CN111951122A - Marketization trading method and system based on participation of heat accumulating type electric heating load - Google Patents

Abstract

The invention relates to a marketization trading method and a marketization trading system based on participation of a heat accumulating type electric heating load, which comprise the following steps of: s100, calculating a market optimal trading mode of the heat accumulating type electric heating load; s200, calculating an interactive sharing mode of the load aggregator and the heat accumulating type electric heating customers; and S300, calculating a market trading mode participated by the load aggregator to act on the heat accumulating type electric heating client by combining the S100 and the S300. The invention can make the market trading rule that the load aggregator acts on the heat accumulating type electric heating client to participate by analyzing the heat accumulating type electric heating load market trading realization path, the load aggregator and the heat accumulating type electric heating client interaction method and the sharing mechanism, and realizes the multi-party win-win of the society, the government, the power generation enterprise, the power grid enterprise and the electric heating client.

Description

Marketization trading method and system based on participation of heat accumulating type electric heating load

Technical Field

The invention relates to the technical field of heat accumulating type electric heating, in particular to a marketization trading method and system based on heat accumulating type electric heating load participation.

Background

Based on electric heating as a new heating technology, the electric heating is generally applied in European and American countries at present. In recent years, electric heating has attracted extensive attention and is gradually and vigorously developed in order to solve the problem of environmental pollution caused by coal-fired heating in northern heating areas of China. The electric heating uses centralized heating facilities such as an electric boiler and the like or distributed electric heating facilities such as a heating cable, an electric heating film and the like and various electric drive heat pumps, and the electric heating is flexible in arrangement, operation and heating modes, so that the proportion of electric energy consumption at the terminal energy source is improved. By the end of 2016, the electric heating area in northern areas of China is about 4 hundred million square meters, which accounts for 2 percent of the total heating area.

In any heating method, it is required to provide a long-term stable heating service for users, and for electric heating, "heating without interruption in power failure" is to be realized. The heat sources of the electric heating equipment come from an electric boiler, an electric heat pump, a heating cable and the like, once power is cut off, the heat source supply is lost, heating interruption is caused, if the electric heating equipment cannot be recovered for a long time, the conditions of frost cracking, even pipe explosion and the like of a heat supply pipe network can occur, heating recovery is difficult, the life of people or industrial and agricultural production is seriously influenced, and the consequences are unreasonable. Based on the current situation that the annual average power failure time of the state network company is 280 minutes, the requirement of 'power failure non-stop heating' is objectively difficult to meet by adopting a simple electric heating technology. The heat accumulating type electric heating system (as shown in fig. 2) can continuously and reasonably heat during power failure due to the reasonable configuration of the heat accumulating units with certain capacity, and is the most economical and feasible technical scheme for realizing 'power failure continuous heating'. The demonstration engineering practice shows that the heat accumulating type electric heating can well solve the problem of power failure, the heat supply stability and the reliability are greatly improved, and therefore the heat accumulating type electric heating is bound to become the best mode for large-scale popularization and application of the electric heating.

Disclosure of Invention

According to the marketized transaction method and system based on participation of the heat accumulating type electric heating loads, paths, the interaction method and the cooperation mechanism of the load aggregators and the heat accumulating type electric heating clients can be realized by analyzing the marketized transaction of the heat accumulating type electric heating loads, the marketized transaction rules of the load aggregators for acting the heat accumulating type electric heating clients to participate are formulated, and the multi-party win-win situation of the society, the government, the power generation enterprises, the power grid enterprises and the electric heating clients is realized.

In order to achieve the purpose, the invention adopts the following technical scheme:

a marketization trading method based on participation of heat accumulating type electric heating loads comprises the following steps:

the method comprises the following steps:

s100, calculating a market optimal trading mode of the heat accumulating type electric heating load;

s200, calculating an interactive sharing mode of the load aggregator and the heat accumulating type electric heating customers;

and S300, calculating a market trading mode participated by the load aggregator to act on the heat accumulating type electric heating client by combining the S100 and the S300.

