[1]李红伟,荆浩婕,吴磊,等.基于能量枢纽可变能量效率的电热网优化运行[J].郑州大学学报(工学版),2023,44(06):76-83.[doi:10.13705/j.issn.1671-6833.2023.04.015]
 LI Hongwei,JING Haojie,WU Lei,et al.Optimal Operation of Electric Heating Network Based on Variable Energy Efficiency of Energy Hub[J].Journal of Zhengzhou University (Engineering Science),2023,44(06):76-83.[doi:10.13705/j.issn.1671-6833.2023.04.015]
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基于能量枢纽可变能量效率的电热网优化运行()
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《郑州大学学报(工学版)》[ISSN:1671-6833/CN:41-1339/T]

卷:
44
期数:
2023年06期
页码:
76-83
栏目:
出版日期:
2023-12-25

文章信息/Info

Title:
Optimal Operation of Electric Heating Network Based on Variable Energy Efficiency of Energy Hub
作者:
李红伟荆浩婕吴磊李婷玉
西南石油大学 电气信息学院,四川 成都 610500
Author(s):
LI Hongwei JING Haojie WU Lei LI Tingyu
School of Electrical Engineering and Information, Southwest Petroleum University, Chengdu 610500, China
关键词:
可变能量效率 能量枢纽 标准化矩阵模型 电热网 优化运行
Keywords:
variable energy efficiency energy hub standardized matrix model electric heating network optimal operation
分类号:
TM732
DOI:
10.13705/j.issn.1671-6833.2023.04.015
文献标志码:
A
摘要:
基于能量枢纽的电热网优化运行中,忽略能量枢纽设备能量效率随其输入或输出功率变化而变化的特性 会导致优化运行结果与实际结果之间存在明显偏差。 针对以上问题,首先,采用分段线性化方法逼近设备的可变 能量效率,建立标准化矩阵模型对考虑设备可变能量效率的能量枢纽进行描述。 其次,以系统购能总成本最小为 目标,通过考虑设备可变能量效率的能量枢纽将区域供热网和配电网耦合,建立了电热网优化运行线性模型。 最 后,通过算例验证了电热网优化运行与能量枢纽设备可变能量效率有关。 结果表明:基于设备可变能量效率的电 热网运行情况与基于设备恒定能量效率的电热网运行情况相比,运行成本相对误差从 12. 71%降到了 0. 03%,风电 消纳率增加了 4. 29%。
Abstract:
In the optimization operation of electric heating networks based on energy hubs, the neglect of the characteristic of energy efficiency of energy hub equipment changing with its input or output power leads to a significant deviation between the optimization operation results and the actual results. To solve this problem, firstly, the piecewise linearization method was used to approximate the variable energy efficiency of the equipment, and a standardized matrix model was established to characterize the energy hub considering the variable energy efficiency of the equipment. Secondly, with the goal of minimizing the total cost of system energy procurement, a linear model for optimizing the operation of the electric heating network was established by coupling the regional heating network and distribution network considering the energy hub with variable energy efficiency of equipment. Finally, numerical examples were used verifying that the optimized operation of the electric heating network is related to the variable energy efficiency of the energy hub equipment. The operation situation of the electric heating network based on the variable energy efficiency of the equipment,compared with the operation of the electric heating network based on constant energy efficiency of the equipment, the relative error in operating cost dropped from 12. 71% to 0. 03%, the wind power consumption rate increased by 4. 29%。

参考文献/References:

[1] 曾博, 徐富强, 刘裕, 等. 考虑可再生能源与需求响应 协同增效的能量枢纽多目标区间优化规划方法[J]. 中 国电机工程学报, 2021, 41(21): 7212-7224. 

