing an increase command to the power generation means. In such a case, a reduction command or an increase command is issued from the server 19 of the electric utility device 14 to the computer terminal via the communication network 18 to an appropriate power generation unit or power supply unit, or appropriate. A reduction command or an increase command is issued to the power generation unit by another communication unit.
[0081]
As described above, the power control / management of the present embodiment can be performed by repeatedly performing the procedures A, B, and C for a period in which the necessary electric business is continued. However, the processing procedure of the power control / management system shown in FIGS. 2 to 4 is merely shown as a concept for concretely implementing the present invention, and the contents of the present invention may be implemented. It is not limited to this.
[0082]
FIG. 5 shows an example of a case where the power control / management system is constructed by owning the main power source and the sub power source as power generation facilities in the embodiment shown in FIG. 2 is a diagram showing an example of a configuration in the case where a secondary battery for performing power storage is provided in a fuel cell of a secondary power source while being arranged in the vicinity of and performing power supply control.
[0083]
In FIG. 5, the sub power supply 113 has a fuel cell (FC) 41 as a generator, and the fuel gas of the fuel cell 41 is a fuel gas supply having one end connected to the photosynthetic reactor 114 shown in FIG. 1. The steam is supplied from the pipe 42 to the reformer 45 through the open / close control valve 43 and the flow meter 44, and the reformer 45 converts the steam from the exhaust gas containing the steam generated as a result of power generation from the fuel cell 41 into the hydrogen gas. The water vapor taken out in step (1) is mixed by the separate opening / closing control valve 47 so that the optimum mixing ratio is obtained, and then supplied to the fuel cell 41. The direct current power generated by the fuel cell 41 is exchanged from direct current to alternating current by the inverter 48, and is supplied to the power cable connecting the meter 16 and the meter 161, which is the main line of power supply, through the meter 162 and the circuit breaker 49. Further, the power cable is supplied to the power transmission network 12 via the measuring device 16.
[0084]
When it is preferable to operate the fuel cell 41 for a relatively long time depending on conditions such as efficiency, or when it is desired to replenish the insufficient power for a relatively short time when the supply power is insufficient, the fuel cell system The secondary battery 410 can be additionally provided, and excess power can be temporarily stored.
[0085]
In this case, the changeover switch 411 is provided in the power cable between the fuel cell 41 and the inverter 48, and the necessary power is satisfied by the amount of power supplied from the generator 15 of the power generator device 11. When there is a surplus in the power generation output, the changeover switch 411 is switched to convert the output voltage of the fuel cell 41 to an optimum voltage for the secondary battery 410 via the DC / DC converter 412, and the secondary battery 410 is charged. To do. When supplying the charged power from the secondary battery 410, another changeover switch 413 is provided to switch from the charging circuit to the supply circuit, and supply the power from the secondary battery 410 to the inverter 48. The inverter 48 converts the direct current power supplied from the secondary battery 410 from direct current to alternating current, and supplies this to the main line of the supplied power through the measuring device 162 and the circuit breaker 49.
[0086]
The above-described power generation adjustment of the fuel cell 41, charging / discharging of the secondary battery 410, and control of peripheral devices associated therewith are performed by the control device 414. In addition, the command to the control device 414 is executed in response to a command signal from the computer terminal 17 of the power generator company device 11. That is, the control device 414 adjusts the on-off valves 43 and 47, adjusts the fuel gas supply speed, controls the power generation of the fuel cell 41, controls the reformer 45, controls the steam separator 46, and controls the inverter 48. Thus, reliable power generation of the fuel cell 41 is performed. Further, the control device 414 performs control of the changeover switches 411 and 413, control of the DC / DC converter 412, in addition to the above-described adjustment and control of the fuel cell power generation, in order to perform charging and discharging of the secondary battery 410. Charge / discharge control of the secondary battery 410 is executed.
[0087]
Note that the control by the control battery 414 described above is not performed by the computer terminal 17, but another computer terminal 415 is additionally installed and the computer terminal 415 is connected to the computer terminal 17 as shown in FIG. It is also possible to connect to the computer terminal 17 via a wireless line, and the computer terminal 415 can execute these controls after receiving a control command from the computer terminal 17 once.
[0088]
In addition to the control instruction of the control device 414, the computer terminal 17 or the computer terminal 415 executes the control instruction, the generated power of the fuel cell 41, battery temperature, supplied fuel gas, air temperature and supply speed, exhaust gas concentration. And temperature, reformer device temperature, gas concentration before and after reforming, water vapor concentration, voltage of secondary battery 410, current, battery temperature, charge / discharge time, etc. are monitored.
[0089]
The computer terminal 17 or the computer terminal 415 ensures the reliability and safety of the system in addition to the monitoring and control directly related to the power generation of the fuel cell 41, the charge / discharge of the secondary battery 410 and the supply of the generated power described above. In addition, by monitoring the deterioration state of the electrode plate of the fuel cell 41, the deterioration state of the catalyst of the reformer 45, the deterioration state of the secondary battery 410, etc., the deterioration state of the fuel cell 41 and the secondary battery 410, In addition to grasping safety, predict the replacement timing of the fuel cell electrode plate, reformer catalyst, and secondary battery that have reached the end of their life, determine timely replacement orders and periodic inspection timing from related suppliers, It is determined whether to issue a warning related to safety in advance, avoidance of power generation by the sub power supply 113, or the like. However, the configuration concept in FIG. 5 is merely a specific example of the present invention, and the content of the present invention may be realized, and is not limited to this.
[0090]
FIG. 6 shows the server 19 and the generator business apparatus of the power generator apparatus 11 related to the operation of the main power supply 15 and the sub power supply 113 which are specific examples of the power control / management system of this embodiment shown in FIG. It is a figure which shows an example of the concept of data transmission / reception via a communication network with 11 computer terminals 17, the computer terminal of a maintenance contractor, and the terminal of a fuel supplier.
[0091]
The computer terminal 17 or the computer terminal 415 of the sub power supply 113 monitors the power generation, power amount, power factor, power generation efficiency and variation rate thereof of the main power supply 15 and the fuel cell 41 of the sub power supply 113 as well as power generation control. Further, monitoring of the device temperature of the fuel cell 41, monitoring of vibrations and temperature fluctuations necessary for determining the deterioration state of the device, and the monitoring result data from the computer terminal 415 via the computer terminal 17 or The data is transmitted from the computer terminal 17 directly to the server 19 of the electric utility apparatus 14 via the communication network 18.
[0092]
The computer terminal 17 or the computer terminal 415 performs data sampling of the main power supply 15 and the fuel cell 41 and transmission to the server 19 as well as a dead bacteria storage tank 117 which is a fuel tank of the main power supply 15 and a hydrogen storage tank of the fuel cell 41. When the fuel remaining amount of 116, data sampling of the fuel supply speed in the fuel supply meter, further fuel quality data sampling if necessary, etc., and when the secondary battery 410 for power storage is additionally provided, In addition to this, data sampling such as discharge voltage, discharge current, charging voltage, charging current, internal resistance, electric temperature, pause voltage change of each secondary battery 410, battery voltage variation, etc. Similarly, these data are similarly transferred from the computer terminal 17 or the computer terminal 415. Via Yuta terminal 17 via the communication network 18 to a server 19 of the electric utility equipment 14.
[0093]
Data such as periodic inspections, repairs, and failures of the main power supply 15, the fuel cell 41, and the secondary battery 410 are input by the person in charge into the computer terminal 17 from the keyboard and from the computer terminal 17 through the communication network 18 to the electric power business It transmits to the server 19 of the apparatus 14 for people. The fuel quality data may be manually input by the person in charge using the keyboard.
