STUDY ON MODE OF&#x0201c;ELECTRICITY AND GAS COMPLEMENTATION&#x0201d;-&#x0201c;COOLING AND HEATING COMBINED SUPPLY&#x0201d;CONSIDERINGWIND CURTAILMENT

Bian Yifan; Xie Lirong; Yang Jianbin; Ma Wei; Bao Hongyin

doi:10.19912/j.0254-0096.tynxb.2020-0614

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Acta Energiae Solaris Sinica ›› 2022, Vol. 43 ›› Issue (4) : 311-317. DOI: 10.19912/j.0254-0096.tynxb.2020-0614

Topics on Key Technologies for Safety of Electrochemical Energy Storage Systems and Echelon Utilization of Decommissioned Power Batteries

STUDY ON MODE OF“ELECTRICITY AND GAS COMPLEMENTATION”-“COOLING AND HEATING COMBINED SUPPLY”CONSIDERINGWIND CURTAILMENT

Bian Yifan¹, Xie Lirong¹, Yang Jianbin¹, Ma Wei¹, Bao Hongyin²

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Abstract

In view of the serious wind curtailment and the difficulty of “Thermoelectric Decoupling” in the traditional heating methods, a type mode of accommodating wind power named “Electricity and Gas Complementation”-“Cooling and Heating Combined Supply” is proposed, which combines heat storage electric boilers,gas boilers and absorption chillers. First, to establish a model of “Electricity and Gas Complementation”-“Cooling and Heating Combined Supply” based on the characteristics of the curtailed wind power , heat loads and cold loads. Then, considering the costs of heating and cooling, to construct an economic model of“Electricity and Gas Complementation”-“Cooling and Heating Combined Supply”. Finally, the economical efficiency of the traditional model in heating and cooling named “Gas Boiler-Air Conditioning” is compared with the model of this paper by the example analysis. The results show that the proposed model can reduce the carbon emissions while absorbing the abandonment of wind power, and achieve the purpose of improving system economy.

Key words

wind power accommodation / heat storage / cooling and heating combined supply / heat storage electric boiler / absorption refrigeration

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Bian Yifan, Xie Lirong, Yang Jianbin, Ma Wei, Bao Hongyin. STUDY ON MODE OF“ELECTRICITY AND GAS COMPLEMENTATION”-“COOLING AND HEATING COMBINED SUPPLY”CONSIDERINGWIND CURTAILMENT[J]. Acta Energiae Solaris Sinica. 2022, 43(4): 311-317 https://doi.org/10.19912/j.0254-0096.tynxb.2020-0614

