CN210801358U - New energy consumption heating system using electricity price lever - Google Patents

Abstract

The utility model provides an utilize new forms of energy of electricity price lever to consume heating system belongs to new forms of energy and consumes and heating technical field. The system comprises new energy power generation equipment, a power grid regulation and control center, a heat supply control terminal and an electric heating device. The heating control terminal is utilized, a power price regulation and control mechanism is established according to the fluctuation condition of new energy power generation and in combination with the load fluctuation of a power grid, the heating load of a user is macroscopically regulated by utilizing a power price lever, and the problem of new energy consumption is effectively solved; the user can automatically or manually regulate and control the indoor temperature according to personal requirements and the grading electricity price issued by the system; the characteristics that the new energy power generation system generally has large allowance at night and the heat supply demand of a user reaches a peak value at night are effectively utilized, so that the peak-valley fluctuation of a power grid is effectively stabilized, and the heating cost of the user is reduced. The system has the advantages of simple structure, easy operation, low cost, fair heat supply charge, good heat supply effect, energy conservation, environmental protection, strong practicability and the like.

Description

New energy consumption heating system using electricity price lever

Technical Field

The utility model relates to a new forms of energy system of dissolving especially relates to an utilize new forms of energy heating system of dissolving of price of electricity lever. Belongs to the technical field of new energy consumption and heating.

Background

At present, the heating business of cities and towns in China is greatly developed, most of the heating business is in a coal-fired mode, particularly in northern areas in China, the heating purpose is achieved in winter, but the environmental pollution is intensified, and in order to meet the requirements of users on electric power and improve the environmental quality, new energy is vigorously used by China.

The wind energy resources in northern areas of China are rich, particularly the generated energy of wind power is large at night in winter, along with the expansion of the development scale of the wind power in northern areas, the contradiction between the wind power and the operation of a coal-fired cogeneration unit is increasingly prominent at night in winter, the wind power is forced to reduce the output or even stop the operation, a large amount of 'wind abandon' is caused, and the similar problems exist in other new energy power generation such as photovoltaic and the like, on one hand, precious clean energy is wasted, on the other hand, the serious environmental pollution is caused by a large amount of heat supply by coal, so the atmospheric environmental quality is continuously deteriorated, and the new energy power generation is used.

When new energy is used for electric heating, household metering is adopted as a future development trend, but the problems of resource waste, unfair charging and the like exist in a heating fee collection mode in China, and a scientific, reasonable and effective charging measure capable of meeting fair distribution to the maximum extent needs to be established. The research of China on the building heating household metering technology starts late, and mature household metering and charging measures are not available at present.

The new energy is used for heating by individual household, the consumption of the new energy, the balance and stability of the load of the power grid and the heating effect of a user need to be considered, and meanwhile, the relationship between the income of the power grid and the heat cost of the user needs to be coordinated on the aspect of economy. At present, technologies and patents related to new energy electric heating and household charging are few, and research for coordinating the relationship by using an electricity price lever is not available. Therefore, it is necessary to establish a system for new energy heating consumption through the price of electricity lever adjustment.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a new energy consumption heating system using a price lever, which adopts an electric heating dispersion heating method, combines the load fluctuation of a power grid according to the fluctuation condition of new energy power generation, establishes a price regulation and control mechanism, and uses the price lever to macroscopically regulate the heating load of a user; the user can automatically or manually regulate and control the indoor temperature according to personal requirements and the grading electricity price issued by the system; the characteristics that the redundant electric quantity of the new energy power generation system is much generated at night and the heat supply demand of a user reaches a peak value at night are effectively utilized, so that on one hand, the heating cost of the user is reduced, on the other hand, the peak-valley fluctuation of a power grid is effectively restrained, the utilization rate of the new energy power generation system is effectively improved, the traditional heat supply fossil fuel is saved, energy is saved, emission is reduced, the environment is protected, and the problem of consumption of new energy is solved.

The utility model provides a technical scheme that its technical problem adopted is:

the new energy consumption heating system utilizing the electricity price lever comprises new energy power generation equipment (1), an electric network (2), an electric network regulation and control center (3), a heat supply control terminal (4) and an electric heating device (5).

The new energy power generation equipment (1) and the heat supply control terminals (4) are connected with the power grid (2), and the new energy power generation equipment (1) and the power grid (2) provide electric energy for the heat supply control terminals (4) and the electric heating device (5).