[0094]
The server 19 of the electric utility device 14 receives the sampling data from the computer terminal 17 of the electric power generator device 11 and stores the received data in the status data file, as well as the power generation characteristics of the main power supply 15 and the fuel cell 41. Data, fuel quality standard data, charge / discharge characteristic data of the secondary battery 410, basic data file storing the contractor data and the like, the main power source 15, power generation result data of the fuel cell 41, periodic inspection / repair / failure occurrence result data, fuel Usage data, actual data for replenishing the dead bacteria storage tank 117 as a fuel tank, actual data for generating hydrogen gas in the photosynthetic reactor 114, actual data for supplying hydrogen to the hydrogen storage tank 116, and charging / discharging of the secondary battery Required from past performance data files that store performance data, battery replacement performance data, etc. Evaluation of the necessity for maintenance and inspection related to power generation of the auxiliary power source, such as the deterioration state of the main power supply 15, the fuel cell 41 and the secondary battery 410, and the comparison between the amount of fuel required and the remaining amount in the arithmetic circuit Perform the necessary processing. Based on the results, if power generation adjustment instructions for the main power source and the fuel cell, instructions for charging and discharging the secondary battery, instructions for repair / inspection, etc. The necessary instructions are transmitted via the communication network 18 to the computer terminal 17 of the computer 11 of the apparatus 11, the computer terminal of the maintenance company, and the computer terminal of the fuel supplier, and specific measures are taken.
[0095]
When the owner of the main power source 15, the fuel cell 41, and the secondary battery 410 is a power generation company, the power generation control and power generation facilities of these facilities before the demarcation point of the power generation company from the measuring instrument 16 In the management control, a new server is installed in the vicinity of the computer terminal 17 of the power generator device 11 or in the vicinity of the computer terminal instead of the server 19 of the device 14 for the electric power company. It is also possible for the computer terminal 17 of the power generation company's apparatus 11 or a newly installed server to execute it according to the power generation adjustment command received via the communication network 18.
[0096]
In addition, when the electric power company owns the main power supply 15 and the sub power supply 113 and the facilities related to the power generation are installed in a site managed by the electric power company or in an area where such facilities can be managed. The server 19 of the electric utility apparatus 14 can perform all control management and maintenance management from the data sampling described above. It should be noted that from the server 19 of the device 14 for the electric power company related to the communication command necessary for refueling and maintenance shown in FIG. 6, the computer terminal 17 and the computer terminal 415 of the power generation company, the computer terminal of the fuel supplier and the maintenance company The configuration is merely an example and is not limited to this configuration.
[0097]
7A and 7B show, as part of the configuration concept of the power control / management system of the present embodiment, hydrogen gas that is fuel of the sub power supply 113 is produced and biomass fuel of the main power supply 15 is collected. It is a figure which shows the structure of the photosynthetic reactor 114 for doing.
[0098]
That is, FIG. 7A shows an example of the structure of the photosynthetic reactor 114 applicable to the power control / management system of the present embodiment. 61 is an organic aqueous solution tank 61, and the organic aqueous solution The tank is filled with an organic aqueous solution 62 containing organic waste liquid and water, photosynthetic bacteria, photosynthetic bacteria nutrients and anaerobic bacteria. The organic aqueous solution tank 61 is placed in a cooling water tank 63, and the temperature of the aqueous solution tank is adjusted so that photosynthetic bacteria and anaerobic bacteria generate hydrogen gas most efficiently and have a predetermined life. The organic aqueous solution 62 in the organic aqueous solution tank 61 is replaced at regular intervals by the supply pipe 64 and the drain pipe 65 to maintain the optimum conditions. The organic aqueous solution tank 61 is arranged so that at least one surface of the outer wall can irradiate sunlight or the corresponding sufficient light necessary for the photosynthetic bacteria to generate hydrogen gas.
[0099]
When such light irradiation is insufficient due to site conditions or the like, the organic aqueous solution 62 in the organic aqueous solution tank 61 is irradiated with light using an optical fiber or the like as shown in FIG. Realize. That is, in FIG.7 (b), 69 is a daylighting part, The light gathering surface is closely packed with many optical fibers perpendicular | vertical to a surface, and light, such as sunlight, injects from the optical fiber end part. It is like that. The multiple optical fibers are filled in an optical fiber cable 610, and the optical fiber cable 610 is again divided into individual optical fibers 612 by the spectroscopic unit 611, and light is diffused into the organic aqueous solution 62 from the end portion. The photosynthetic bacteria in the organic aqueous solution generate hydrogen gas by the light thus collected.
[0100]
The generated hydrogen gas is collected by water replacement. However, in the structure shown in FIG. 7A, it is possible to collect by tilting the water tank, and the highest position of the organic aqueous solution tank 61 becomes higher. A hydrogen gas supply pipe 115 is connected to the upper part of the outer wall, and hydrogen gas can be collected. In the structure shown in FIG. 7B, the upper part of the organic aqueous solution tank 61 in the cooling water tank 63 is formed in a funnel shape, and the end of the hydrogen gas supply pipe 115 is connected to the upper end of the funnel to supply hydrogen gas. Can be collected.
[0101]
On the other hand, the cooling water in the cooling water tank 63 is circulated by the supply pipe 66 and the drain pipe 67 or exchanged at regular intervals. The supply pipes 64 and 65, the drain pipes 66 and 67, and the hydrogen gas supply pipe 115 are provided with an opening / closing control valve 68 and the like, and adjust the supply amount and drainage amount of each.
[0102]
A collection box 613 for killing photosynthetic bacteria and killed anaerobic bacteria is installed at the bottom of the organic aqueous solution tank 61, and a shielding plate 614 is installed between the organic aqueous solution tank 61 and the collection box 613. When certain dead bacteria are accumulated in the collection box 613, the shielding plate 614 is driven by the drive motor 615 to partition and take out the dead bacteria.
[0103]
An optical sensor, a hydrogen sensor, a temperature sensor, a nitrogen concentration sensor, etc. are arranged in the organic aqueous solution tank 61 and the cooling water tank 63 to monitor the state of the organic aqueous solution 62 and the cooling water, and the monitoring data is transmitted to the communication circuit. Is transmitted to the computer terminal 17 of the power generator company device 11. Further, the opening / closing adjustment valve 68 and the drive motor 615 are connected to the control device 414 through electric wiring to control the supply amount, the drainage amount and the like.
[0104]
The photosynthetic reactor 114 is installed in a sewage treatment plant that can supply organic waste liquid, a livestock manure treatment plant, a shore of an organic polluted lake, a river shore of an organic polluted river, a slaughterhouse, a fish market, a vegetable market, a living environment, It is more effective and preferable in combination with the maintenance and conservation aspects of the natural environment.
[0105]
With the above configuration, fuel can be efficiently procured from the main power source and the sub power source, which can be implemented more effectively than the power control / management system of this embodiment. Note that the configuration of the photosynthetic reactor 114 illustrated in FIG. 7 is merely an example, and the content of the present invention may be realized, and is not limited to this configuration.
[0106]
The organic waste liquid supplied to the photosynthetic reactor 114 can use a wide range of domestic waste water and waste such as domestic organic waste water, human manure, livestock manure, vegetable and seafood waste, and photosynthetic bacteria and anaerobic bacteria. To make the concentration suitable for inhabiting, adjust the water supply, and add inorganic salts and nitrogen-containing compounds to grow photosynthetic bacteria.
[0107]
In order to produce hydrogen gas used as fuel for the fuel cell 41, the photosynthetic bacteria and anaerobic bacteria charged in the photosynthetic reactor 114 may be bacteria that can stably supply an amount of hydrogen gas that can be generated by the fuel cell 41 as fuel. The type is not particularly limited, but a type that satisfies as many of the following conditions as possible is preferable.
[0108]
(1) The hydrogen absorption effect by hydrogenase that catalyzes the hydrogen absorption reaction for taking in hydrogen generated in photosynthetic bacteria and anaerobic bacteria as nutrients of the photosynthetic bacteria and anaerobic bacteria is small.
[0109]
(2) A light source capable of covering a wavelength band effective for photosynthesis of photosynthetic bacteria can be irradiated.
