JP2006309325A - Co2 reduction and power saving monitoring method, and its system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow a customer to monitor electric power consumption, an energy charge, and CO2 emission reduction, and to carry out surveillance analysis monitoring by cooperating with a load facility consuming energy the most. <P>SOLUTION: The CO2 and power saving monitoring method, and its system are composed of a personal computer provided with a touch panel operation display which is a cost box comprised of a CPU carrying out processing by an electric power consumption accumulation processing means, an energy charge arithmetic processing means, and a CO2 emission conversion processing means inputted and recorded with an electric power supply agreement which is a setting tool from a power company and PPS, inputted and recorded with published CO2 emission unit requirement per time and per season, and processing data of a consumed quantity of electricity outputted from an electric power monitor in conformity with the electric power supply agreement and the CO2 emission unit requirement in two formats of an Excel format and an Access format at the same time. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

The present invention relates to a monitoring method and a system capable of monitoring power consumption that contributes to power saving that suppresses an increase in the concentration of CO ₂ in the atmosphere in order to prevent global warming.

  In order to promote next-generation DSM (Demand Side Management: a means to change energy demand into a socially desirable form), focus on energy costs and manage and control energy demand through improved cost awareness. As a part of this, it is desired to develop a power saving monitoring and monitoring method and a system that allow customers to take energy saving actions with cost awareness and participate in it.

  The challenge is to develop technology that can thoroughly save energy even in ordinary households, and it will contribute to the promotion of energy saving and, in turn, the prevention of global warming.

  The conventional energy-saving system measures energy consumed in a general household by a power company on the supply side and a PPS (specific electric utility), etc., and consumes it in a responsible area for each supply. Message output means for sending a saving message when the amount of energy exceeds a preset value is provided, and receiving means for receiving the saving message and storing the energy consumption as a trend on the general household side And a charge collection system for determining a consumption charge of the energy according to the contents of the trend memory on the supply side.

JP 2002-133568 A

  On the other hand, the Kyoto Protocol for the prevention of regional warming by the United Nations has been ratified, and the possibility of its coming into effect is increasing. The goal is to achieve the numerical target (reduction rate 5% (average value) in 2010).

Therefore, a system that reduces CO ₂ emissions by introducing an energy saving system is already known.
Energy saving system to reduce the CO ₂ emissions, the valuable reduction was CO ₂ emissions as a CO ₂ emission rights, in which it was sold in CO ₂ emissions trading market, and so can benefit is there.
This energy-saving system manages and monitors the operation status, and periodically measures the amount of energy consumed and the amount of energy generated by the operation of the measured energy-saving (power-saving) system via a communication line. The server calculates the running cost reduction amount of the energy saving system from the energy consumption amount and the energy generation amount, and the difference between the CO ₂ emission amount based on the energy consumption amount and the CO ₂ emission amount based on the energy generation amount calculating the CO ₂ emission reduction amount by the calculated CO ₂ emission reduction amount and information about the cumulative amount providing on Itannetto, CO ₂ emission reduction amount in association with CO ₂ emission rights, relatively small amounts of CO _{2 It} provides the market that can be obtained even with emission credits.

JP 2001-338028 A

By the way, for convenience and comfort, in a situation where the demand for electricity in energy use is increasing year by year, in order to reduce CO ₂ emissions, promotion of power saving and high power efficiency It is in use. This is to monitor the power consumption in order to monitor and analyze it.

The prior art is a system for monitoring and verifying energy saving from the power supply side and the supply side such as PPS as power saving, and the customer entrusts monitoring and verification to the power supply side and the supply side such as PPS, I was entrusted with all of the management.
Therefore, the customer has no real feeling that he / she participates in energy saving, and the customer has not seen the truth about cost reduction and CO ₂ emission reduction.

Moreover, energy saving system for calculating the CO ₂ emission reduction amount of the prior art, energy consumption and energy generation amount running cost savings from and the CO ₂ emission reduction simply calculated been made to manage, CO ₂ The amount of emission reduction is made to correspond to the CO ₂ emission right, and the profit on the energy supply side derived therefrom is reduced.
Therefore, the customer has difficulty in reducing CO ₂ emissions based on cost reduction.