Further, S100, calculating a market optimal trading mode of the heat accumulating type electric heating load; the method comprises the following steps:

setting the electricity price of the heat accumulating type electric heating to be Q_CThe heat generated by unit heat accumulating type electric heating is q_cThe working efficiency of the heat accumulating type electric heating is eta_cThe unit heat accumulating type electric heating has the following electricity price:

Q_C＝q_c×η_c (1)

setting the load aggregate quotient cost to Q_eThe heat value of the electric energy per kilowatt hour is q_eThe load conversion efficiency of the electric heating is eta_eThe cost per kilowatt-hour load aggregator is:

Q_e＝q_e×η_e (2)

the total cost of marketization transaction of the heat accumulating type electric heating load is as follows:

Q＝Q_C+Q_e (3)

wherein, the adaptability in heat accumulation formula electric heating load and electric power market:

in the formula, P_jpFor heat accumulating electric heating adaptation value, C_jpFor economic profit of the electricity market, P_payThe device is a heat accumulating type electric heating device;

deducing the technical and economic feasibility of the heat accumulating type electric heating load participating in the electric power market by the electric characteristics of the heat accumulating type electric heating load:

P_sum＝P_inc-P_pay (8)

in the formula, P_sumFor economic and feasible profit of heat accumulating type electric heating, P_incFor comprehensive benefits of heat-accumulating electric heating, P_payThe cost is the heat accumulating type electric heating cost;

deducing a realization path of a load aggregator participating in electric power marketization transaction:

S_h＝S_hw+S_hn (9)

in the formula, S_hFor the best transaction path value, S_hwFor optimal path value, S, of heat accumulating type electric heating client_hnThe optimal path value for the power market.

Further, the step S200 of determining an interactive sharing mode of the load aggregator and the heat accumulating type electric heating customer; the method comprises the following steps:

under the market transaction mode of heat accumulating type electric heating, the cost of the heat accumulating type electric heating load aggregator is minimized, namely

max(C_p)＝max(P_pc×N_ph-C_fp) (4)

In the formula: c_pThe transaction price for the heat accumulating type electric heating client and the load aggregator; p_pcThe heating power generation amount provided for the load aggregator; n is a radical of_phTrading fees for the heat accumulating type electric heating customers; c_fpThe method is marginal benefit of heat accumulating type electric heating customers and load aggregation.

Further, the S200 further includes deriving benefit requirements of the load aggregator and the heat storage type electric heating client, and deriving benefit of the load aggregator and benefit of the heating client:

P_t ^wp＝P_t ^w+P_t ^d (10)

in the formula, P_t ^wpFor evaluation of general interest, P_t ^wEvaluation of heating customer complaints, P_t ^dAnd evaluating for the benefit of the load aggregation trader.

Further, the step S300, combined with the step S100 and the step S300, determines a market-oriented trading mode participated by the load aggregator to act on the heat accumulating type electric heating client;

the method comprises the following steps:

the equipment cost of the electric heating and the unit heating area of the load aggregation provider are respectively set as follows: c_c1And C_e1The labor cost of the heat accumulating type electric heating is C _c2And C_e2The other costs of the heat accumulating type electric heating system are respectively C_c3And C_e3；

Then:

the total cost per unit heating area required by the load aggregator is:

the total cost required by the heating area of the heat accumulating type electric heating client is as follows:

on the other hand, the invention also discloses a market trading system based on the participation of the heat accumulating type electric heating load, which comprises the following units:

the heat accumulating type electric heating load marketization optimal trading mode determining unit is used for calculating a heat accumulating type electric heating load marketization optimal trading mode;

the load aggregator and heat accumulating type electric heating customer interactive interference determining unit is used for calculating the load aggregator and heat accumulating type electric heating customer interactive interference mode;

the market-oriented trading mode determining unit is used for calculating the market-oriented trading mode participated by the load aggregator proxy heat accumulating type electric heating client.