[0110]
(3) The cell functions of anaerobic bacteria and photosynthetic bacteria are stable.
[0111]
(4) Deterioration of anaerobic bacteria and photosynthetic bacteria as much as possible is not promoted by setting the aqueous bath temperature.
[0112]
(5) It has the light permeability of photosynthetic bacteria that hydrogen gas generation can be continued efficiently.
[0113]
As an example of the anaerobic bacteria filled in the photosynthetic reactor 114 in this embodiment, Escherichia coli, which is most popular, or preferably the degree of deficiency of hydrogen-absorbing hydrogenases Hyd I and Hyd II and hydrogen-producing hydrogenase Hyd III was adjusted. Mutant strains and the like can be used (Hayade et al., Proceedings of the 76th Annual Meeting of the Chemical Society of Japan II 1A3 13, p740, 1999). Other anaerobic bacteria include Clostridium sp., Enterobacter sp., Escherichia coli., Klebsiella sp., Azotobacter sp., Azotobacter sp. (Ruminococcus sp.), Bacteria of the genus Sarcinia (Sarcina sp.) Can be used.
[0114]
On the other hand, as an example of the photosynthetic bacteria filled in the photosynthetic reactor 114 in the present embodiment, Rhodobacter spheroids RV (Rhobacter spheroids RV) strain (Deposit No. 7254, Institute of Biotechnology, National Institute of Advanced Industrial Science and Technology) A new strain that reduces light absorption by bacteriochlorophyll obtained by inducing mutation by 35 to 40% and light absorption by carotenoids by 25 to 30%, reducing self-shielding effect and increasing light transmission The dye-deficient strain MTP4 (deposited by the Biotechnology Research Institute of the National Institute of Technology) can be used (Kondo et al., Japanese Patent Application No. 11-260608, Kondo et al., The Chemical Society of Japan). 76th Spring Annual Conference Proceedings II 1A313, P, 740.1999). By using the MTP4 strain, the hydrogen gas generation amount can be increased by about 20%.
[0115]
Furthermore, in order to increase the amount of hydrogen gas generated by the photosynthetic bacteria, as proposed in the above Japanese Patent Application, the photosynthetic reactor 114 is composed of a plurality of element reactors, and these element reactors are arranged along the light source direction. The dye source of Rhodobacter ferroides RV dye-deficient MTP4 is filled in the front part of the light source and the Rhodobacter ferroides RV strain is filled in the rear part of the light source. The photosynthetic reactor 114 can also be configured by alternately filling MTP4 strains. With such a configuration, it is possible to increase the hydrogen gas generation rate by nearly 10% compared to when only the MTP4 strain is used, and by approximately 25% than when only the RV strain is used.
[0116]
However, the configuration of the organic aqueous solution, the anaerobic bacteria, the photosynthetic bacteria, and the photosynthetic reactor is merely a specific example of the photosynthetic reactor in the power control / management system according to the present invention. As long as hydrogen gas can be supplied, fuel cell power generation can be performed, and dead bodies of anaerobic bacteria and photosynthetic bacteria can realize power generation as a main power source fuel, the present invention is not limited thereto.
[0117]
FIG. 8 shows the biomass of the main power supply 15 after the anaerobic bacteria and photosynthetic bacteria killed in the photosynthetic reactor 114 are collected by the collection box 613 as a part related to the configuration concept of the power control / management system of this embodiment. It is a figure which shows an example of the structure concept of the process adjusted as a fuel.
[0118]
In FIG. 8, the anaerobic bacteria and the killed bacteria of the photosynthetic bacteria collected by the collection box 613 of the photosynthetic reactor 114 are once accumulated in the collection tank 71 from the collection box 613 by a belt conveyor or the like. 72 is crushed into granules having an average diameter of 1 mm or less, more preferably an average of 0.3 mm or less, and stored in a tank 73. The pulverized dead bacteria pass through the opening / closing control bubble 74 as biomass fuel as it is, and is supplied to the dead bacteria storage tank 117 of the main power supply 15 through a path indicated by (1) in FIG. The above-described method can be used as a biomass fuel as it is except for crushing killed bacteria to a predetermined particle size by a simple process, so that the cheapest fuel can be supplied, greatly contributing to the reduction of power generation costs. Will be fulfilled.
[0119]
As another biomass fuel, dehydrated water produced in a dehydrator 711, which will be described later, is supplied to the tank 73 as indicated by the dotted line, and the killed bacteria stored in the tank 73 are adjusted to a certain amount of water and killed. The bacterial slurry is prepared, pressurized with a high-pressure pump 76, conveyed to a hot water reactor 77, reformed and carbonized by oxygen-free high-pressure heat treatment. This carbohydrate is fractionated by the gas-liquid separator 78, returned to normal pressure via the pressure drop valve 79, and temporarily stored in the tank 710. This is sent to a dehydrator 711, after removing a certain amount of water, it is pulverized by a pulverizer 712, passes through an opening / closing control valve 713, and is supplied as carbonized fuel to the main power supply 15 through the path shown in FIG. It supplies to the dead bacteria stockpile tank 117.
[0120]
In the above-described method, the water concentration of the killed bacteria slurry in the tank 73 is not particularly limited as long as it is suitable for adjustment of the fuel that can generate power from the main power source, and is, for example, 10 wt% or more and 20 wt%. preferable.
[0121]
Further, in the above-described method, the temperature and pressure of the high-pressure pump 76, the pressurization and heating conditions of the hot water reactor 77 may be the same as long as the pulverized carbide obtained in this process can be used as the fuel for the main power source 15. Although not particularly limited, as an example, it is preferable that the high-pressure pump 76 is 30 ° C. and 12 MPa, and the hot water reactor 77 is 300 ° C. or more and 12 MPa.
[0122]
Further, the pulverized carbonized fuel obtained by the above-described method is not particularly limited as long as it can generate power from the main power source 15, and is preferably 0.05 mm or less, and more preferably 0.02 mm or less. The particle size is adjusted.
[0123]
Although the above steps are complicated compared to the above method, the carbonized fuel obtained is about 2,500 kcal / l, which is several times as high as calories, compared to about several hundred kcal / l of fine powder killed bacteria of the method. There is an advantage of becoming a fuel.
[0124]
As another fuel adjustment method, the finely divided carbide obtained by the dehydrator 711 and the fine pulverizer 712 in the above method is adjusted to a cake state with a water content of about 30%, and then a high-concentration slurry is formed by a kneader 714 to produce biomass. 8 is stored in the BSF storage tank 715 as slurry fuel (BSF, Biomass Slurry Fuel), and supplied as fuel of the main power supply 15 via the opening / closing control valve 716 through the path indicated by (3) in FIG.
[0125]
The above-described process is more complicated than the above process, but has an advantage that a high-calorie fuel of about 5,000 kcal / l can be obtained.
[0126]
Further, the biomass slurry fuel (BSF) has an advantage that the BSF can be compacted and solidified into a pellet when the adjustment process is away from the installation location of the main power supply 15.
[0127]
In addition, the heat generated by the above-described biomass fuel adjustment process circulates the heat transfer oil 717 through the oil tank 718 and the pump, recovers the waste oil in the tank 719, and the waste oil is mainly supplied via the opening / closing control valve 720. The fuel of the power source 15 can be supplied through the route indicated by (4) in FIG. As another method of using the generated heat, the tank 719 can be installed as a heat exchanger and waste heat can be used.
[0128]
Grinding control of the pulverizer 72, pressurization control of the high-pressure pump 76, oxygen-free, pressurization and heating control of the hot water reactor 77, gas-liquid separation environment control of the gas-liquid separator 78, drop of the pressure reducing valve 79 Pressure control, dehydrator 711 dehydration control, fine pulverizer 712 fine pulverization control, kneader 714 kneading slurry control, open / close adjustment valves 73, 713, 716, 720 open / close adjustment, biomass feed in the vicinity of tank 710 The control of the pump and the control of the oil transport pump in the vicinity of the oil tank 718 are expressed by electrically connecting the respective device control units and the control device 414.