Therefore, in order to solve the above problems, it is a power-saving system that can be monitored and verified by the customer himself / herself, enabling verification by cost so that the customer can easily understand, and using power in real time to reduce energy costs By monitoring and monitoring the volume and power charges, recording the data and creating a database, the customer can judge and analyze whether the cost has been reduced and CO ₂ emissions have been reduced compared to the past data. The purpose is to raise cost awareness.

In addition to being able to monitor electricity consumption, charges, and CO ₂ emission reductions, consumers can cooperate with the load equipment (air conditioners, refrigerators, etc.) that consumes the most energy. It is also possible to analyze the change so that the operation pattern can be changed every hour while watching the movement of the equipment.

The present invention is a power and company and PPS and consumer supplies electricity by high season, the power supply provisions, such as each time zone is selected contracts, by the time in power, Shiki-specific CO ₂ emissions per When the unit is announced on the Internet, these setting data are input and recorded on a personal computer equipped with a touch panel operation display that is a cost box on a telephone line as a setting tool in a power company and PPS. The output electric energy data (integrated electric energy, power factor, voltage, current) is recorded and recorded in the cost box for at least two years, and the electric energy used per unit time (for example, 30 minutes) is recorded. The data is stored and processed simultaneously in two ways: Excel format and access format, and selected in the power usage analysis mode. As a result, the current value of power consumption is monitored as a real trend graph, and the daily and monthly power consumption is monitored as a bar graph, and the comparison bar graph of the current year and the previous year is monitored. The energy savings due to these comparative differences are monitored as a graph of daily load, monthly load, and annual load for the past five years accumulated over the past five years.
Electricity charge calculation processing is performed on the electricity consumption data output from the power monitor simultaneously in two ways: Excel format and access format, and is selected in the energy charge analysis mode. Is monitored as a real trend graph, and the daily and monthly power consumption charges are monitored as a bar graph, and the comparison bar graph of the current year and the previous year is monitored, and the energy saving charge due to these comparison differences Is monitored as a curve graph of daily load, monthly load, and annual load, and furthermore, the amount of electricity used output from the power monitor is in two ways: Excel format and access format based on the CO ₂ emission basic unit. Once CO ₂ emissions in terms processing processes simultaneously, the current value is real trend grayed CO ₂ emissions Is monitored as off, also monitored as a bar graph by accumulating process of CO ₂ emissions daily, together with a comparative bar graph of year and year of the bar is monitored, reduces CO ₂ emissions by these comparative difference This is a CO ₂ reduction and power saving monitoring method characterized in that the rate is monitored as a curve graph. (Claim 1)

The present invention relates to an electric power company and PPS whose CO ₂ emission basic unit according to time and four seasons in power generation is published on the Internet, and consumers are high-power seasonal power, power time, etc. A supply contract is selected and a digital processing power monitor that outputs data on the amount of electricity used (integrated power amount, power factor, voltage, current), and electricity used per unit time from the power monitor. Volume data is input and recorded for at least two years, and the power supply contracts, which are the setting tools from the power company and PPS, are input and published, and the CO ₂ emissions by hour and season per unit are inputted recording, the power supply provisions, or in compliance with the CO ₂ emissions per unit, Excel (EXCEL) data used electric quantity output from the power monitor format and Access (Access) format and power usage storage processing means for processing simultaneously in two ways scheme, power rate operation processing means, and the display of CO ₂ emissions in terms processing means cost box becomes touch panel operation consisting of a CPU for processing with It consists of a personal computer with
In the cost box, the amount of electricity used from the power monitor is converted into a real trend graph by means of a power usage accumulation processing means in accordance with a power supply agreement that is a setting tool of the power company and PPS. As a monitor, the daily and monthly power consumption is displayed as a bar graph, and the bar graph comparing this year and the previous year is monitored, and the daily load, monthly load, and annual load due to these comparison differences are monitored. Is monitored on the display as a curve graph, and the current value of the power usage fee is monitored as a real trend graph and the daily and monthly power usage fees are monitored as a bar graph on the display by means of power rate calculation according to the power supply agreement. , This bar graph is a comparison bar graph between this year and the previous year With the ring, these power savings rates by comparison difference is monitored on the display as curve graph,
Furthermore, the CO ₂ emission conversion processing means in accordance with the CO ₂ emission basic unit announced by the electric power company and PPS makes the current value of CO ₂ emission a real trend graph, and the daily and monthly CO ₂ emission amount. CO ₂ but which as a bar graph, while being monitored on the display as a comparison bar graph of the current year and the year by the bar, CO ₂ emission reduction rate by the comparative difference is characterized in that it is monitored on the display as a curve graph It is a reduction and power saving monitoring system. (Claim 2)

