登录注册
请使用微信扫一扫
关注公众号完成登录
我要投稿
参考文献
1
孙伟卿,裴亮,向威,等.电力系统中储能的系统价值评估方法[J].电力系统自动化,2019,43(8):47-55.[百度学术]
SUN Weiqing,PEI Liang,XIANG Wei,et al.Evaluation method of system value for energy storage in power system[J].Automation of Electric Power Systems,2019,43(8):47-55.[百度学术]
2
李建林,田立亭,来小康.能源互联网背景下的电力储能技术展望[J].电力系统自动化,2015,39(23):15-25.[百度学术]
LI Jianlin,TIAN Liting,LAI Xiaokang.Outlook of electrical energy storage technologies under Energy Internet background[J].Automation of Electric Power Systems,2015,39(23):15-25.[百度学术]
3
ZIEGLER M S,MUELLER J M,PEREIRA G D,et al.Storage requirements and costs of shaping renewable energy toward grid decarbonization[J].Joule,2019,3(9):2134-2153.[百度学术]
4
DOWLING J A,RINALDI K Z,RUGGLES T H,et al.Role of long-duration energy storage in variable renewable electricity systems[J].Joule,2020,4(9):1907-1928.[百度学术]
5
SEPULVEDA N A,JENKINS J D,EDINGTON A,et al.The design space for long-duration energy storage in decarbonized power systems[J].Nature energy,2021,6:506-516.[百度学术]
6
Federal Energy Regulatory Commission.Order No.841[R].Washington DC:FERC,2018.[百度学术]
7
SCHICK C,KLEMPP N,HUFENDIEK K.Role and impact of prosumers in a sector-integrated energy system with high renewable shares[J/OL].IEEE Transactions on Power Systems[2021-05-27].http://doi.org/10.1109/TPWRS.2020.3040654.[百度学术]
8
PARVANIA M,FOTUHI-FIRUZABAD M,SHAHIDEHPOUR M.Comparative hourly scheduling of centralized and distributed storage in day-ahead markets[J].IEEE Transactions on Sustainable Energy,2014,5(3):729-737.[百度学术]
9
SU Hani,GAMAL A E.Modeling and analysis of the role of energy storage for renewable integration: power balancing[J].IEEE Transactions on Power Systems,2013,28(4):4109-4117.[百度学术]
10
ZAMANI-DEHKORDI P,SHAFIEE S,RAKAI L,et al.Price impact assessment for large-scale merchant energy storage facilities[J].Energy,2017,125:27-43.[百度学术]
11
THATTE A A,XIE Le.Towards a unified operational value index of energy storage in smart grid environment[J].IEEE Transactions on Smart Grid,2012,3(3):1418-1426.[百度学术]
12
MALLAPRAGADA D S,SEPULVEDA N A,JENKINS J D.Long-run system value of battery energy storage in future grids with increasing wind and solar generation[J].Applied Energy,2020,275.[百度学术]
13
DENHOLM P,NUNEMAKER J,GAGNON P,et al.The potential for battery energy storage to provide peaking capacity in the United States[J].Renewable Energy,2019,151:1269-1277.[百度学术]
14
AKHAVAN-HEJAZI H,MOHSENIAN-RAD H.Optimal operation of independent storage systems in energy and reserve markets with high wind penetration[J].IEEE Transactions on Smart Grid,2014,5(2):1088-1097.[百度学术]
15
GUPTA S,KEKATOS V,SAAD W.Optimal real-time coordination of energy storage units as a voltage-constrained game[J].IEEE Transactions on Smart Grid,2019,10(4):3883-3894.[百度学术]
16
ARTEAGA J,ZAREIPOUR H,AMJADY N.Energy storage as a service: optimal pricing for transmission congestion relief[J].IEEE Open Access Journal of Power and Energy,2020,7:514-523.[百度学术]
17
李建林,袁晓冬,郁正纲,等.利用储能系统提升电网电能质量研究综述[J].电力系统自动化,2019,43(8):15-24.[百度学术]
LI Jianlin,YUAN Xiaodong,YU Zhenggang,et al.Comments on power quality enhancement research for power grid by energy storage system[J].Automation of Electric Power Systems,2019,43(8):15-24.[百度学术]
18
World Energy Council.Five steps to energy storage[R].London:World Energy Council,2020.[百度学术]
19
BHATTACHARJEE S,SIOSHANSI R,ZAREIPOUR H.Benefits of strategically sizing wind-integrated energy storage and transmission[J].IEEE Transactions on Power Systems,2021,36(2):1141-1151.[百度学术]