According to the technical scheme, the marketized transaction method and system based on the participation of the heat accumulating type electric heating load have the following beneficial effects:

1. the invention discloses a marketization trading rule for a load aggregator to act on heat accumulating type electric heating clients by analyzing the heat accumulating type electric heating load marketization trading to realize a path, a load aggregator and a heat accumulating type electric heating client interaction method and a sharing mechanism.

2. The invention provides a heat accumulating type electric heating load market-oriented transaction realization path; the method comprises the following steps that a load aggregator and a heat accumulating type electric heating customer interact method and a cooperation mechanism; the load aggregation trader acts on market trading rules participated by the heat accumulating type electric heating client.

Drawings

FIG. 1 is a flow chart of a method of the present invention;

fig. 2 is a schematic view of a typical regenerative electric heating system in the prior art.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention.

As shown in fig. 1, the marketable transaction method based on the participation of the heat accumulating type electric heating load in the embodiment includes the following steps:

s100, calculating a market optimal trading mode of the heat accumulating type electric heating load;

s200, calculating an interactive sharing mode of the load aggregator and the heat accumulating type electric heating customers;

and S300, calculating a market trading mode participated by the load aggregator to act on the heat accumulating type electric heating client by combining the S100 and the S300.

The following is a detailed description:

and A, link A: deducing a market trading method for the heat accumulating type electric heating load;

the heat supply system of the current heat accumulating type electric heating needs to be popularized and implemented on a large scale, and the total transaction cost of the heat accumulating type electric heating is reduced. The optimal market trading method for the heat accumulating type electric heating load is calculated according to the following method:

setting the electricity price of the heat accumulating type electric heating to be Q_CThe heat generated by unit heat accumulating type electric heating is q_cThe working efficiency of the heat accumulating type electric heating is eta_cThe unit heat accumulating type electric heating has the following electricity price:

Q_C＝q_c×η_c (1)

setting the load aggregate quotient cost to Q_eThe heat value of the electric energy per kilowatt hour is q_eThe load conversion efficiency of the electric heating is eta_eThe cost per kilowatt-hour load aggregator is:

Q_e＝q_e×η_e (2)

the total cost of marketization transaction by adopting the heat accumulating type electric heating load is as follows:

Q＝Q_C+Q_e (3)

and B, link B: deducing a load aggregator and heat accumulating type electric heating customer interaction sharing method;

under the market trading mode of heat accumulating type electric heating, the heat accumulating type electric heating client benefits are maximized, and the cost of the load aggregator is minimized, namely

max(C_p)＝max(P_pc×N_ph-C_fp) (4)

In the formula: c_pThe transaction price for the heat accumulating type electric heating client and the load aggregator; p_pcThe heating power generation amount provided for the load aggregator; n is a radical of_phTrading fees for the heat accumulating type electric heating customers; c_fpThe marginal profit of the aggregation of the heat accumulating type electric heating client and the load is obtained;

c, link C: deducing a marketized trading method participated by a load aggregator proxy heat accumulating type electric heating client according to the link A and the link B;

the equipment cost of the electric heating and the unit heating area of the load aggregation provider are respectively set as follows: c_c1And C_e1The labor cost of the heat accumulating type electric heating is C _c2And C_e2Other expenses such as heat accumulation type electric heating systemIs other than C_c3And C_e3，

The total cost per unit heating area required by the load aggregator is:

the total cost required by the heating area of the heat accumulating type electric heating client is as follows:

for heating enterprises, only in C_c≦C_eUnder the condition of (1), namely the total cost consumed by unit area under two heating modes is equivalent, the heat accumulating type electric heating popularization and implementation only meets the condition, and meanwhile, the base C_c＝C_eThe critical cost of market-oriented transaction participated by the load aggregation business agent heat accumulating type electric heating client can be obtained according to the theoretical boundary condition.