The CO ₂ reduction, power saving monitoring method and system of the present invention can be monitored and verified by the customer himself / herself, and the customer himself / herself with cost awareness as part of promoting DSM (Demand Side Management). As well as being able to grasp the power usage situation and take energy saving action, it is possible to recognize participation in activities to prevent environmental warming by reducing CO ₂ emissions.

The cost box of the monitoring system has data storage format of Excel (EXCEL) format used by customers for confirmation, editing, inspection, analysis, graph, numerical analysis, display, backup data (permanent storage) Because of the accumulation process that processes the same data at the same time in two ways with the access format used for this purpose, database processing can be facilitated, and past data can be analyzed and predicted by storing it in a database format Can be searched.
Further, since the cost box is in a touch panel format, the screen switching operation can be performed with a single touch, and quick analysis and search can be used without malfunction.
The cost box is simple and easy for anyone to use, and can be operated without mistakes. It can be used in real trend graphs (continuous measurement graphs), bar graphs, and curve graphs. since ₂ emissions can be quickly monitored, analyzed, handling of such control can be easily specification.

  The installed power monitor uses a digitally processed power monitor, which is different from the conventional method that receives the pulses output from the watt hour meter installed at the power company and calculates the integrated power consumption. By doing so, the amount of electricity used, such as time, power amount, and power factor, is accurately stored, so that the power charge calculation can be performed with almost no error.

The present invention is a CO ₂ reduction, power saving monitoring and monitoring method, and a system thereof.
FIG. 1 shows the configuration of a CO ₂ reduction and power saving monitoring system. Electric power supplied by an electric power company and a PPS (specific electric power company) is digitally processed, and integrated electric energy, power The power monitor 2 that outputs the transmission data of rate, voltage, and current, and the transmission data output from the power monitor are input for at least two years, and this transmission data is transmitted between the power company, the PPS, and the customer. Real trend graphs are processed based on the power supply contracts for high-pressure seasons, time zones, etc., which have been selected and contracted, and the data set by the CO ₂ emission intensity for each hour and four seasons, which are announced on the Internet. A personal computer 1 that is a cost box having a touch panel operation display monitored by a bar graph and a curve graph.
The real trend graph, bar graph, and curve graph monitored in the cost box 1 are connected to the power company and the PPS by connecting the communication modem 4 of the cost box and the communication modem 5 of the management office 3 with the dedicated call circuit 6. The setting values for the power supply calculation and the CO ₂ emission calculation are communicated to the management office 3 in advance as a setting tool, such as the supply contract of the supply side, the CO ₂ emission basic unit, etc. Can be used as a diagnostic tool for diagnosis, can prevent erroneous operation and malfunction of the cost box 1, can diagnose equipment abnormalities related to the operation touch panel, and remotely monitor and analyze the data accumulated in the cost box 1 Can be diagnosed. The data of the setting tool and the diagnostic tool is printed and stored by a printer such as a laser printer or a dot printer.