[0129]
Also, sensors installed in each connection for monitoring the accumulated amount of dead bacteria in the accumulation tank 71, the remaining amount of the tank 73, the remaining amount of the tank 710, the stored amount of the storage tank 715, the remaining amount of the oil tank 718, etc. The measuring instrument and the computer terminal 17 are connected by a connection cable for monitoring, and collected as information for control in the computer terminal 17.
[0130]
As another method other than the method shown in FIG. 8, gasification can be performed by further heating under anoxic conditions or by supply of a gasifying agent such as steam or air, or a certain amount of heavy oil can be applied to dead dry bacteria. It can be mixed to form a liquid mixture, or can be used as fuel for power generation of the main power source 15 by pulverizing dead dry bacteria and mixing with water using an air-jet pump or the like to form a liquid mixture. is there.
[0131]
As described above, the great advantage of using dead bacteria as biomass fuel is that coal has a large ash content of 7.5% (in the case of bituminous coal), and it is necessary to secure a site for waste coal treatment or for waste coal treatment. Compared to the fact that the location conditions are largely limited to adjacent sites such as cement factories, the ash content of such dead bacterial biomass is about 0.5%, and the restriction conditions when the amount of waste coal is greatly reduced and lime is used as fuel The advantage of being freed of can be emphasized.
[0132]
In addition, the by-product generated in the above-mentioned biomass fuel adjustment process is wood vinegar solution, agricultural products such as soil improvement of farmland, prevention of pests, dairy products such as livestock manure deodorant, food industry such as smoked fuel A wide range of use such as supplies is possible, and there is an advantage that it is possible to contribute to the reduction of the cost required for the construction and operation of the power control / management system of this embodiment.
[0133]
The fuel adjustment method described as the configuration shown in FIG. 8 and other methods is merely an example of the present invention. In the power control / management system of the present invention, such dead bacteria are the main power source. As long as it can be effectively and efficiently used as a fuel, it is not limited to this.
[0134]
FIG. 9 shows an example of a configuration concept for supplying an anaerobic bacterium killed in the photosynthetic reactor 114 and biomass fuel adjusted from the photosynthetic bacterium to the main power supply 15 as a part related to the configuration concept of the power control / management system of the present embodiment. FIG.
[0135]
In FIG. 9, when the stock amount of the dry killed bacteria of the biomass fuel obtained by each method shown in FIG. 8 reaches a certain amount, the opening / closing control valve 74, 713, 716 or 720 shown in FIG. It moves to the fuel supply machine 81 by suitable conveying means such as a feeder. The biomass fuel transferred to the fuel supplier 81 is mixed with the carrier air 83 via the fuel supply meter 82, supplied to the boiler 84, and burned by the burner 86 while mixing the combustion air 85. The combustion gas 87 is once again circulated and supplied to the boiler 84 by the recirculation fan 88. The combustion waste gas is transferred to the electric dust collector via the desulfurizer 89 and the air preheater 810 and processed. The air supplied for the combustion is fed into the fuel supply device 81 after adjusting the temperature and pressure of the push-in fan 811, the primary air fan 812, and part of the air via the air preheater 810.
[0136]
In FIG. 9, a fuel tank such as a fuel supply device 81, a fuel storage tank in the fuel injection section, and a fuel supply line are provided with sensors for managing and controlling the fuel storage amount and the fuel supply amount. A drive motor is provided for the air supply / exhaust system such as the machine 810, the push-in fan 811, the primary air fan 812, and the recirculation fan 88, and the sensor and the computer terminal 17 of the power generation company that owns the main power supply are connected via a communication line. And connected to the drive system via the electrical wiring to the control device 414 to control and manage the fuel supply amount, thereby realizing efficient operation of the power control and management system. The configuration concept shown in FIG. 9 is merely a specific example of the present invention, and in the power control / management system of the present invention, if biomass fuel can be used effectively and efficiently as the fuel of the main power source. Well, it is not limited to this at all.
[0137]
FIG. 10 is a diagram showing an example of the configuration concept of the main power supply 15 as a part related to the configuration concept of the power control / management system of the present embodiment. Specifically, FIG. 9 uses a steam turbine generator as the main power supply. It is a figure which shows an example of the concrete structural concept in the case of doing.
[0138]
In FIG. 10, the main power source 15 includes a generator 95 connected to a steam turbine 94 having a steam boiler 84, a condenser 91, a feed water pump 92, and a superheater 93.
[0139]
Biomass fuel based on killed bacteria is supplied to the steam boiler 84 directly from the fuel supply machine 81 shown in FIG. 9 via the fuel supply meter 82. The electric power generated by the generator 95 is transmitted to the power grid 12 of the power company via the measuring devices 161 and 162, the circuit breaker 49, and the measuring device 16.
[0140]
The boiler 84, condenser 91, feed water pump 92, superheater 93, steam turbine 94, and generator 95 are connected to the control device 141 and controlled by the control device 414, and the control device 414, fuel supply meter 82 and the meter 162 are connected to the computer terminal 17 by a connection cable, monitor the fuel supply speed, power supply output, power amount, etc., and send a control signal to the control device 414 to instruct power generation or stop of the auxiliary power supply. . As described above, the computer device 17 has a function of communicating with the server 19 of the electric utility device 14 and receives an instruction for power generation control of the main power supply 15 from the server 19 via the communication network 18. Transmit information such as power generation data.
[0141]
Moreover, in FIG. 10, in order to cope with a decrease in fuel stockpile based on killed dry bacteria, power generation by the main power source 15 can also be implemented for stockpile of alternative biomass fuel. That is, FIG. 10 also shows an example of a configuration concept that can supply alternative biomass fuel together with biomass fuel based on dead bacteria.
[0142]
Specifically, in FIG. 10, in order to supply the alternative biomass fuel together with the killed bacterial biomass fuel, a fuel tank 96 is installed and supplied to the mixing adjuster 98 via the open / close adjustment valve 97 and the fuel supply meter 821. The mixing adjuster 98 adjusts the mixing of the mixed biomass according to the biomass fuel mixing ratio monitored from the meter 82 and the meter 821, and supplies fuel to the steam boiler 84 via the fuel meter 99. To do.
[0143]
The storage meter, fuel meter 821 and 99 of the alternative biomass fuel storage tank 96 are connected to the computer terminal 17 via a communication line, and the open / close adjustment valve 97 and the mixing regulator 98 are connected to the controller 414. The fuel supply and the mixing adjustment state are respectively managed and controlled by the control device 414, and the power generation of the main power supply 15 is realized.
[0144]
FIG. 8 shows the case where the alternative biomass fuel is not an adjusted fuel but a biomass fuel state such as wood chips such as thinning agents and construction waste, waste paper, human manure, livestock manure, crops and marine product waste. It is optimal for power generation of the main power source 15 through the biomass adjustment process similar to that of the above-mentioned dead bacteria using the biomass fuel adjustment equipment in the case of using dead bacteria as a raw material as an example of the above-described structural concept. Alternative biomass fuels can be adjusted.
[0145]
In such a case, if necessary according to the water content of the raw material, a drying step or the like is prepared and implemented in advance. Further, if necessary, the conditions such as the pulverizing condition of the pulverizer 72, the water content in the tank 73, the pressure of the high-pressure pump 76, the reaction pressure of the hot water reactor, the reaction temperature, etc. are examined in advance and optimized. Ascertain the necessary conditions, input them in advance into the computer terminal 17, set new conditions based on this basic data, and adjust the optimum biomass fuel for power generation of the main power source 15 from the raw materials.
[0146]
When it is impossible or extremely difficult to supply the alternative biomass feedstock to the biomass fuel adjustment facility locally or in price, the biomass fuel adjustment is adjusted from dead bacteria in a place suitable for adjustment of the alternative biomass fuel. A facility different from the facility is constructed and the biomass fuel is adjusted and then transported to the main power source 15.