ZENG B, XU F Q, LIU Y, et al. Multi-objective interval optimization approach for energy hub planning with consideration of renewable energy and demand response synergies[ J] . Proceedings of the CSEE, 2021, 41 ( 21) : 7212-7224. 
[2] 陆信辉, 周开乐, 杨善林. 能源互联网环境下基于分 布鲁棒优化的能量枢纽负荷优化调度[ J] . 系统工程 理论与实践, 2021, 41(11) : 2850-2864. 
LU X H, ZHOU K L, YANG S L. Optimal load dispatch of energy hub based on distributionally robust optimization approach in energy internet environment[ J] . Systems Engineering —Theory & Practice, 2021, 41 ( 11 ) : 2850 -2864.
 [3] THANG V V, HA T, LI Q H, et al. Stochastic optimization in multi-energy hub system operation considering solar energy resource and demand response [ J ] . International Journal of Electrical Power & Energy Systems, 2022, 141: 108132. 
[4] DINI A, HASSANKASHI A, PIROUZI S, et al. A flexible-reliable operation optimization model of the networked energy hubs with distributed generations, energy storage systems and demand response [ J ] . Energy, 2022, 239: 121923.
 [5] 李政洁, 于强, 龚文杰, 等. 计及模糊机会约束的电气-热能源枢纽多目标优化调度[ J] . 电力系统及其自 动化学报, 2021, 33(9) : 49-56. 
LI Z J, YU Q, GONG W J, et al. Multi-objective optimal scheduling of electricity-gas-heat energy hub considering fuzzy chance constraint [ J ] . Proceedings of the CSU-EPSA, 2021, 33(9) : 49-56.
 [6] 熊宇峰, 陈来军, 郑天文, 等. 考虑电热气耦合特性 的低碳园区综合能源系统氢储能优化配置[ J] . 电力 自动化设备, 2021, 41(9) : 31-38. 
XIONG Y F, CHEN L J, ZHENG T W, et al. Optimal configuration of hydrogen energy storage in low-carbon park integrated energy system considering electricity-heatgas coupling characteristics[ J] . Electric Power Automation Equipment, 2021, 41(9) : 31-38. 
[7] 常雨芳, 王豪, 谢昊, 等. 采用矩阵建模方式的冷热 电联供系统运行优化[ J] . 华侨大学学报( 自然科学 版) , 2018, 39(2) : 233-239. 
CHANG Y F, WANG H, XIE H, et al. Operation optimization of combined cooling heating and power systems using matrix modeling approach[J]. Journal of Huaqiao University (Natural Science), 2018, 39(2): 233-239. 
[8] WANG Y, ZHANG N, KANG C Q, et al. Standardized matrix modeling of multiple energy systems [ J ] . IEEE Transactions on Smart Grid, 2019, 10(1) : 257-270.
 [9] WANG Y, CHENG J N, ZHANG N, et al. Automatic and linearized modeling of energy hub and its flexibility analysis[ J] . Applied Energy, 2018, 211: 705-714. 
[10] 陈晚晴, 穆云飞, 贾宏杰, 等. 考虑设备变工况特性 的区域综合能源系统优化调度方法[ J] . 电网技术, 2021, 45(3) : 951-958. 
CHEN W Q, MU Y F, JIA H J, et al. Optimal scheduling method of regional comprehensive energy system considering equipment off-design characteristics [ J ] . Power System Technology, 2021, 45(3) : 951-958. 
[11] 李虹, 杜世旗. 考虑能源枢纽变工况特性的综合能源 系统优化配置[J]. 现代电力, 2022, 39(5): 547-553. 
LI H, DU S Q. Optimal configuration of integrated energy system considering variable condition characteristics of energy hub[ J] . Modern Electric Power, 2022, 39( 5) : 547-553.
 [12] HUANG W J, ZHANG N, WANG Y, et al. Matrix modeling of energy hub with variable energy efficiencies [ J] . International Journal of Electrical Power & Energy Systems, 2020, 119: 105876. 
[13] ZHENG J H, HUANG J, DENG S, et al. Comparison and error analysis of off-design and design models of energy hubs [ J ] . CSEE Journal of Power and Energy Systems, 2019, 5(4) : 454-465. 
 [14] CHEN S J, YANG Y B, XU Q S. A coordinated approach of multi-energy system considering the off-design characteristics of the devices in energy hub[ J] . International Transactions on Electrical Energy Systems, 2021, 31(11) : 1-24.
 [15] 陈磊, 徐飞, 王晓, 等. 储热提升风电消纳能力的实 施方式及效果分析[ J] . 中国电机工程学报, 2015, 35 (17) : 4283-4290. 
CHEN L, XU F, WANG X, et al. Implementation and effect of thermal storage in improving wind power accommodation[ J] . Proceedings of the CSEE, 2015, 35(17) : 4283-4290.
 [16] 李红伟, 周海林, 韩璐, 等. 基于能量枢纽的区域电热网优化运行研究[ J] . 电力科学与工程, 2020, 36 (10) : 29-35. 
LI H W, ZHOU H L, HAN L, et al. Study on optimal operation of regional electric and thermal power grid based on energy hub[ J] . Electric Power Science and Engineering, 2020, 36(10) : 29-35. 
[17] LI R, CHEN L J, YUAN T J, et al. Optimal dispatch of zero-carbon-emission micro Energy Internet integrated with non-supplementary fired compressed air energy storage system [ J] . Journal of Modern Power Systems and Clean Energy, 2016, 4(4) : 566-580.
 [18] DEL HOYO A I, L􀆕PEZ S H, L􀆕PEZ P S, et al. Models for fast modelling of district heating and cooling networks[ J] . Renewable and Sustainable Energy Reviews, 2018, 82: 1863-1873.
 [19] FARIVAR M, LOW S H. Branch flow model: relaxations and convexification—part I [ J ] . IEEE Transactions on Power Systems, 2013, 28(3) : 2554-2564. 
[20] 章健, 熊壮壮, 王明东, 等. 基于二阶锥规划的主动 配电网动态无功优化[ J] . 郑州大学学报( 工学版) , 2019, 40(1) : 32-37. 
ZHANG J, XIONG Z Z, WANG M D, et al. Dynamic reactive power optimization in active distribution network based on second-order cone programming[ J] . Journal of Zhengzhou University ( Engineering Science) , 2019, 40 (1) : 32-37.
[21] 熊文涛, 雍龙泉. 基于 Yalmip 工具箱的整数规划模型 求解方法[ J]. 湖 北 工 程 学 院 学 报, 2014, 34 ( 3):41 -45. 
XIONG W T, YONG L Q. A method for solving integer programming model using Yalmip toolbox[ J] . Journal of Hubei Engineering University, 2014, 34(3) :41-45. 
[22] 章健, 张玉晓, 熊壮壮, 等. 计及 DR 的新能源配电网 电压 无 功 协 调 优 化 [ J] . 郑 州 大 学 学 报 ( 工 学 版) , 2020, 41(2) : 61-66. ZHANG J, ZHANG Y X, XIONG

更新日期/Last Update: 2023-10-22