Each user is provided with an independent heat supply control terminal (4) and an electric heating device (5), the heat supply control terminal (4) exchanges data with the power grid regulation and control center (3), a new energy scheduling and consumption regulation and control model of the power grid (2) is established in the power grid regulation and control center (3), consumption regulation and control parameters are obtained through calculation according to real-time power generation data provided by a plurality of new energy power generation equipment (1) and real-time load data in the power grid (2), the consumption regulation and control parameters are transmitted to the heat supply control terminal (4) in real time, and the heat supply control terminal (4) drives and controls the electric heating device (5) to work according to a temperature regulation and control strategy set in the heat supply control. Establishing a power price regulation and control mechanism by utilizing a heat supply control terminal according to the fluctuation condition of new energy power generation and combining with the load fluctuation of a power grid, and macroscopically regulating the heating load of a user by utilizing a power price lever; the user can automatically or manually regulate and control the indoor temperature according to personal requirements and the grading electricity price issued by the system.

The heat supply control terminal (4) comprises a main control module (401), a control panel (402), an electric heating driving module (403), a temperature sensor (404) and a communication module (405), wherein one end of the electric heating driving module (403) is connected to a power grid (2), the other end of the electric heating driving module is connected with an electric heating device (5), the main control module (401) controls the electric heating driving module (403) to work, the temperature sensor (404) collects the real-time temperature of a user and sends the real-time temperature to the main control module (401) for analysis and processing, the main control module (401) exchanges data with a power grid regulation and control center (3) through the communication module (405), the user sets and modifies the temperature regulation and control strategy and parameters of the main control module (401) through the control panel (402), and displays related parameters, so that the user can observe the real-time electricity price and set the. All modules are coordinated and matched to achieve the purpose of the user.

Furthermore, the power grid regulation and control center (3) takes the real-time electricity price as a consumption regulation and control parameter, carries out load flow calculation and electric energy supply and demand relation prediction according to the real-time power generation data of the plurality of new energy power generation equipment (1) and the real-time load data in the power grid (2), and formulates the electricity price in a certain period of time in the future; and (4) making a set of temperature control scheme by the user according to the predicted electricity price by taking the predicted data as reference. The user can operate on the control panel (402) according to the predicted electricity price, the heating time interval is set according to needs, the consumption psychology of the user is greatly met, and meanwhile more convenient and economic services are provided for the user. By adopting a power price regulating mechanism, more users are attracted and encouraged to adopt a system for using new energy for heat supply and consumption through power price lever regulation, and the purpose of 'win-win' between a power grid and the users is achieved.

Recording the predicted power generation amount in a certain period of time in the future as S, recording the predicted load as P, and recording the difference delta P = P-S; the basic electricity price is recorded as E, the change value relative to the basic electricity price is delta E, and the electricity price E1= E + delta E in a certain period of time in the future; Δ E = k × Δ P is set in the grid control center (3), and when the predicted power generation amount S in a certain period of time in the future is larger than the predicted load P, Δ P is negative, and Δ E is also negative, and E1 is reduced with respect to the base electricity price E, whereas when the predicted power generation amount S in a certain period of time in the future is smaller than the predicted load P, Δ P is positive, Δ E is also positive, and E1 is increased with respect to the base electricity price E. The surplus electric quantity of the new energy power generation system in different time periods is used for supplying heat, the generated energy in a certain time period in the future is linked with the electricity price, when the generated energy of the new energy is excessive, the electricity price is reduced, and when the generated energy of the new energy is insufficient, the electricity price is increased, so that the heat supply load is effectively reduced. The characteristics that the new energy power generation system generally has large allowance at night and the heat supply demand of a user reaches a peak value at night are effectively utilized, so that on one hand, the peak-valley fluctuation of a power grid is effectively suppressed, the new energy consumption is better realized, and on the other hand, the heating cost of the user is reduced.

In Δ E = k × Δ P, k is determined by history data and a load amount to which the heating control terminal (4) responds, where k is a real number greater than 0. The k value is selected according to real-time power generation data provided by a plurality of new energy power generation equipment (1) and real-time load data in the power grid (2).

Furthermore, the indoor temperature is divided into n temperature intervals of [ T0-T1], [ T1-T2], [ Tn-1-Tn ] in the main control module (401), wherein T0 is the minimum temperature needed to be reached in the room, Tn is the maximum temperature needed to be reached in the room, then [ T0-T1] is the minimum temperature interval needed to be maintained in the room, and [ Tn-1-Tn ] is the optimum temperature interval needed to be maintained in the room. The temperature is set into a plurality of intervals in the main control module (401), so that a user can conveniently set indoor heating temperature according to personal requirements, and the requirement of the user on temperature regulation and control is better met.

Meanwhile, a stepping electricity price threshold value is set in the main control module (401) from high to low as E1, so that an electricity price threshold value interval [ E1-E2], [ En-2-En-1] is formed to correspond to a [ T1-T2] and a [ Tn-2-Tn-1] temperature interval respectively, and an electricity price lever is utilized to coordinate the relationship between the temperature and the electricity price, so that a scientific, reasonable and effective charging measure capable of meeting allocation fairness to the maximum extent is established.