[0147]
When the server 19 of the apparatus 14 for the electric power supplier determines that the alternative biomass fuel is mainly used to generate the power from the main power source 15 or that the cost of generating electricity using the alternative biomass fuel is reduced. Therefore, it is not necessary to generate the main power source 15 mainly or using only biomass fuel prepared from dead bacteria.
[0148]
In addition, in the power control and management system according to the present invention, when it is necessary to further reduce the power generation cost, fuel normally used such as heavy oil is used separately from the killed bacterial biomass fuel and alternative biomass fuel of the present invention. It is also possible to use it. In addition, it is possible to procure waste tires and plastics at low prices, and it is also possible to use high-calorie alternative materials as fuel for power generation. In the case of using the latter substitute material, in addition to the fuel tank 96 shown in FIG. 10, a stock yard having an appropriate site area capable of storing a necessary amount of the substitute material is provided, and the yard is cut to an appropriate size. Stock up alternative substances. If necessary, install a belt conveyor in the yard, place one end so that the alternative material stored in the stock yard can be supplied to the conveyor, and connect the other end to the mixing regulator 98 or direct boiler It is arranged at the fuel supply port 84 so that the alternative substance can be supplied as fuel.
[0149]
The configuration shown in FIG. 10 is only an example of the configuration of the present invention, and the content of the present invention may be realized, and the configuration is not limited thereto.
[0150]
Further, in order to operate the power control / management system of the present invention most efficiently, the scale of the generator or power generation facility as the main power source and the fuel cell system as the sub power source is the operation purpose of the sub power source for the main power source, In other words, whether it is leveling the output of the main power supply, ensuring the supply balance for the consumer's power consumption, or for supplying ultra-reliable demand such as IT systems, or for other purposes It depends on what. In addition, the scale of the organic aqueous solution tank containing hydrogen-producing bacteria for satisfying the amount of killed bacteria biomass fuel and hydrogen gas supplied to the main power source and the sub power source is the fuel composition of the main power source, that is, the dead bacteria It largely depends on the design of the ratio of biomass fuel to the total fuel supply and the design of the scale ratio of the main power supply and sub power supply.
[0151]
An example of the operation scale of the power control / management system of the present invention is that the output scale of the main power source capable of smoothly maintaining the business operation is 1,000 kw or more, preferably 3,000 kw or more, and the upper limit of the output Can be determined by the scale of fuel stock and the power consumption of consumers. If the output is smaller than the above output, the cost of power generation increases due to the increase in the labor cost ratio of the operator, and it is not preferable because it is difficult to secure the on-site power supply. Further, the output scale of the fuel system of the sub power source can be 10% to 50%, preferably 10% to 30% of the output of the main power source. If it is less than the output, the power generation efficiency of the sub power supply is significantly lowered, which is not preferable. Moreover, if the output is exceeded, the power generation cost will rise, which is also not preferable.
[0152]
In addition, the scale of the organic water tank containing hydrogen-producing bacteria is assumed to be 1 cubic meter or more and 1,000 cubic meters or less per 1 kW of fuel cell, assuming that all power generation of the fuel cell system is covered by hydrogen gas generated from the hydrogen-producing bacteria. Preferably it is 1.5 cubic meters or more and 400 cubic meters or less. If it is less than the scale, it is necessary to supply fuel gas using other means for power generation of the fuel cell system, and if it exceeds the scale, the installation cost and the maintenance cost increase, which is not preferable.
[0153]
However, the above condition is only an example when the secondary power source is used for the purpose of adjusting the output of the main power source and the secondary power source is generated only by hydrogen gas generated by hydrogen-producing bacteria. Including, but not limited to, the power control / management system of the present invention can be operated.
[0154]
In the above-described embodiment, purchased power is purchased from a plurality of power generation companies having generators, and the power is consigned using the power company's transmission network for transmission, that is, consigned, and separately contracted for a plurality of demands. In the power purchase and sale business of an electric power company that is a specified scale electric power company that supplies electric power to a house, the electric power supplied from the electric power generation company or the power generation facilities owned by the electric power company It has control management means that adjusts the power generation output of the power generation facility according to the supply and demand balance of the power used and the amount of power, and the power generation facility owned by the power generation company or the electric power company generates power using biomass as fuel. A generator or a power generation facility that can be used as a main power source, and a sub-power source for one or more fuel cell systems in the vicinity of the main power source. Location, and the hydrogen gas used for power generation of the sub-power supply is supplied from the photosynthetic reactor packed with hydrogen-producing microorganisms to generate hydrogen gas.
[0155]
In the above embodiment, the secondary power source provided near the main power source is a fuel cell such as a phosphoric acid fuel cell, a solid polymer electrolyte fuel cell, a molten salt fuel cell, or a solid electrolyte fuel cell. In addition, an inverter is added to the converter, and direct current is converted into alternating current and transmitted to a power company transmission line, and hydrogen gas generated from hydrogen-producing microorganisms is used as fuel hydrogen gas of the fuel cell.
[0156]
Furthermore, in the said embodiment, according to the supply-and-demand balance of the supply electric power and electric power amount from the electric power generation equipment which the said electric power generation company or the said electric power company owns, and the electric power and electric energy which the said consumer uses, In order to achieve control management that adjusts the power generation output of the power generation facility, between the transmission end of the electric power company or individual power generation company that owns the main power source and the sub power source, and the receiving end of the power company power grid, Installed a measuring instrument that has the function of measuring the power supplied and / or the amount of power, and a computer terminal that stores the data to be measured by the measuring instrument, while the receiving end of each individual consumer and the power company's power grid A measuring instrument having a lightweight function of received power and / or quantity of electricity, and a computer terminal storing data to be measured by the measuring instrument are installed between The server owned by the operator stores in advance the individual information of the consumer and the basic data of the conventional power reception pattern, as well as the individual information of the power generator, and the basic data of a plurality of power generation patterns and generator characteristics. And a power generation plan or a power supply command menu for a power generation company, and the server is connected to each consumer and each computer terminal of each power generation company via a communication network. The computer terminal transmits usage information such as power consumption and amount of power to the server, and each power generation company's computer terminal transmits power generation information to the server, and the server supplies the received power supply and usage status. Control and manage power supply and demand by sending necessary power generation instructions to each power generation company's computer terminal by grasping and comparing with basic data, and in addition to these The power company's computer can be purchased from a power company that has jurisdiction over the customer's area where the power company has signed a contract to supply power, or from another company's power company by contracts such as regular backup and economic interchange. The terminal and the server of the electric power company can communicate with each other. The server stores basic data on the power purchase conditions from the power company, and communicates with the computer terminal of the power company via a communication network. Information exchange is possible, and if necessary, the power company is instructed to supply power appropriately according to the situation such as the power supply from the power generation company, the power generated by the main power supply and the sub power supply, and the power used by consumers. The electric power company's server is connected to the electric power company's computer terminal and the consumer's computer terminal via the communication network. Information is collected by exchanging the computer terminal with the power generation status, power generation characteristics, demand characteristics, or other necessary data, and this is compared with the basic data that has been input in advance. By adjusting the amount of power generated by the generator or power generation facility of the power generator and power generation facility that is owned by the main power source and sub power source, The power generation amount of the generator or power generation facility and the power supply amount from the electric power company are controlled by the server of the electric power company, and the power supply / demand balance is maintained.