References

[1] 李亚楼, 周孝信, 林集明, 等. 2008年IEEE PES学术会议新能源发电部分综述[J]. 电网技术, 2008, 32(20): 1-7.
LI Y L, ZHOU X X, LIN J M, et al. A review of new energy power generation part in 2008 IEEE PES general meeting[J]. Power system technology, 2008, 32(20): 1-7.
[2] 刘吉臻, 曾德良, 田亮, 等. 新能源电力消纳与燃煤电厂弹性运行控制策略[J]. 中国电机工程学报, 2015, 35(21): 5385-5394.
LIU J Z, ZENG D L, TIAN L, et al. Control strategy for operating flexibility of coal-fired power plants in alternate electrical power systems[J]. Proceedings of the CSEE, 2015, 35(21): 5385-5394.
[3] 国家能源局综合司.国家能源局综合司关于印发《清洁能源消纳情况综合监管工作方案》的通知〔2021〕28号 [IB/OL]. [2021-03-17]. http://zfxxgk.nea.gov.cn/2021-03/17/c_139829878.htm.
[4] 姜拓, 徐飞, 闵勇, 等. 利用富余风能进行清洁供热的交易机制研究[J]. 中国电机工程学报, 2017, 37(15): 4286-4295, 568.
JIANG T, XU F, MIN Y, et al. Research on trading mechanism of clean heating with surplus wind power[J]. Proceedings of the CSEE, 2017, 37(15): 4286-4295, 568.
[5] 崔杨, 陈志, 严干贵, 等. 基于含储热热电联产机组与电锅炉的弃风消纳协调调度模型[J]. 中国电机工程学报, 2016, 36(15): 4072-4081.
CUI Y, CHEN Z, YAN G G, et al. Coordinated wind power accommodating dispatch model based on electric boiler and CHP with thermal energy storage[J]. Proceeding of the CESS, 2016, 36(15): 4072-4081.
[6] 杨锡运, 张洋, 谢志佳, 等. 基于风电-蓄热式电锅炉联合供暖的风电消纳多目标双层优化调度[J]. 太阳能学报, 2020, 41(1): 273-281.
YANG X Y, ZHANG X, XIE Z J, et al. Multi-objective bi-level optimization operation of wind power accommodation for heat storage electric boiler combined with wind power[J]. Acta energiae solaris sinica, 2020, 41(1): 273-281.
[7] 熊焰, 吴杰康, 王强, 等. 风光气储互补发电的冷热电联供优化协调模型及求解方法[J]. 中国电机工程学报, 2015, 35(14): 3616-3625.
XIONG Y, WU J K, WANG Q, et al. An optimization coordination model and solution for combined cooling, heating and electric power systems with complimentary generation of wind, PV, gas and energy storage[J]. Proceeding of the CESS, 2015, 35(14): 3616-3625.
[8] 陈柏翰, 冯伟, 孙凯, 等. 冷热电联供系统多元储能及孤岛运行优化调度方法[J]. 电工技术学报, 2019, 34(15): 3231-3243.
CHEN B H, FENG W, SUN K, et al. Multi-energy storage system and islanded optimal dispatch method of CCHP[J]. Transactions of China Electrotechnical Society, 2019, 34(15): 3231-3243.
[9] 葛维春, 程珊珊, 孙鹏, 等. 电、煤锅炉联合供暖消纳弃风策略及效益分析[J]. 太阳能学报, 2019, 40(4): 986-94.
GE W C, CHENG S S, SUN P, et al. Wind power accommodation strategy and benefit analysis of combined heating of electric and coal boilers[J]. Acta energiae solaris sinica, 2019, 40(4): 986-94.
[10] 郭力, 许东, 王成山.冷电联供分布式供能系统能量优化管理[J]. 电力系统自动化, 2009, 33(19): 96-100.
GUO L, XU D, WANG C S.Energy optimization and management of combined cooling and power distributed energy supply system[J]. Automation of electric power systems, 2009, 33(19): 96-100.
[11] 路朋, 叶林, 汤涌, 等. 基于模型预测控制的风电集群多时间尺度有功功率优化调度策略研究[J]. 中国电机工程学报, 2019, 39(22): 6572-6583.
LU P, YE L, TANG Y, et al. Multi-time scale active power optimal dispatch in wind power cluster based on model predictive control[J]. Proceeding of the CESS, 2019, 39(22): 6572-6583.
[12] 王振浩, 杨璐, 田春光, 等. 考虑风电消纳的风电-电储能-蓄热式电锅炉联合系统能量优化[J]. 中国电机工程学报, 2017, 37(S1): 137-143.
WANG Z H, YANG L, TIAN C G, et al. Energy optimization for combined system of wind-electric energy storage-regenerative electric boiler considering wind consumption[J]. Proceeding of the CESS, 2017, 37(S1): 137-143.
[13] 王亚楠, 吴杰康, 毛晓明.基于随机动态规划的多能联供系统冷热电经济分配模型[J]. 电力自动化设备, 2019, 39(6): 21-6.
WANG Y N, WU J K, MAO X M.Economic distribution model of cooling, heating and power energy in multi-energy supply system based on stochastic dynamic programming[J]. Electric power automation equipment, 2019, 39(6): 21-6.