20
GARRETT F,MANDEL J,MORRIS J,et al.The economics of battery energy storage: how multi-use, customer-sited batteries deliver the most services and value to customers and the grid[R].Beijing:Rocky Mountain Institute,2015.[百度学术]
21
ELLIOTT R T,FERNáNDEZ-BLANCO R,KOZDRAS K,et al.Sharing energy storage between transmission and distribution[J].IEEE Transactions on Power Systems,2019,34(1):152-162.[百度学术]
22
王佳颖,史俊祎,文福拴,等.计及需求响应的光热电站热电联供型微网的优化运行[J].电力系统自动化,2019,43(1):176-185.[百度学术]
WANG Jiaying,SHI Junyi,WEN Fushuan,et al.Optimal operation of CHP microgrid with concentrating solar power plants considering demand response[J].Automation of Electric Power Systems,2019,43(1):176-185.[百度学术]
23
赵乙潼,王慧芳,何奔腾,等.面向用户侧的电池储能配置与运行优化策略[J].电力系统自动化,2020,44(6):121-128.[百度学术]
ZHAO Yitong,WANG Huifang,HE Benteng,et al.Optimization strategy of configuration and operation for user-side battery energy storage[J].Automation of Electric Power Systems,2020,44(6):121-128.[百度学术]
24
LARSEN M,SAUMA E.Economic and emission impacts of energy storage systems on power-system long-term expansion planning when considering multi-stage decision processes[J].Journal of Energy Storage,2020,33.[百度学术]
25
DVORKIN Y,FERNáNDEZ-BLANCO R,KIRSCHEN D S,et al.Ensuring profitability of energy storage[J].IEEE Transactions on Power Systems,2017,32(1):611-623.[百度学术]
26
TAYLOR J A.Financial storage rights[J].IEEE Transactions on Power Systems,2015,30(2):997-1005.[百度学术]
27
EGILL T,REZA H M,WOLAK F A.Optimal offer-bid strategy of an energy storage portfolio: a linear quasi-relaxation approach[J].Applied Energy,2019,260.[百度学术]
28
BERTRAND G,PAPAVASILIOU A.Adaptive trading in continuous intraday electricity markets for a storage unit[J].IEEE Transactions on Power Systems,2020,35(3):2339-2350.[百度学术]
29
KAZEMI M,ZAREIPOUR H,AMJADY N,et al.Operation scheduling of battery storage systems in joint energy and ancillary services markets[J].IEEE Transactions on Sustainable Energy,2017,8(4):1726-1735.[百度学术]
30
MAGNUS A,STEFAN J,MAGNUS K.Equilibrium assessment of storage technologies in a power market with capacity remuneration[J].Sustainable Energy Technologies and Assessments,2019,31:228-235.[百度学术]
31
CRUISE J R,FLATLEY L,ZACHARY S.Impact of storage competition on energy markets[J].European Journal of Operational Research,2018,269(3):998-1012.[百度学术]
32
GRüBEL J,KLEINERT T,KREBS V,et al.On electricity market equilibria with storage: modeling, uniqueness, and a distributed ADMM[J].Computers & Operations Research,2019,114.[百度学术]
33
NASROLAHPOUR E,KAZEMPOUR S J,ZAREIPOUR H,et al.Strategic sizing of energy storage facilities in electricity markets[J].IEEE Transactions on Sustainable Energy,2016,7(4):1462-1472.[百度学术]
34
PANDŽIĆ H,DVORKIN Y,CARRIóN M.Investments in merchant energy storage: trading-off between energy and reserve markets[J].Applied Energy,2018,230:277-286.[百度学术]
35
王克道,陈启鑫,郭鸿业,等.面向可交易能源的储能容量合约机制设计与交易策略[J].电力系统自动化,2018,42(14):54-60.[百度学术]
WANG Kedao,CHEN Qixin,GUO Hongye,et al.Mechanism design and trading strategy for capacity contract of energy storage towards transactive energy[J].Automation of Electric Power Systems,2018,42(14):54-60.[百度学术]
36
SUN Lingling,QIU Jing,HAN Xiao,et al.Per-use-share rental strategy of distributed BESS in joint energy and frequency control ancillary services markets[J].Applied Energy,2020,277.[百度学术]
37
TUSHAR W,CHAI Bo,YUEN C,et al.Energy storage sharing in smart grid: a modified auction-based approach[J].IEEE Transactions on Smart Grid,2016,7(3):1462-1475.[百度学术]