[0157]
In the above embodiment, the hydrogen gas used for power generation of the fuel cell system of the secondary power source owned by the electric power company or the power generation company that has concluded a power supply contract with the electric power company is hydrogen that generates hydrogen gas. Anaerobic bacteria and photosynthetic bacteria are used as hydrogen-producing microorganisms to supply from the photosynthetic reactor filled with the producing microorganism, the photosynthetic reactor is installed in the vicinity of the fuel cell, and the photosynthesis reactor is subjected to photosynthesis. Organic waste liquid containing organic acids necessary for photosynthetic bacteria to generate hydrogen gas, mixed with inorganic salts and nitrogen source nutrients necessary for the growth of photosynthetic bacteria, and in addition to this organic aqueous solution Some photosynthetic bacteria with stable and large hydrogen gas generation ability are added, and hydrogen gas can be collected even under conditions where light energy supply cannot be expected. Therefore, anaerobic bacteria are filled, and the outer wall of the photosynthetic reactor has a sufficient amount of sunlight on the upper outer wall or side wall so that the photosynthesis bacteria can generate a sufficient amount of hydrogen gas for power generation of the fuel cell. It is composed of a plate-like material with excellent light transmission properties such as a glass plate and an acrylic resin plate so that the light source can be irradiated to the inside of the photosynthetic reactor. A funnel-shaped pipe that can efficiently collect the generated hydrogen by water displacement, etc., and the other end of the pipe that contacts the organic aqueous solution is exposed from the photosynthetic reactor and the fuel It is connected to a hydrogen supply line connected to the battery, and if necessary, an open / close control valve is provided so that the amount of hydrogen gas transferred can be adjusted. A hydrogen gas tank or a hydrogen storage tank filled with an appropriate hydrogen storage material is arranged in the middle of the supply line so that the supplied hydrogen gas can be temporarily stored. By these, hydrogen gas fuel necessary for power generation of the fuel cell is stored. To supply the power of the fuel cell and install a photosensor at an appropriate place in the daylighting part such as sunlight of the photosynthetic reactor to have a light quantity having a frequency at which the photosynthetic bacteria effectively generate hydrogen gas, Measure the luminosity, and place a hydrogen gas concentration sensor at an appropriate location in the water replacement pipe to measure the amount of hydrogen gas generated, and measure the hydrogen gas concentration at an appropriate location inside the hydrogen gas tank or hydrogen storage tank. Sensors or hydrogen storage pressure sensors are installed to measure the amount of stored hydrogen, and these sensors are connected to the electric utility or power generation company that owns the fuel cell. A communication line is connected to the computer terminal, and the computer terminal manages the amount of light, light intensity, amount of generated hydrogen, and amount of stored hydrogen.
[0158]
In the above embodiment, the organic waste liquid, the water, and the nutrient material are supplied to the outer wall of the photosynthetic reactor in order to exchange a certain amount of the organic waste liquid and the photosynthetic bacteria nutrient material filled in the photosynthetic reactor in a certain period. A replenishment pipe and a drain pipe for discharging the aging organic aqueous solution are attached, and the replenishment pipe and the drain pipe are provided with an opening / closing control valve and an opening / closing drive motor, respectively. One end of the wiring is connected to a computer terminal of an electric power company or power generation company, and the opening / closing control valve is remotely opened and closed from the computer terminal so that a necessary amount can be exchanged when necessary.
[0159]
Furthermore, in the above-described embodiment, a collection box in which a porous membrane having a pore diameter of 100 microns or less is disposed at the lower portion through a shielding plate that can be moved to the lower portion of a photosynthetic reactor connected to a fuel cell as a sub power source, and further A drainage pipe with an open / close cock is installed at the bottom of the collection box to collect the anaerobic bacteria and photosynthetic bacteria that have expired and have been killed. The shield plate is manually moved at regular intervals to isolate and isolate the photosynthetic reactor from the dead photosynthetic bacteria and dead anaerobic bacteria collection boxes installed below it, and the cock provided in the drain pipe is opened. If possible, the movement of the shielding plate and the opening / closing cock of the drainage pipe are electrically operated to calculate the moving time of the shielding plate and use this as the server of the electric utility. Entered as basic data The shield plate is moved at regular intervals to shield and isolate the photosynthetic reactor and the dead bacteria collection box installed below it, and the open cock is opened to drain and collect the dead bacteria. In addition, a heavy sensor is arranged in the lower part of the collection box, and the sensor and the opening / closing drive motor control unit of the shielding plate are connected to the electric power company owning the sub power source or the computer terminal of the power generation business, electric wiring, communication The line is connected to the facility, the weight of dead bacteria is controlled, and the shielding plate is opened and closed at the computer terminal.
[0160]
In the above embodiment, the killed bacteria collected and dried from the photosynthetic reactor are carbonized as they are or in a pressurized oxygen-free state, and the carbides are converted into a carbonized slurry through a further pressure heating process. Further, as another method, gasification is performed by further heating in the absence of oxygen, or by supplying a gasifying agent such as steam or air, or a certain amount of heavy oil is mixed with the dead dry bacteria to form a liquid mixture, or alternatively After pulverizing dead dry bacteria, the mixture is mixed with water using an air-jet pump or the like to form a liquid mixture, which is used as the fuel for power generation of the main power source. The supply line is provided with a sensor and a drive unit for managing and controlling the fuel storage amount and the fuel supply amount, and the electric utility that owns the sensor, the drive unit, and the main power source or Electric operator of the computer terminal and the electric wire, a communication line to control and manage the facilities connected to the fuel supply amount.
[0161]
In the above embodiment, the server owned by the electric power company inputs the correlation data between the sunshine duration and the hydrogen generation amount or hydrogen generation rate of the photosynthetic bacteria filled in the photosynthetic reactor in advance, and hydrogen gas at night The correlation data between the hydrogen generation rate and the concentration of anaerobic bacteria that generate water is input, and the server can receive the next day or weekly forecast data from the weather forecast information data center. A calculation program that enables calculation to estimate the sunshine hours on the day of power generation from forecast data such as temperature is stored, and the amount of hydrogen gas collected on the day of power generation is calculated and stored from the collected forecast data. The amount of hydrogen gas can be added to calculate the amount of fuel that can be supplied to the sub-power source, and the dead power used for the main power source can be determined by the various sensors placed on the main power source and sub-power source A function to monitor the fuel supply amount mainly of bacteria or dead dead bacteria, such as the weight or storage height of the fuel storage tank, and to transmit the storage amount to the server as needed via a communication line, etc. The power generation amount of the main power supply and the sub power supply in the time zone is estimated, and the power generation capacity of the main power supply and the sub power supply on the power generation date is estimated.
[0162]
Furthermore, in the above-described embodiment, a plurality of sub power sources arranged in parallel with the main power source are arranged, and at least one of the plurality of sub power sources is used as an auxiliary power source to reach a steady power generation state from a stopped state, A fuel cell exhibiting power generation characteristics within 2 hours, preferably within 30 minutes is installed as a generator, and the fuel cell has a hydrogen storage tank connected to another auxiliary power source. A large-capacity hydrogen storage tank is connected to generate power when the amount of power consumed by consumers is increased.
[0163]
In the above embodiment, the server of the electric power company can execute an instruction to increase or reduce the supplied power to the power generation company and the computer terminal of the electric power company within 2 hours, preferably within 30 minutes. An instruction to start or stop the generation of power or to increase or decrease the generated power can be executed within 2 hours, preferably every 30 minutes, by a transmission means such as a computer terminal of an auxiliary power source or communication corresponding thereto.
[0164]
In the above embodiment, as basic data input in advance to the server of the electric power company, at least the power generation company that has contracted the power supply with the electric power company or the main power source of the electric power company , Unit price of electricity consumption for each consumer who has signed a contract to supply electricity, unit price of power generated by secondary power source, main power source, power generation efficiency characteristics of sub power source, unit price of applicable fuel, and in addition to this Power generation capacity of main power source and sub power source, unit price for purchasing power from electric power companies and other companies' electric utilities, fuel cost adjustment data and consignment costs, transfer costs, power consumption and power generation business of consumers Compares the amount of power generated by the main power source or sub-power source of the operator or the electric power company with the amount of power supplied from the power company or other companies' electric power companies and the amount of power used by the consumer, and the server of the electric power company and each power generation Thing Calculate the necessary power increase / reduction cost for the required increase / reduction of power generation evaluated by communication with computer terminals of power supply companies, electric power companies and customers, and if necessary, computer terminals of secondary power supply. Implement power generation control that fits at low cost.
