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Combined heat and power optimization scheduling method for integrated central heating and demand response

A technology of demand response and central heating, which is applied in the direction of combined combustion mitigation, electrical components, circuit devices, etc., to achieve the effects of improving safety, considerable heat storage benefits of the heating network, and reducing costs

Pending Publication Date: 2022-07-08
SHANGHAI UNIVERSITY OF ELECTRIC POWER
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  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, it is still necessary to further study the potential of aggregated demand response to participate in the regulation of integrated energy systems, so as to further improve economic benefits and meet the demand for flexible resources under large-scale clean energy access to the power grid.

Method used

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  • Combined heat and power optimization scheduling method for integrated central heating and demand response
  • Combined heat and power optimization scheduling method for integrated central heating and demand response
  • Combined heat and power optimization scheduling method for integrated central heating and demand response

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Embodiment 1

[0074] The present embodiment provides a combined heat and power optimal scheduling method for integral central heating and demand response, including the following steps:

[0075] Establish an integral central heating network dynamic heat transfer model, which includes a heat exchanger dynamic model, a heat pipe network dynamic model, a radiator dynamic model and a thermal building dynamic model;

[0076] Construct a power demand response mechanism based on peak-valley difference cost and adjustable time-of-use electricity price;

[0077] According to the heat storage capacity of the dynamic heat transfer model of the integrated central heating network in the heat transfer process, a thermal demand response mechanism based on rigid heating load and translational heating load is constructed;

[0078] Build an aggregated demand response mechanism that includes an electricity demand response mechanism and a heat demand response mechanism;

[0079] Obtain grid data, and perform ...

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Abstract

The invention relates to an integrated central heating and demand response-oriented combined heat and power optimization scheduling method, which comprises the following steps of: establishing an integrated central heating network dynamic heat transfer model, the dynamic heat transfer model of the integrated central heating network comprises a heat exchanger dynamic model, a heat pipe network dynamic model, a radiator dynamic model and a heat building dynamic model. Constructing a power demand response mechanism based on the peak-valley difference cost and the adjustable time-of-use electricity price; according to the heat storage capacity of the dynamic heat transfer model of the integral central heating network in the heat transfer process, a heating power demand response mechanism based on the rigid heating load and the translational heating load is constructed; constructing an aggregation demand response mechanism comprising a power demand response mechanism and a thermal demand response mechanism; and obtaining power grid data, and carrying out combined heat and power optimization scheduling based on an aggregation demand response mechanism. Compared with the prior art, the energy supply flexibility can be effectively improved, the operation stability and economy of the system are improved, and the operation cost of the system is reduced.

Description

technical field [0001] The invention relates to the technical field of integrated energy system scheduling, in particular to a combined heat and power optimal scheduling method oriented to integral central heating and demand response. Background technique [0002] It is an effective means to realize a high proportion of new energy consumption by coupling electricity / gas / heat multiple types of energy to construct an Integrated Energy System (IES) and performing coordinated scheduling. However, there are significant differences in response time characteristics and transport characteristics during operation of multi-heterogeneous energy and multi-type networks, which bring many challenges to the coordinated operation of integrated energy systems. [0003] In the combined heat and power system, electric energy is easy to transmit and difficult to store, while thermal energy benefits from the characteristics of large energy inertia and has good energy storage benefits. In this r...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06Q10/06G06Q50/06H02J3/00
CPCG06Q10/06315G06Q10/06313G06Q50/06H02J3/0075H02J3/008Y04S10/50
Inventor 柴梓轩杨秀傅广努刘方汤金章刘欣雨李安徐立成吴子敬徐耀杰吴吉海蒋家富张浩李承泽
Owner SHANGHAI UNIVERSITY OF ELECTRIC POWER
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