38
SIOSHANSI R.Using storage-capacity rights to overcome the cost-recovery hurdle for energy storage[J].IEEE Transactions on Power Systems,2017,32(3):2028-2040.[百度学术]
39
AGUIAR N,GUPTA V.An insurance contract design to boost storage participation in the electricity market[J].IEEE Transactions on Sustainable Energy,2021,12(1):543-552.[百度学术]
40
GUSTAVO D V,BRUNINX K,DELARUE E.Implications of bid structures on the offering strategies of merchant energy storage systems[J].Applied Energy,2019,251.[百度学术]
41
HUANG Qisheng,XU Yunjian,WANG Tao,et al.Market mechanisms for cooperative operation of price-maker energy storage in a power network[J].IEEE Transactions on Power Systems,2018,33(3):3013-3028.[百度学术]
42
SILVA-MONROY C A,WATSON J P.Integrating energy storage devices into market management systems[J].Proceedings of the IEEE,2014,102(7):1084-1093.[百度学术]
43
CHEN Dapeng,JING Zhaoxia.An improved market mechanism for energy storage based on flexible state of energy[J/OL].CSEE Journal of Power and Energy Systems[2021-05-27].http://doi.org/ 10.17775/CSEEJPES.2020.02980.[百度学术]
44
MUZHIKYAN A,WALTER L,BENNER S,et al.Limited energy capability resource duration requirement for participation in PJM capacity market[C]//2019 IEEE Power & Energy Society Innovative Smart Grid Technologies Conference (ISGT),February18, 2019,Washington DC,USA:1-5.[百度学术]
45
OPATHELLA C,ELKASRAWY A,MOHAMED A A,et al.A novel capacity market model with energy storage[J].IEEE Transactions on Smart Grid,2019,10(5):5283-5293.[百度学术]
46
肖云鹏,张兰,张轩,等.包含独立储能的现货电能量与调频辅助服务市场出清协调机制[J].中国电机工程学报,2020,40(增刊 1):167-180.[百度学术]
XIAO Yunpeng,ZHANG Lan,ZHANG Xuan,et al.The coordinated market clearing mechanism for spot electric energy and regulating ancillary service incorporating Independent energy storage resources[J].Proceedings of the CSEE,2020,40(Supplement 1):167-180.[百度学术]
47
TANG Zao,LIU Yikui,WU Lei,et al.Reserve model of energy storage in day-ahead joint energy and reserve markets: a stochastic UC solution[J].IEEE Transactions on Smart Grid,2021,12(1):372-382.[百度学术]
48
陈亦平,卓映君,刘映尚,等.高比例可再生能源电力系统的快速频率响应市场发展与建议[J].电力系统自动化,2021,45(10):174-183.[百度学术]
CHEN Yiping,ZHUO Yingjun,LIU Yingshang,et al.Development and recommendation of fast frequency response market for power system with high proportion of renewable energy[J].Automation of Electric Power Systems,2021,45(10):174-183.[百度学术]
49
DING Jie,XU Yujie,CHEN Haisheng,et al.Value and economic estimation model for grid-scale energy storage in monopoly power markets[J].Applied Energy,2019,240:986-1002.[百度学术]
50
RAMTEEN S.Welfare impacts of electricity storage and the implications of ownership structure[J].The Energy Journal,2010,31(2):173-198.[百度学术]
51
YAN Xiaohe,GU Chenghong,LI Furong,et al.LMP-based pricing for energy storage in local market to facilitate PV penetration[J].IEEE Transactions on Power Systems,2018,33(3):3373-3382.[百度学术]
52
AWAD A S,FULLER J D,EL-FOULY T H,et al.Impact of energy storage systems on electricity market equilibrium[J].IEEE Transactions on Sustainable Energy,2014,5(3):875-885.[百度学术]
53
MISO.MISO forward report: delivering reliability and value in a 3D future[R].Indianapolis:MISO,2019.[百度学术]
54
王成山,武震,李鹏.分布式电能存储技术的应用前景与挑战[J].电力系统自动化,2014,38(16):1-8.[百度学术]
WANG Chengshan,WU Zhen,LI Peng.Prospects and challenges of distributed electricity storage technology[J].Automation of Electric Power Systems,2014,38(16):1-8.[百度学术]