[0165]
Further, in the above embodiment, the apparatus further comprises means for measuring the amount of power supplemented from the electric power company or other electric company for each unit time for payment of expenses to the electric company. Perform control at intervals shorter than time.
[0166]
In the above-described embodiment, the hydrogen gas tanks or hydrogen storage tanks provided along with the plurality of sub power sources owned by the power generation company or the electric power company are connected by the pipe having the control valve, and the open / close motor control of the control valve is performed. The power supply server and the server of the electric power company are connected to each other by electric wiring to reduce or eliminate excess or deficiency in the amount of hydrogen necessary for each power generation output of the sub power supply.
[0167]
Further, in the above-described embodiment, the power storage means that is provided in addition to the fuel cell of the sub-power source owned by the power generation company or the electric power company, can be charged by the power generation of the fuel cell, and can supply power as needed by the power generation control. Is installed.
[0168]
Further, in the above embodiment, as a fuel to be used for power generation of a main power source owned by a power generation company or an electric power company, biomass different from dead dry photosynthetic bacteria is collected and stored in advance as an alternative fuel, and the alternative fuel material When the same treatment process is carried out so that the fuel is in the same state as the dead dry bacteria, the reserve amount of dead dry bacteria becomes insufficient to achieve the required power generation of the main power source, It arrange | positions so that it may satisfy using this.
[0169]
It should be noted that the procedure of the server processing method of the above embodiment is recorded on a recording medium such as a CD or FD as a program and the recording medium is incorporated into a computer system, or the program recorded on the recording medium is connected to a communication line. Of course, it is possible to function as a device that implements the server processing method by downloading to a computer system or installing from a recording medium and operating the computer system with the program. By using a medium, the fluidity can be improved.
[0170]
【The invention's effect】
As described above, according to the present invention, the power generated mainly by the main power generation means using the biomass fuel and the power generated secondarily using the hydrogen gas from the hydrogen-producing microorganisms according to the power consumption. As well as controlling the dead bacteria of the hydrogen-producing microorganisms as biomass fuel to the main power generation means, it is possible to generate power with appropriate power according to the power consumed by consumers using biomass fuel and hydrogen-producing microorganisms. Without destruction, it can be efficiently realized by reusing hydrogen-producing microorganisms in the form of dead bacteria, and can make a significant contribution in terms of high reliability, profit assurance, and environmental conservation in the power generation business.
[0171]
According to the present invention, the auxiliary power generation means is a fuel cell that uses hydrogen gas generated from a hydrogen-producing microorganism containing at least one of photosynthetic bacteria and anaerobic bacteria as a fuel, and power is generated from the fuel cell. Since DC power is converted into AC power and output, it is possible to efficiently generate power without causing environmental damage.
[0172]
Further, according to the present invention, the main power generation means uses either one or both of the alternative fuel and the fossil fuel in addition to the biomass fuel to generate the main power, so that the power generation is stopped even when the biomass fuel is insufficient. Can be implemented without any problem, and the reliability can be improved.
[0173]
According to the present invention, when the power generated by the main power generation means is insufficient with respect to the power consumption, this shortage of power is generated by the sub power generation means, and in addition to the power generated by the main power generation means, demand Since it is controlled so that it is supplied to the power consumption equipment of the house, even if the generated power of the main power generation means decreases, the shortage of power can be generated by the sub power generation means, and it can be implemented without stopping the power generation. Can be improved.
[0174]
Further, according to the present invention, the main power data of the power mainly generated by the main power generation means using the biomass fuel and the sub power data of the power generated by using the hydrogen gas from the hydrogen generating microorganisms are communicated. The data of power consumption received by the customer and received by the consumer is received via the communication network, the main power data and the power consumption data are compared, and based on the comparison result, the main power generation means and the sub power generation means Because a control command for controlling the main power generation means and the sub power generation means so as to adjust the power generated by the power generator is transmitted to the control means for controlling the main power generation means and the sub power generation means of the power generation company via the communication network. , Power generation by consumers according to power consumption without wasteful use of biomass fuel and hydrogen-producing microorganisms without environmental damage and death of hydrogen-producing microorganisms And re-used in the form of bacterial be controlled via a communications network from a server to efficiently realize, reliable power generation business, revenue assurance, can play a very significant contribution in terms of environmental protection.
[0175]
Further, according to the present invention, when the main power data is smaller than the power consumption data and the generated power of the main power generation means is insufficient, the power consumption of the consumer is generated by generating the insufficient power with the sub power generation means. Since the insufficient power generation control command for controlling to supply to the equipment is transmitted via the communication network, even if the generated power of the main power generation means decreases, the insufficient power can be generated by the sub power generation means, Can be continued without stopping, and reliability can be improved.
[0176]
According to the present invention, the processing method of the server is recorded as a processing program on a recording medium, for example, and is executed by the computer. Therefore, the distribution can be enhanced using the recording medium.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a concept of a power supply and demand system to which a power control / management system according to an embodiment of the present invention is applied.
FIG. 2 is a flowchart showing a part of the processing procedure of the power control / management system of the embodiment shown in FIG. 1;
3 is a flowchart showing a part of the processing procedure of the power control / management system according to the embodiment shown in FIG. 1 following FIG. 2;
4 is a flowchart showing the rest of the processing procedure of the power control / management system of the embodiment shown in FIG. 1 following FIG. 3;
FIG. 5 is an example of a case where a power control / management system is constructed by owning a main power source and a sub power source as power generation equipment in the embodiment shown in FIG. It is a figure which shows an example of a structure at the time of installing a secondary battery.
6 is a diagram showing an example of a configuration concept of a communication control system related to a fuel / maintenance operation in the power control / management system of the embodiment shown in FIG. 1;
7 is a diagram illustrating an example of a configuration concept of a photosynthetic reactor that is a fuel supply device of a sub power source in the power control / management system according to the embodiment illustrated in FIG. 1;
8 is a diagram illustrating an example of a configuration concept of a biomass fuel adjustment process that is a fuel of a main power source in the power control / management system according to the embodiment illustrated in FIG. 1;
9 is a diagram showing an example of a configuration concept of a fuel supply system of a main power supply in the power control / management system of the embodiment shown in FIG.