And recording the current indoor temperature as T, and when T < T1, heating the indoor temperature to the interval of [ T0-T1] regardless of the current electricity price so as to ensure that the indoor temperature can reach the minimum temperature required to be maintained.

When the electricity price is in the interval of [ E1-E2], the indoor temperature is heated to the interval of [ T1-T2], and the like, when the electricity price is in the interval of [ En-2-En-1], the indoor temperature is heated to the interval of [ Tn-2-Tn-1], the main control module (401) automatically regulates and controls the temperature kept in the room according to the grading electricity price, and the lower the electricity price is, the higher the indoor temperature is.

When the electricity price is less than En-1, the indoor temperature is heated to the interval of [ Tn-1-Tn ]. When the electricity price is sufficiently low, the indoor temperature is preferentially maintained in the optimum temperature range.

Furthermore, a user can manually and forcibly set the main control module (401) through the control panel (402) to control the indoor temperature in any temperature interval. According to different conditions of different users and different required temperature conditions, the users can control the indoor temperature in any temperature range by manually and forcibly setting the main control module (401) for the control panel (402), so that the flexibility of the system is improved while the requirements of the users are met.

Further, the power grid regulation and control center (3) issues reference electricity price distribution for a period of time in the future to the heat supply control terminal (4) according to historical data and regulation and control requirements. The master control module (401) sets the grading electricity price threshold value manually or automatically according to the reference electricity price distribution and the indoor temperature control requirement. The user can automatically or manually regulate and control the indoor temperature on the control panel (402) according to personal requirements and the grading electricity price issued by the system, the heat supply charging is fair and simple, the heat supply effect is good, and a plurality of negative effects brought by the traditional heat supply mode can not be caused. The user can set a desired temperature for a future period of time for the main control module (401) according to the reference electricity price.

Further, the main control module (401) displays the real-time electricity price, the indoor real-time temperature, the accumulated consumed electricity quantity, the accumulated consumed electricity cost, the effective hours of use, the reference electricity price distribution, the temperature interval of each time slot and the set value of the electricity price interval through the control panel (402).

Compared with the prior art, the utility model has the advantages of as follows:

1. an electric heating decentralized heating method is adopted, a power price regulation mechanism is established according to the fluctuation condition of new energy power generation and the load fluctuation of a power grid, the heating load of a user is macroscopically regulated by using a power price lever, and the problem of new energy consumption is effectively solved; the system has the advantages of simple structure, easy operation, low cost, strong practicability and the like.

2. The user can automatically or manually regulate and control the indoor temperature according to individual demands and the grading electricity price issued by the system, the heat supply charging is fair and simple, the heat supply effect is good, and a plurality of negative effects brought by the traditional heat supply mode can not be caused.

3. The characteristics that the new energy power generation system generally has large allowance at night and the heat supply demand of a user reaches a peak value at night are effectively utilized, so that on one hand, the peak-valley fluctuation of a power grid is effectively stabilized, the new energy consumption is better realized, and on the other hand, the heating cost of the user is reduced.

4. The redundant electric quantity of the new energy power generation system in different time periods is used for supplying heat, the utilization rate of the new energy power generation system is effectively improved, fossil fuel of traditional heat supply is saved, energy is saved, emission is reduced, the environment is protected, and the problem of consumption of new energy is solved.

Drawings

FIG. 1: utilize the new forms of energy of price of electricity lever to consume heating system structure chart.

FIG. 2: heat supply control terminal structure chart.

In the figure: the system comprises 1-new energy power generation equipment, 2-a power grid, 3-a power grid regulation and control center, 4-a heat supply control terminal, 5-an electric heating device, 401-a main control module, 402-a control panel, 403-an electric heating driving module, 404-a temperature sensor and 405-a communication module.

Detailed Description

The invention will be described in further detail with reference to the accompanying drawings:

as shown in figure 1, utilize new forms of energy of price of electricity lever to consume heating system, including new forms of energy power generation facility (1), electric wire netting (2), electric wire netting regulation and control center (3), heat supply control terminal (4), electric heater unit (5).

To further explain the specific implementation mode of the utility model, the room temperature of 18 ℃ is taken as an example, and the heat supply control terminal (4) is adopted to control the electric heating device (5) to supply heat for users.

