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Comprehensive energy system model construction method considering carbon transaction mechanism and demand response

An integrated energy system and demand response technology, applied in the field of power systems, can solve problems such as unsatisfactory IES scheduling, failure to consider demand response and carbon trading mechanisms, and increase energy supply side investment costs and electricity costs.

Pending Publication Date: 2022-06-24
NORTH CHINA ELECTRIC POWER UNIV (BAODING) +1
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Problems solved by technology

However, the above research on the IGDT-based IES scheduling model does not consider demand response and carbon trading mechanisms, which makes IES scheduling unsatisfactory and increases the investment cost on the energy supply side and the electricity cost on the demand side.

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  • Comprehensive energy system model construction method considering carbon transaction mechanism and demand response
  • Comprehensive energy system model construction method considering carbon transaction mechanism and demand response
  • Comprehensive energy system model construction method considering carbon transaction mechanism and demand response

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Embodiment Construction

[0076]The present invention provides a method for constructing an integrated energy system dispatch model considering carbon trading mechanism and demand response, and further, it can be a construction method for a park-level integrated energy system dispatch model taking into account carbon trading mechanism and demand response. On the energy supply side, integrated energy system operators purchase energy from upper-level power grids and gas grids, and satisfy users by optimizing energy production, conversion coupling, and output of energy storage equipment within the integrated energy system, and using incentive subsidy mechanisms to guide users to participate in demand response. energy demand, ensure energy supply, and minimize the cost of carbon neutrality according to the stepped carbon trading mechanism. On the energy demand side, integrated energy users adjust their own energy demand according to the incentive subsidy price and the price of cooling, heating and electrici...

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Abstract

The invention discloses an integrated energy system model construction method considering a carbon transaction mechanism and demand response, and the method comprises the steps: obtaining basic parameters which comprise a stepped carbon transaction price and a demand response parameter; establishing a first model and a second model of integrated energy system scheduling by using an information gap decision theory; substituting the basic parameters into the first model, solving the first model by taking the highest daily operation profit of an operator as a target, and outputting the output scheme of each unit in the integrated energy system; and substituting the basic parameters into the second model, solving the second model by taking the minimum daily energy consumption cost of the user as a target, and outputting demand response parameters. It can be seen that on the energy supply side, the stepped carbon transaction mechanism and the demand response are introduced into the comprehensive energy system, low-carbon environment-friendly operation of the comprehensive energy system is achieved, energy supply is guaranteed, a user on the energy demand side adjusts the energy consumption demand of the user according to the demand response compensation price and the cold, heat and electricity prices, and the energy consumption cost of the user is reduced.

Description

technical field [0001] The invention relates to the field of power systems, and in particular to a method, device and computing device for building a comprehensive energy system model that takes into account carbon trading mechanisms and demand response. Background technique [0002] In recent years, it has become an important means to improve the comprehensive utilization efficiency of energy and promote the consumption of new energy by constructing an Integrated Energy System (IES) that integrates the overall planning and coordination of multiple types of energy, such as electricity, gas, heat, and cold. [0003] With the development of the electricity market and carbon market, considering Demand Response (DR) in IES scheduling optimization, using DR to transfer and reduce loads can ensure the balance of energy supply and demand and improve the energy economy of users, as well as The introduction of IES scheduling into the carbon trading mechanism makes it particularly imp...

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Application Information

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IPC IPC(8): G06F30/20G06Q10/06G06Q50/06G06F111/04G06F111/06G06F113/04
CPCG06F30/20G06Q10/06315G06Q50/06G06F2111/04G06F2111/06G06F2113/04
Inventor 王俐英董厚琦宋美琴曾鸣王鑫郭珂李函奇
Owner NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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