Multi-objective Optimal Scheduling of Regional Integrated Energy System Considering Refined Modeling of Heating System

被引：0

作者：

Wu S. ^{[1
]}

Li H. ^{[1
]}

Liu Y. ^{[1
]}

You X. ^{[1
]}

Wang J. ^{[2
]}

机构：

[1] College of Electrical Engineering, Sichuan University, Sichuan Province, Chengdu

[2] Dongying Power Supply Company, State Grid Shandong Electric Power Company, Shandong Province, Dongying

来源：

Dianwang Jishu/Power System Technology | 2023年 / 47卷 / 05期

关键词：

dynamic characteristics of heating system; multi-energy flexibility; optimized scheduling; regional integrated energy system; thermal comfort;

D O I：

10.13335/j.1000-3673.pst.2022.1413

中图分类号：

学科分类号：

摘要：

Under the background of the carbon peaking and carbon neutrality goals, the massive increase for the renewable energy integration puts forward new requirements for the ability of the flexible operation of the regional integrated energy systems (RIES). In order to effectively tap the potential of the system flexibility resources, and based on a refined model of the heat network and heat load, this paper proposes a multi-objective optimization strategy of the RIES considering multi-energy flexible resources. Firstly, to accurately describe the dynamic process of the heat energy transmission, a heating system refined transmission model and a building energy storage characteristics model are established. Secondly, a multi-energy flexible resource model is built to quantitatively analyze the adjustable capacity of the thermal units. Then, a RIES model considering the multi-energy power flow is erected. And a day-ahead scheduling strategy with the objective functions of the lack of operation flexibility and comprehensive operation cost is proposed. The case study shows that the presented multi-energy flexible resource model and the multi-objective scheduling strategy is able to effectively reduce the comprehensive operation costs and improve the renewable energy consumption rate. As a result, the pressure on the energy supply during the peak period is effectively relieved. © 2023 Power System Technology Press. All rights reserved.

引用

页码：1979 / 1988

页数：9

共 23 条

[11] SHUAI Wanlan, ZHU Ziwei, LI Xuemeng, Source-networkload-storage”coordinated optimization operation for an integrated energy system considering wind power consumption[J], Power System Protection and Control, 49, 19, pp. 18-26, (2021)
[12] ZOU Yunyang, Li YANG, FENG Li, Coordinated heat and power dispatch of microgrid considering two-dimensional controllability of heat loads[J], Automation of Electric Power Systems, 41, 6, pp. 13-19, (2017)
[13] Weiye ZHU, Yi LUO, Bo HU, Optimized combined heat and power dispatch considering decreasing carbon emission by coordination of heat load elasticity and time-of-use demand response [J], Power System Technology, 45, 10, pp. 3803-3812, (2021)
[14] YI Zhongkai, LI Zhimin, Combined heat and power dispatching strategy considering heat storage characteristics of heating network and thermal inertia in heating area[J], Power System Technology, 42, 5, pp. 1378-1384, (2018)
[15] (2020)
[16] LIN Li, Jia GU, WANG Ling, Optimal dispatching of combined heat-power system considering characteristics of thermal network and thermal comfort elasticity for wind power accommodation[J], Power System Technology, 43, 10, pp. 3648-3655, (2019)
[17] ZHONG Yashan, Cong FU, QIAN Feng, Economic dispatch model of an integrated energy system considering generalized energy storage and conditional value at risk[J], Power System Protection and Control, 50, 9, pp. 54-63, (2022)
[18] (2020)
[19] WANG Wanlu, Li YANG, WANG Lei, Optimal dispatch of integrated electricity-heat energy system considering heat storage characteristics of heating network[J], Automation of Electric Power Systems, 42, 21, pp. 45-52, (2018)
[20] Yang LU, Huaqiang LI, Yang LIU, Optimal operation of electricity-gas-heat integrated energy system considering the risk of energy supply equipment failure[J], Power System Protection and Control, 50, 9, pp. 34-44, (2022)

← 1 2 3 →