55
CONTRERAS-OCANA J E.ORTEGA-VAZQUEZ M A, ZHANG Baosen. Participation of an energy storage aggregator in electricity markets[J].IEEE Transactions on Smart Grid,2017,10(2):1171-1183.[百度学术]
56
JU Liwei,WU Jing,LIN Hongyu,et al.Robust purchase and sale transactions optimization strategy for electricity retailers with energy storage system considering two-stage demand response[J].Applied Energy,2020,271.[百度学术]
57
HUPEZ M,TOUBEAU J F,DE GRèVE Z,et al.A new cooperative framework for a fair and cost-optimal allocation of resources within a low voltage electricity community[J].IEEE Transactions on Smart Grid,2021,12(3):2201-2211.[百度学术]
58
陈启鑫,王克道,陈思捷,等.面向分布式主体的可交易能源系统:体系架构、机制设计与关键技术[J].电力系统自动化,2018,42(3):1-7.[百度学术]
CHEN Qixin,WANG Kedao,CHEN Sijie,et al.Transactive energy system for distributed agents: architecture, mechanism design and key technologies[J].Automation of Electric Power Systems,2018,42(3):1-7.[百度学术]
59
NUNNA H K,ANUDEEP S,KUMAR R A,et al.Multiagent-based energy trading platform for energy storage systems in distribution systems with interconnected microgrids[J].IEEE Transactions on Industry Applications,2020,56(3):3207-3217.[百度学术]
60
HE Li,ZHANG Jie.A community sharing market with PV and energy storage: an adaptive bidding-based double-side auction mechanism[J].IEEE Transactions on Smart Grid,2021,12(3):2450-2461.[百度学术]
61
BAYRAM I S,ABDALLAH M,TAJER A,et al.A stochastic sizing approach for sharing-based energy storage applications[J].IEEE Transactions on Smart Grid,2017,8(3):1075-1084.[百度学术]
62
WANG Jianxiao,ZHONG Haiwang,WU Chenye,et al.Incentivizing distributed energy resource aggregation in energy and capacity markets: an energy sharing scheme and mechanism design[J].Applied Energy,2019,252.[百度学术]
63
Today Energy.Key energy storage contract issues[EB/OL]. [2021-02-18].https:///economics-policy/preparing-for-the-revenues-from-battery-energy-storage/.[百度学术]
64
Federal Energy Regulatory Commission.Order No.890[R].Washington DC:FERC,2007.[百度学术]
65
Federal Energy Regulatory Commission.Order No.784[R].Washington DC:FERC,2013.[百度学术]
66
Monitoring Analytics.2019 State of the market report for PJM[R].Pennsylvania:Monitoring Analytics,2020.[百度学术]
67
CAISO.2019 Annual report on market issues and performance[R].California:CAISO,2020.[百度学术]
68
US Department of Energy.DOE OE global energy storage database[EB/OL]. [2021-02-18].https:///ess-ssl/global-energy-storage-database-home/.[百度学术]
69
CAISO.Initiative: energy storage and distributed energy resources[EB/OL]. [2021-02-18].https://stakeholdercenter.caiso.com/StakeholderInitiatives/Energy-storage-and-distributed- energy-resources.[百度学术]
70
CAISO.California Independent system operator corporation order[EB/OL]. [2021-05-26].http:///Documents/ May1- 2019- Response- DeficiencyLetter-Compliance- OrderNo841- ElectricStorageParticipation- ER19-468. pdf.[百度学术]
71
Pacific Gas and Electric.Comments on energy storage and distributed energy resources(ESDER)phase 4[EB/OL]. [2021-05-26].http:///Documents/PG_EComments-EnergyStorage- DistributedEnergyResources- Phase4- Aug21 WorkingGroup.pdf.[百度学术]
72
CAISO.Energy storage and distributed energy resources–storage default energy bid[EB/OL]. [2021-05-26].http:/// InitiativeDocuments/ FinalProposal-EnergyStorage- DistributedEnergyResourcesPhase4- Default EnergyBid.pdf.[百度学术]
73
PJM.Electric storage participation-FERC order 841[EB/OL]. [2021-02-18].https:///committees-and-groups/issue-tracking/issue-tracking-details.aspx?Issue={736CAC88-9404-4421-B178-BD392366098F}.[百度学术]