Specifically, the adaptability of the heat accumulating type electric heating load and the electric power market is deduced in the link A:

in the formula, P_jpFor heat accumulating electric heating adaptation value, C_jpFor economic profit of the electricity market, P_payIs a heat accumulating type electric heating device.

In the A link, the technical and economic feasibility that the heat accumulating type electric heating load participates in the electric power market is deduced according to the electric power characteristics of the heat accumulating type electric heating load:

P_sum＝P_inc-P_pay (8)

in the formula, P_sumFor economic and feasible profit of heat accumulating type electric heating, P_incFor comprehensive benefits of heat-accumulating electric heating, P_payThe cost of heat accumulating type electric heating is low.

The implementation path of the load aggregator participating in the electric power marketization transaction in the A link is derived from the following steps:

S_h＝S_hw+S_hn (9)

in the formula, S_hFor the best transaction path value, S_hwFor optimal path value, S, of heat accumulating type electric heating client_hnThe optimal path value for the power market.

And in the link B, the benefit requirements of the load aggregator and the heat accumulating type electric heating client are analyzed, and the benefit of the load aggregator and the benefit of the heating client are deduced:

P_t ^wp＝P_t ^w+P_t ^d (10)

in the formula, P_t ^wpFor evaluation of general interest, P_t ^wEvaluation of heating customer complaints, P_t ^dAnd evaluating for the benefit of the load aggregation trader.

From the above, the present embodiment derives a heat accumulating type electric heating load marketization trading method; deducing a load aggregator and heat accumulating type electric heating customer interaction sharing method; deducing a marketization trading method participated by a load aggregation business agent heat accumulating type electric heating client; deducing the adaptability of the heat accumulating type electric heating load and the electric power market; deducing the technical and economic feasibility of the heat accumulating type electric heating load participating in the electric power market; deducing a realization path of a load aggregator participating in electric power marketization transaction; and deducing the interest requirements of the load aggregators and the heat accumulating type electric heating clients. The invention discloses a marketization trading rule for a load aggregator to act on heat accumulating type electric heating clients by analyzing the heat accumulating type electric heating load marketization trading to realize a path, a load aggregator and a heat accumulating type electric heating client interaction method and a sharing mechanism.

On the other hand, the embodiment of the invention also discloses a market-oriented trading system based on the participation of the heat accumulating type electric heating load, which comprises the following units:

the heat accumulating type electric heating load marketization optimal trading mode determining unit is used for calculating a heat accumulating type electric heating load marketization optimal trading mode;

the load aggregator and heat accumulating type electric heating customer interactive interference determining unit is used for calculating the load aggregator and heat accumulating type electric heating customer interactive interference mode;

the market-oriented trading mode determining unit is used for calculating the market-oriented trading mode participated by the load aggregator proxy heat accumulating type electric heating client.

It is understood that the system provided by the embodiment of the present invention corresponds to the method provided by the embodiment of the present invention, and the explanation, the example and the beneficial effects of the related contents can refer to the corresponding parts in the method.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (6)

1. A marketization trading method based on participation of heat accumulating type electric heating loads is characterized in that:

the method comprises the following steps:

s100, calculating a market optimal trading mode of the heat accumulating type electric heating load;

s200, calculating an interactive sharing mode of the load aggregator and the heat accumulating type electric heating customers;

and S300, calculating a market trading mode participated by the load aggregator to act on the heat accumulating type electric heating client by combining the S100 and the S300.