10 is a diagram showing an example of a configuration concept of a power supply system provided with a main power supply and an alternative biomass fuel supply system installed in the power control / management system of the embodiment shown in FIG. 1;
[Explanation of symbols]
11 Equipment for power generation companies
12 Power grid
13 Consumer equipment
14 Equipment for electric utilities
15 Generator (Main power)
16 110, 162 Weighing instrument
17 110, 119 Computer terminal
18 Communication network
19 servers
48 inverter
113 Sub power supply
114 photosynthetic reactor
116 Hydrogen storage tank
117 Dead bacteria stockpile tank

Claims (12)

A power control and management system that controls and manages the power generated by the power generation facility to be supplied to the power consumption maintenance of consumers,
A main power generation means which is provided as a facility of a power generation company and mainly generates power supplied to a consumer's power consumption facility using biomass as fuel;
Electric power provided as a facility for the power generation company and supplied to the power consumption maintenance of consumers using hydrogen gas generated from hydrogen-producing microorganisms as fuel to assist the shortage of power generated by the main power generation means Sub power generation means for generating power
Control means for controlling the electric power generated by the main power generation means and the sub power generation means in accordance with the power consumption in the consumer's power consumption facility;
A dead bacterium that supplies killed bacteria of hydrogen-producing microorganisms to the main power generation means to use the dead bacteria of hydrogen-producing microorganisms used as fuel for power generation by the auxiliary power generation means as biomass fuel of the main power generation means And a power supply control / management system. The sub power generation means includes:
A fuel cell that uses hydrogen gas generated from hydrogen-producing microorganisms containing at least one of photosynthetic bacteria and anaerobic bacteria as fuel;
2. The power control / management system according to claim 1, further comprising DC / AC conversion means for converting DC power generated from the fuel cell into AC power and outputting the AC power. The said main electric power generation means has another fuel electric power generation means to generate | occur | produce main electric power using either one or both of the alternative fuel of biomass fuel and a fossil fuel in addition to the said biomass fuel. Or the electric power control and management system of 2. When the electric power generated by the main power generation means is insufficient with respect to the power consumption of the consumer's power consumption facility, the control means generates the insufficient power by the auxiliary power generation means, and the main power generation means The power control / management according to any one of claims 1 to 3, further comprising: a shortage power generation control means for controlling the power to be supplied to a consumer's power consumption facility in addition to the power generated by the power supply. system. A server that controls and manages the power generated by the power generation equipment to be supplied to the power consumption equipment of the consumer,
Main power data received as a result of measuring the main power generated by the main power generation means owned by the power generation company using biomass as fuel to be supplied to the consumer's power consumption equipment via the communication network Power data receiving means;
In order to assist the shortage of power generated by the main power generation means, hydrogen gas generated from hydrogen-producing microorganisms is used as a fuel to generate power, and the hydrogen-producing microorganisms used are killed. Sub power data obtained as a result of measuring the power generated by the sub power generation means owned by the power generation company that is supplied to the main power generation means to be used as biomass fuel of the main power generation means. Sub power data receiving means for receiving via a communication network;
Power consumption data receiving means for receiving the power consumption data as a result of measuring the power consumed by the consumer's power consumption equipment via a communication network;
The main power data received by the main power data receiving means is compared with the power consumption data received by the power consumption data receiving means, and the power generated by the main power generation means and the sub power generation means is calculated based on the comparison result. A control command transmitting means for transmitting a control command for controlling the main power generating means and the sub power generating means to adjust to a control means for controlling the main power generating means and the sub power generating means of a power generation company via a communication network; The server characterized by having. The control command transmitting means is a comparison result between the main power data received by the main power data receiving means and the power consumption data received by the power consumption data receiving means, the main power data is smaller than the power consumption data, When the generated power of the main power generation means is insufficient, a communication network generates an insufficient power generation control command for controlling the power to be generated by the auxiliary power generation means and supplied to the consumer's power consumption facility. 6. The server according to claim 5, further comprising an insufficient power generation control command transmission means for transmitting to the secondary power generation control means for controlling the secondary power generation means of the power generation company. A server processing method for controlling and managing power generated by a power generation facility to be supplied to a power consumption facility of a consumer,
Measure the power generated mainly by the main power generation means owned by the power generation company using biomass as fuel to be supplied to the power consumption equipment of the consumer, and use the measured power data as the main power data to establish a communication network. A main power data receiving step for receiving via:
In order to supplement the shortage of power generated by the main power generation means, hydrogen gas generated from hydrogen-producing microorganisms is used as a fuel to generate power, and the used bacteria that kill the hydrogen-producing microorganisms are used. The power generated by the sub-power generation means owned by the power generation company that is supplied to the main power generation means to be used as biomass fuel of the main power generation means is measured, and the measured power data is measured. A sub power data receiving step for receiving the sub power data via the communication network;
A power consumption data receiving step of measuring power consumed by a consumer's power consumption equipment and receiving the measured power consumption data via a communication network;
The main power data received in the main power data receiving step is compared with the power consumption data received in the power consumption data receiving step, and the power generated by the main power generation means and the sub power generation means is calculated based on the comparison result. A control command transmission step of transmitting a control command for controlling the main power generation means and the sub power generation means to adjust to a control means for controlling the main power generation means and the sub power generation means of a power generation company via a communication network; A server processing method characterized by comprising: In the control command transmission step, the comparison result between the main power data received in the main power data reception step and the power consumption data received in the power consumption data reception step, the main power data is smaller than the power consumption data, When the generated power of the main power generation means is insufficient, a communication network generates an insufficient power generation control command for controlling the power to be generated by the auxiliary power generation means and supplied to the consumer's power consumption facility. The server processing method according to claim 7, further comprising: an underpower generation control command transmission step for transmitting to the sub power generation control means for controlling the sub power generation means of the power generation company via the power generator. A computer-executable server processing program for controlling and managing electric power generated by a power generation facility to be supplied to a consumer's power consumption facility,
The computer is used to measure the power generated mainly by the main power generation means owned by the power generation company using biomass as fuel to be supplied to the power consuming equipment of the consumer, and this measured power data is used as the main power data. Main power data receiving means for receiving via a communication network;
In order to supplement the shortage of power generated by the main power generation means, hydrogen gas generated from hydrogen-producing microorganisms is used as a fuel to generate power, and the used bacteria that kill the hydrogen-producing microorganisms are used. The power generated by the sub-power generation means owned by the power generation company that is supplied to the main power generation means to be used as biomass fuel of the main power generation means is measured, and the measured power data is measured. Sub power data receiving means for receiving the sub power data via the communication network;
Power consumption data receiving means for measuring the power consumed by the consumer's power consumption equipment and receiving the measured power consumption data via a communication network;
The main power data received by the main power data receiving means is compared with the power consumption data received by the power consumption data receiving means, and the electric power generated by the main power generation means and the sub power generation means is calculated based on the comparison result. As a control command transmission means for transmitting a control command for controlling the main power generation means and the sub power generation means to adjust to a control means for controlling the main power generation means and the sub power generation means of a power generation company via a communication network A server processing program characterized by causing it to function. The control command transmitting means is a comparison result between the main power data received by the main power data receiving means and the power consumption data received by the power consumption data receiving means, the main power data is smaller than the power consumption data, When the generated power of the main power generation means is insufficient, a communication network generates an insufficient power generation control command for controlling the power to be generated by the auxiliary power generation means and supplied to the consumer's power consumption facility. The server processing program according to claim 9, further comprising a shortage power generation control command transmission unit that transmits to the sub power generation control unit that controls the sub power generation unit of the power generation company. A computer-readable recording medium storing a computer-executable server processing program for controlling and managing electric power generated by a power generation facility to be supplied to a consumer's power consumption facility. ,
The computer is used to measure the power generated mainly by the main power generation means owned by the power generation company using biomass as fuel to be supplied to the power consuming equipment of the consumer, and this measured power data is used as the main power data. Main power data receiving means for receiving via a communication network;
In order to supplement the shortage of power generated by the main power generation means, hydrogen gas generated from hydrogen-producing microorganisms is used as a fuel to generate power, and the used bacteria that kill the hydrogen-producing microorganisms are used. The power generated by the sub-power generation means owned by the power generation company that is supplied to the main power generation means to be used as biomass fuel of the main power generation means is measured, and the measured power data is measured. Sub power data receiving means for receiving the sub power data via the communication network;
Power consumption data receiving means for measuring the power consumed by the consumer's power consumption equipment and receiving the measured power consumption data via a communication network;
The main power data received by the main power data receiving means is compared with the power consumption data received by the power consumption data receiving means, and the electric power generated by the main power generation means and the sub power generation means is calculated based on the comparison result. As a control command transmission means for transmitting a control command for control by the main power generation means and the sub power generation means to adjust to a control means controlled by the main power generation means and the sub power generation means of a power generation company via a communication network A computer-readable recording medium on which a server processing program for functioning is recorded. The control command transmitting means is a comparison result between the main power data received by the main power data receiving means and the power consumption data received by the power consumption data receiving means, the main power data is smaller than the power consumption data, When the generated power of the main power generation means is insufficient, a communication network generates an insufficient power generation control command for controlling the power to be generated by the auxiliary power generation means and supplied to the consumer's power consumption facility. The computer-readable recording server processing program according to claim 11, further comprising an underpower generation control command transmission unit that transmits to the sub power generation control unit that controls the sub power generation unit of the power generation company recoding media.

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