74
PJM.PJM energy storage participation model: energy market[EB/OL]. [2021-2-18].https:///-/media/committees-groups/ committees/ mic/ 20190315-special-esrco/20190315-item-03a-electric-storage-resource-model.ashx.[百度学术]
75
PJM.Intraday offers education[EB/OL]. [2021-2-18].https:///-/media/etools/emkt/intraday-offers-education-sept-2017-session.ashx[百度学术]
?la=en.[百度学术]
76
PJM.Optimizing hydroelectric pumped storage in PJM’s day-ahead energy market[EB/OL]. [2021-02-18].https:/// sites/ default/ files/ 2020-06/ T2-3_Giacomoni_et_al.pdf.[百度学术]
77
APURBA S,AUDUN B,FRANCIS O.Review of wholesale markets and regulations for advanced energy storage services in the United States:current status and path forward[J].Energy Policy,2018,120:569-579.[百度学术]
78
PJM.Order 841: status quo in PJM[EB/OL]. [2021-02-18].https:///-/ media/ committees-groups/committees/mic/20180510-special-electric/ 20180510-item-03a-esr-841-status-quo-review.ashx.[百度学术]
79
Federal Energy Regulatory Commission.Order No.755[R].Washington DC:FERC,2011.[百度学术]
80
PJM.PJM manual 11:energy&ancillary services market operations revision: 112[R].Philadelphia:PJM,2021.[百度学术]
81
LIU Jinqiang,HU Chao,KIMBER A,et al.Uses,cost-benefit analysis,and markets of energy storage systems for electric grid applications[J].Journal of Energy Storage,2020,32.[百度学术]
82
CHRISTOPH F,KELES D,FICHTNER W.On the role of electricity storage in capacity remuneration mechanisms[J].Energy Policy,2020,149.[百度学术]
83
PJM.ELCC rules at other ISO-RTOs[EB/OL]. [2021-02-18].https:///-/media/committees-groups/task-forces/ ccstf/ 2020/ 20200407/ 20200407- item- 05- elcc-at-otherisortos.ashx.[百度学术]
84
PJM.ELCC–IMM comments[EB/OL]. [2021-02-18].https:///Reports/Presentations/2020/IMM_MRC_ELCC_IMM_Comments_20200919.pdf.[百度学术]
85
BYERS C,LEVIN T,BOTTERUD A.Capacity market design and renewable energy: performance incentives, qualifying capacity, and demand curves[J].The Electricity Journal,2018,31(1):65-74.[百度学术]
86
CAISO.Storage as a transmission asset[EB/OL]. [2021-05-26].http:///InitiativeDocuments/IssuePaper-StorageasaTransmissionAsset.pdf.[百度学术]
87
Federal Energy Regulatory Commission.Utilization of electric storage resources for multiple services when receiving cost-based rate recovery[R].Washington DC:FERC,2017.[百度学术]
88
CAISO.2017-2018transmission plan[EB/OL]. [2021-05-26].http:///documents/boardapproved-2017-2018_transmission_plan.pdf.[百度学术]
89
PJM.Storage as a transmission asset[EB/OL]. [2020-02-18].https:///committees-and-groups/issue-tracking/issue-tracking-details.aspx?Issue={B435C39B-D4BB-4C3C-ADA9-8EFBC0E52246}.[百度学术]
90
MISO.Compliance filing for storage as a transmission only asset[EB/OL]. [2021-02-18].https://cdn.misoenergy.org/2020-09-23_Docket%20No.%20ER20-588-002477500.pdf.[百度学术]
91
HE Manfei.FERC order 841: Electric storage participation in wholesale power markets[EB/OL]. [2021-02-18].https://scipol.duke.edu/track/83-fr-9580-electric-storage-participation-markets-operated-regional-transmission-0.[百度学术]
92
Federal Energy Regulatory Commission.Order No. 2222[R].Washington DC:FERC,2020.[百度学术]
93
MISO.ARC Participation in MISO Markets[EB/OL]. [2021-02-18].https://cdn.misoenergy.org/20200507%20MSC%20Item%2008%20Aggregators%20of%20Retail%20Customers%20(ARC)%20(MSC009)445409.pdf.[百度学术]
94
Voltus.Voltus: how we help[EB/OL]. [2021-02-18].https://.uk/ofgem-publications/166793.[百度学术]
98