2. The marketable trading method based on participation of heat accumulating type electric heating loads according to claim 1, is characterized in that:

s100, calculating a market optimal trading mode of the heat accumulating type electric heating load; the method comprises the following steps:

setting the electricity price of the heat accumulating type electric heating to be Q_CThe heat generated by unit heat accumulating type electric heating is q_cHeat accumulating type electric heating deviceWorking efficiency is η_cThe unit heat accumulating type electric heating has the following electricity price:

Q_C＝q_c×η_c (1)

setting the load aggregate quotient cost to Q_eThe heat value of the electric energy per kilowatt hour is q_eThe load conversion efficiency of the electric heating is eta_eThe cost per kilowatt-hour load aggregator is:

Q_e＝q_e×η_e (2)

the total cost of marketization transaction of the heat accumulating type electric heating load is as follows:

Q＝Q_C+Q_e (3)

wherein, the adaptability in heat accumulation formula electric heating load and electric power market:

in the formula, P_jpFor heat accumulating electric heating adaptation value, C_jpFor economic profit of the electricity market, P_payThe device is a heat accumulating type electric heating device;

deducing the technical and economic feasibility of the heat accumulating type electric heating load participating in the electric power market by the electric characteristics of the heat accumulating type electric heating load:

P_sum＝P_inc-P_pay (8)

in the formula, P_sumFor economic and feasible profit of heat accumulating type electric heating, P_incFor comprehensive benefits of heat-accumulating electric heating, P_payThe cost is the heat accumulating type electric heating cost;

deducing a realization path of a load aggregator participating in electric power marketization transaction:

S_h＝S_hw+S_hn (9)

in the formula, S_hFor the best transaction path value, S_hwFor optimal path value, S, of heat accumulating type electric heating client_hnThe optimal path value for the power market.

3. The marketable trading method based on participation of heat accumulating type electric heating loads according to claim 2, is characterized in that:

the S200, determining an interactive sharing mode of the load aggregator and the heat accumulating type electric heating customers; the method comprises the following steps:

under the market transaction mode of heat accumulating type electric heating, the cost of the heat accumulating type electric heating load aggregator is minimized, namely

max(C_p)＝max(P_pc×N_ph-C_fp) (4)

In the formula: c_pThe transaction price for the heat accumulating type electric heating client and the load aggregator; p_pcThe heating power generation amount provided for the load aggregator; n is a radical of_phTrading fees for the heat accumulating type electric heating customers; c_fpThe method is marginal benefit of heat accumulating type electric heating customers and load aggregation.

4. The marketable trading method based on participation of heat accumulating type electric heating loads according to claim 3, is characterized in that:

the S200 also comprises the derivation of benefit appeal of a load aggregator and a heat accumulating type electric heating client, and the derivation of the benefit of the load aggregator and the benefit of the heating client is as follows:

P_t ^wp＝P_t ^w+P_t ^d (10)

in the formula, P_t ^wpFor evaluation of general interest, P_t ^wEvaluation of heating customer complaints, P_t ^dAnd evaluating for the benefit of the load aggregation trader.

5. The marketable trading method based on participation of heat accumulating type electric heating loads according to claim 4, is characterized in that: the step S300 of determining a market-oriented trading mode participated by the load aggregator agent heat accumulating type electric heating client in combination with the step S100 and the step S300;

the method comprises the following steps:

electric heating with setting of heating area of load aggregation provider unitThe equipment cost is respectively as follows: c_c1And C_e1The labor cost of the heat accumulating type electric heating is C _c2And C_e2The other costs of the heat accumulating type electric heating system are respectively C_c3And C_e3；

Then:

the total cost per unit heating area required by the load aggregator is:

the total cost required by the heating area of the heat accumulating type electric heating client is as follows:

6. the utility model provides a market-oriented transaction system based on participation of heat accumulation formula electric heating load which characterized in that: the method comprises the following units:

the heat accumulating type electric heating load marketization optimal trading mode determining unit is used for calculating a heat accumulating type electric heating load marketization optimal trading mode;

the load aggregator and heat accumulating type electric heating customer interactive interference determining unit is used for calculating the load aggregator and heat accumulating type electric heating customer interactive interference mode;

the market-oriented trading mode determining unit is used for calculating the market-oriented trading mode participated by the load aggregator proxy heat accumulating type electric heating client.

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