In addition, the main power supply is received from the power supply side such as the power company and PPS, and the power transaction monitoring and analysis system A contributes to power saving that suppresses the increase in CO ₂ concentration. Replacing load equipment such as air conditioning equipment, refrigerators, ESCO equipment, etc. for supply, and using this power, monitoring control of air conditioning equipment that contributes to power saving that suppresses the increase in CO ₂ concentration, monitoring control of refrigerators, Even in the ESCO facility monitoring analysis system B, there is no particular difference between the monitoring analysis monitoring system and the system.
The solar power generation monitoring and analysis system C by the conditioner is the same as the power transaction monitoring and analysis system A.

FIG. 2 is a schematic flow diagram of necessary data for the CO ₂ reduction and power saving monitoring analysis monitoring system for power trading.
The power monitor has been performing digital processing since the start 11, and the current time correction processing 12 is performed to make accurate the time, power consumption and power factor, and the accumulated power and power factor data are obtained from the power meter (power monitor). Capture processing 13 is performed.
The power monitor uses digital processing because the output from the watt-hour meter installed by the power company is a calculation of the integrated power consumption by pulses, which causes an error per year. is there.
A consumer selects and contracts with the power company and the PPS 14 for power supply contracts according to high voltage seasons, time zones, and the like. Based on the selected contracts 16a, 16b, 16c... By the selection 15 of the power supply contract menu mode, the data storage process 17 is performed for the amount of power used every 30 minutes. The accumulated power usage amount is selected as an analysis mode 19 so that a current value real trend graph, a daily bar graph, a weekly bar graph, a monthly bar graph, a yearly bar graph, and a comparison bar graph of the current year and the previous year of these bar graphs. Analytical graphs 21 such as daily load, monthly load, and annual load curve graph are monitored on the display of the touch panel operation.
Further, based on the selection clauses 16a, 16b, 16c,..., The power usage amount from the power monitor 13 every 30 minutes is subjected to the power rate calculation processing 18 and the power amount rate analysis mode is selected 20 to display the current value real trend graph, A daily bar graph,... A bar graph for comparing the current year and the previous year, and a power charge analysis graph 22 such as a load curve graph are monitored on the display.
Further, receiving the CO ₂ emissions per unit information 23 is released by the power company and PPS, by power usage than the power monitor time, based on the four seasons by CO ₂ emissions per unit 24 CO ₂ emissions in terms treatment is 25, CO ₂ emissions current value real trend graph, daily bar chart, weekly chart, monthly bar, year for each bar graph, the year the comparison bar graph with the previous year, the analysis chart 26 such curve graph reduction rate Monitored on the display.

Next, FIG. 3 shows a flowchart for accumulating the power usage data transmitted from the power monitor 2.
Start 11 starts automatic date and time correction program for current time adjustment processing 12, accesses time management provider, and automatically changes the time on PC 1 (changes to Japan standard time once a day) To do).
Data 13 such as integrated power amount and power factor every 30 minutes digitally processed by the power monitor is received and processed by the personal computer (cost box 1). If it is determined that the data is every 30 minutes, it is accumulated. Stored data is stored in the programmable controller for data protection to prevent data corruption. As a result, the cost box data storage format accumulates the same data simultaneously in two ways: Excel format and access format, so it is used as an Excel format for confirmation, editing, inspection, and analysis. Is used for cost box analysis (graph, numerical) display, backup data (permanent storage). The data is detected for at least two years, and when a certain period (for example, five years) is full, the oldest data is deleted 27 by checking whether the data is full.