In the main control module (401), the indoor temperature is divided into 8 temperature intervals of [ 18-19 ℃ ], [ 19-20 ℃ ], [ 20-21 ℃ ], [ 21-22 ℃ ], [ 22-23 ℃ ], [ 23-24 ℃ ], [ 24-25 ℃ ], [ 25-26 ℃ ], wherein 18 ℃ is the lowest temperature needing to be achieved indoors, 26 ℃ is the highest temperature needing to be achieved indoors, then [ 18-19 ℃ ] is the lowest temperature interval needing to be maintained indoors, and [ 25-26 ℃) is the most suitable temperature interval needing to be maintained indoors.

Meanwhile, a grading electricity price threshold value is set in the main control module (401) from high to low as E1,.. E8, and an electricity price threshold value interval [ E1-E2],.. [ E7-E8] is respectively corresponding to a temperature interval of [18 ℃ -19 ℃ and.. - [24 ℃ -25 ℃). The electricity price control mechanism is established by combining the load fluctuation of the power grid according to the fluctuation condition of new energy power generation, the heating load of a user is macroscopically adjusted by using the electricity price lever, more users are attracted and encouraged to use a new energy heating and consumption system, the purpose of 'win-win' between the power grid and the user is achieved, and the problem of new energy consumption is effectively solved.

Recording the current indoor temperature as T, when the T is less than 18 ℃, and the current electricity price is not considered, controlling the work of the electric heating driving module (403) by the main control module (401), and driving the electric heating device (5) to heat the indoor temperature to the range of [ 18-19 ℃;

when the electricity price is in the interval of [ E1-E2], heating the indoor temperature to the interval of [18 ℃ -19 ℃, and so on, and when the electricity price is in the interval of [ E7-E8], heating the indoor temperature to the interval of [24 ℃ -25 ℃;

when the electricity price is less than E8, the indoor temperature is heated to the range of [25 ℃ -26 ℃.

The power grid regulation and control center (3) takes the real-time electricity price as a consumption regulation and control parameter, carries out trend calculation and electric energy supply and demand relation prediction according to the real-time power generation data of the plurality of new energy power generation devices (1) and the real-time load data in the power grid (2), formulates the electricity price of a certain period of time in the future, and a user can automatically or manually regulate and control the indoor temperature according to the classified electricity price issued by the system according to personal demands, so that the heat supply charging is fair, simple and convenient, and the heat supply effect is good.

To further explain the specific implementation manner of the present invention, as shown in fig. 2, the main control module (401) can automatically or manually set the stepped electricity price threshold value according to the classified electricity price issued by the system and the individual demand according to the reference electricity price distribution and the indoor temperature control requirement, and regulate and control the indoor temperature. The characteristics that the new energy power generation system generally has large allowance at night and the heat supply demand of a user reaches a peak value at night are effectively utilized, so that on one hand, the peak-valley fluctuation of a power grid is effectively suppressed, the new energy consumption is better realized, and on the other hand, the heating cost of the user is reduced.

The temperature sensor (404) collects the real-time temperature of a user, the real-time temperature is sent to the main control module (401) for analysis and processing, the main control module (401) exchanges data with the power grid regulation and control center (3) through the communication module (405), the user sets and modifies the temperature regulation and control strategy and parameters of the main control module (401) through the control panel (402), and relevant parameters such as real-time electricity price, indoor real-time temperature, accumulated consumed electricity quantity, accumulated consumed electricity cost, effective hours of use, reference electricity price distribution, temperature intervals of all time periods, set values of electricity price intervals and the like are displayed.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. Utilize new forms of energy consumption heating system of price of electricity lever, its characterized in that: the system comprises new energy power generation equipment (1), a power grid (2), a power grid regulation and control center (3), a heat supply control terminal (4) and an electric heating device (5);

the plurality of new energy power generation equipment (1) and the plurality of heat supply control terminals (4) are connected with the power grid (2);

each user is provided with an independent heat supply control terminal (4) and an electric heating device (5), the heat supply control terminal (4) exchanges data with the power grid regulation and control center (3), and the heat supply control terminal (4) drives and controls the electric heating device (5) to work;

the heat supply control terminal (4) comprises a main control module (401), a control panel (402), an electric heating driving module (403), a temperature sensor (404) and a communication module (405);

one end of the electric heating driving module (403) is connected to the power grid (2), the other end of the electric heating driving module is connected with the electric heating device (5), the main control module (401) controls the electric heating driving module (403) to work, the temperature sensor (404) collects the real-time temperature of a user and sends the real-time temperature to the main control module (401) for analysis and processing, and the main control module (401) exchanges data with the power grid regulation and control center (3) through the communication module (405).

2. The new energy consumption heating system using an electricity price lever according to claim 1, wherein: the main control module (401) displays real-time electricity price, indoor real-time temperature, accumulated consumed electric quantity, accumulated consumed electric charge, effective hours of use, reference electricity price distribution, temperature intervals of all time periods and set values of electricity price intervals through the control panel (402).

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