FIG. 4 shows an analysis flow diagram for displaying a trend graph, a bar graph, a monthly load, and an annual load curve graph so as to be visually recognized at a glance based on accumulated data.
a Trend graph display At start 21 (22, 26), the accumulated data obtained as a result of processing the data of the power consumption transmitted from the power monitor based on the selected supply contract and the CO ₂ emission basic unit information is input. Since this stored data is displayed as current values of power consumption, power charges, and CO ₂ emissions at 30-minute intervals, the current value is read out 28 and assigned to the trend graph 29, and the trend graph is displayed on the touch panel operation display. The display screen can be switched with a touch of a finger, and can be displayed on a single screen, so that analysis can be facilitated.
b Bar graph display (Comparison between current year and previous year)
Accumulated data processed based on the selected supply agreement and CO ₂ emission basic unit information is read 33 by the read command 32, and the results of the power consumption of the current year and the previous year are compared and displayed. This year and previous year comparison mode 34 is displayed as a bar graph 35, and this display screen can be switched by touching or displayed on a single screen for easy analysis 36.
c Monthly load and annual load curve graph display (past 5 years)
Accumulated data processed based on the selected supply agreement and CO ₂ emission basic unit information is input at start 21 (22, 26) over the past five years. The stored data reading mode 37 for the five years is set, the stored data for the past five years is read 38, and the monthly and yearly performance data for the past five years of the power charge and power consumption are displayed on one screen. This display is a load curve graph display 39, and the display screen can be switched by touch, or can be displayed on a single screen, so analysis 40 can be facilitated.

  The actual accumulated data processing will be explained in detail. Monitoring and analysis of power transactions using the power monitor is based on the accumulated power data transmitted from the power monitor. Accumulate as shown in Table 1.

この蓄積データは、５年間まで蓄積可能である。そして５年間以上は、一番古いデータから１日ずつ自動的に削除するものである。
そして、エクセル形式とアクセス形式の両方で蓄積するため、データの加工が容易に出来るものである。

This accumulated data can be accumulated for up to 5 years. For five years or more, the oldest data is automatically deleted one day at a time.
Since data is stored in both the Excel format and the access format, the data can be easily processed.

電力使用量を電力料金に演算した電力料金蓄積である。

This is the accumulation of electricity charges by calculating the amount of electricity used into the electricity charges.

  Based on the data processed as described above, a real trend graph, a bar graph, and a curve graph are monitored.

Fig. 5 is a monthly bar graph based on power supply agreements according to the season of summer and other seasons, and the time zone of daytime and nighttime, and the comparison bar graph of this year and the previous year is compared and displayed on the touch panel display It has been done.
For each month, basic (I), daytime (B), and night (C) are accumulated and displayed, and a peak (d) is further provided in the summer. In this bar graph, the bar graph (a) of this year and the bar graph (b) of the previous year are displayed in comparison and analyzed. If the current year's bar graph is shorter than the previous year, the amount of power used can be reduced, power consumption can be reduced by reducing the amount of electricity consumed, and CO ₂ emissions can be reduced.

In CO ₂ reduction, the CO ₂ emission basic unit is announced by the electric power company, but this CO ₂ emission basic unit differs in CO ₂ emission amount as shown in FIG. 6 depending on the power generation method. CO ₂ emissions vary depending on the materials used for power generation by electric power companies.
Therefore, the electric power company has announced the CO ₂ emission basic unit by hour. As shown in FIG. 7, a (i) weekdays CO ₂ emissions per unit, (ii) CO ₂ emissions per unit of weekends and holidays. This CO ₂ emission basic unit is announced every time the power generation composition changes, such as during the summer, winter, mid-term, and regular certification.

CO ₂ is a block diagram of a reduced-power saving monitor monitoring. CO ₂ is a flow diagram of a reduction and power saving monitor monitoring. It is a measurement accumulation flow figure of a cost box. (A) It is a branch flow figure of a trend graph display. (B) It is an analysis flowchart of a bar graph display. (C) It is an analysis flow figure of a curve graph display. The comparison bar graph of this year and the previous year in the monthly bar graph is displayed. It is a graph illustrating a power generation method by CO ₂ emissions. (I) is an explanatory view of a weekday CO ₂ emissions per unit. (Ii) it is an explanatory view of the CO ₂ emissions per unit of weekends and holidays.

Explanation of symbols

1: Cost box 2: Power monitor 14: Power company and PPS
17: Electricity consumption data storage processing 18: Electricity charge calculation processing 25: CO ₂ emission conversion processing 21: Current value real trend graph, daily bar graph, etc. 22: Current value real trend graph, daily bar graph, etc. 26: Current value real time Trend graph, daily bar graph, etc.

Claims (2)

Electricity supply companies and PPSs and customers are contracted to select power supply contracts for high voltage seasons and hours, etc., and the CO ₂ emission unit price for each hour and four seasons of power generation is available on the Internet. When announced, these setting data are input and recorded in a personal computer with a touch panel operation display that is a cost box on a telephone line as a setting tool in a power company and PPS, and output from a digital processing power monitor. Quantity data (integrated electric energy, power factor, voltage, current) is recorded and recorded in the cost box for at least two years, and the electricity consumption data per unit time (for example, 30 minutes) is accessed in Excel format. By storing and processing in two ways simultaneously with the format, and selected in the power usage analysis mode The current value of power consumption is monitored as a real trend graph, and the daily and monthly power consumption is monitored as a bar graph, and the comparison bar graph of the current year and the previous year of the bar graph is monitored. The amount of electricity used is monitored as a curve graph of daily load, monthly load, and annual load for the past 5 years, and the amount of electricity used is output in Excel format and access format. The power charge calculation processing that is processed simultaneously in the two ways, and selected in the power charge analysis mode, the current value of the power charge is monitored as a real trend graph, and the daily and monthly power consumption Charges are monitored as a bar graph, and the comparison bar graph of the current year and the previous year is monitored. With the ring, saving energy charge by the comparative difference day load, month loads are monitored as a curve graph of year load,
Furthermore, when the data on the amount of electricity used output from the power monitor is converted into CO ₂ emissions that are processed simultaneously in two ways: the Excel format and the access format based on the CO ₂ emissions basic unit, CO ₂ emissions The present value of the amount is monitored as a real trend graph, and the daily CO ₂ emissions are monitored as a bar graph by accumulating, and the comparison bar graph of the current year and the previous year is monitored and compared. A CO ₂ reduction and power saving monitoring method characterized in that the CO ₂ emission reduction rate due to the difference is monitored as a curve graph. Electricity supply companies and PPSs whose CO ₂ emission intensity by power generation and by season are announced on the Tanter Net, and customers have power supply agreements by high voltage season, time zone, etc. Under this circumstance, a digital processing power monitor that outputs data on the amount of electricity used (integrated power amount, power factor, voltage, current), and data on the amount of electricity used per unit time from the power monitor Are input and recorded for at least two years, and the power supply contracts, which are setting tools from the electric power company and PPS, are input, and the published CO ₂ emission intensity by hour and season are input. are recorded, the power supply provisions, or in compliance with the CO ₂ emissions per unit, to be provided with data usage amount of electricity output from the power monitor is a (programmable controller Consisting of Te Excel (EXEL) format and access (Access) power usage storage processing means to process at the same time in two ways method and format, power rate operation processing unit, and a CPU for processing with the CO ₂ emission amount conversion processing means It consists of a personal computer with a touch panel operation display that is a cost box,
In the cost box, the amount of electricity used from the power monitor is converted into a real trend graph by means of a power usage accumulation processing means in accordance with a power supply agreement that is a setting tool of the power company and PPS. As shown, the daily and monthly power consumption is monitored as a bar graph, and the bar graph comparing the current year with the previous year is monitored, and the daily load, monthly load, and annual load due to these comparison differences are monitored. It is monitored on the display as a curve graph, and the current value of power usage is monitored as a real trend graph, and the daily and monthly power usage fees are monitored as a bar graph on the display by means of power rate calculation according to the power supply agreement. Comparison of current year and previous year by bar graph Together are These power savings rates by comparison difference is monitored on the display as curve graph,
Furthermore, the CO ₂ emission conversion processing means in accordance with the CO ₂ emission basic unit announced by the electric power company and PPS allows the current value of the CO ₂ emission to be a real trend graph, and the daily and monthly CO ₂ emission is as a bar graph, while being monitored on the display as a comparison bar graph of the current year and the year by the bar, reduce the CO ₂ CO ₂ emission reduction rate by the comparative difference is characterized in that it is monitored on the display as a curve graph , Power saving monitoring monitoring system.

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