Energy Storage News.UK battery storage will be allowed to stack revenues in key grid-balancing markets[EB/OL]. [2021-03-25].https:///news/energy-storage/lessons-can-learnt-uks-latest-capacity-auction.[百度学术]
100
Renewable Energy Association.Energy storage in the UK: an overview[R].London:Renewable Energy Association,2016.[百度学术]
101
National Grid.Enhanced frequency response[R].Warwick:National Grid,2016.[百度学术]
102
OFGEM.Aggregators - barriers and external impacts[R].London, UK:OFGEM,2016.[百度学术]
103
喻芸,荆朝霞,陈雨果,等.电力市场环境下典型发电容量充裕性机制及对我国的启示[J].电网技术,2019,43(8):2734-2742.[百度学术]
YU Yun,JING Zhaoxia,CHEN Yuguo,et al.Typical generation resource adequacy mechanism in electricity market and enlightenment to China[J].Power System Technology,2019,43(8):2734-2742.[百度学术]
104
AEMO.What is 5-minute settlement?[EB/OL]. [2021-03-25].https://aemo.com.au/-/media/files/electricity/nem/5ms/ program-information/ 2020/ 5ms-factsheet-d-july-2020.pdf[百度学术]
?la=en.[百度学术]
105
AEMO.Integrating energy storage systems into NEM[EB/OL]. [2021-03-25].https://aemo.com.au/-/media/files/electricity/ nem/ initiatives/ emerging-generation/ 23-august-2019--integrating-ess-rule-change-proposal-final.pdf?la=en& hash=F500525F8539D6BA070629AA3E0[百度学术]
ACEDD.[百度学术]
106
CUI Hantao,LI Fangxing,FANG Xin,et al.Bilevel arbitrage potential evaluation for grid-scale energy storage considering wind power and LMP smoothing effect[J].IEEE Transactions on Sustainable Energy,2018,9(2):707-718.[百度学术]
107
ZOU Xiaoyan.Double-sided auction mechanism design in electricity based on maximizing social welfare[J].Energy Policy,2009,37(11):4231-4239.[百度学术]
108
SAMADI P,MOHSENIAN-RAD H,SCHOBER R,et al.Advanced demand side management for the future smart grid using mechanism design[J].IEEE Transactions on Smart Grid,2012,3(3):1170-1180.[百度学术]
109
HELMAN U.Market power monitoring and mitigation in the US wholesale power markets[J].Energy,2005,31(6):877-904.[百度学术]
110
MUNOZ F D,WOGRIN S,OREN S S,et al.Economic inefficiencies of cost-based electricity market designs[J].The Energy Journal,2018,39(3):51-68.[百度学术]
111
国家发展改革委员会,国家能源局.输配电定价成本监审办法[R].北京:国家发展改革委员会,2019.[百度学术]
National Development and Reform Commission, National Energy Administration.Supervision and examination method of transmission and distribution price[R].Beijing:National Development and Reform Commission,2019.[百度学术]
112
国家发展改革委员会,国家能源局.关于加快推动新型储能发展的指导意见(征求意见稿)[R].北京:国家发展改革委员会,2021.[百度学术]
National Development and Reform Commission, National Energy Administration.Guidance on accelerating the development of new energy storage (Draft)[R].Beijing:National Development and Reform Commission,2021.[百度学术]
113
国家发展改革委员会.关于进一步完善抽水蓄能价格形成机制的意见[EB/OL].[2021-05-25].https://.cn/xxgk/zcfb/tz/202105/t20210507_1279341_ext.html.[百度学术]
National Development and Reform Commission.Opinions on further improving the price formation mechanism of pumped storage[EB/OL]. [2021-05-25].https://.cn/xxgk/zcfb/tz/202105/t20210507_1279341_ext.html.[百度学术]
114
国家能源局.关于促进电储能参与“三北”地区电力辅助服务补偿(市场)机制试点工作的通知[EB/OL].[2021-05-25].http:///xinwen/2016-06/18/content_5083393.htm.[百度学术]
National Energy Administration.Notice on promoting the participation of electric energy storages in the electric ancillary services market in “Three North” areas[EB/OL]. [2021-05-25].http:///xinwen/2016-06/18/content_5083393.htm.[百度学术]
115
王雅婷,苏辛一,刘世宇,等.储能在高比例可再生能源系统中的应用前景及支持政策分析[J].电力勘测设计,2020,1:15-22.[百度学术]
WANG Yating,SU Xinyi,LIU Shiyu,et al.Study on application prospect and support policies of energy storage in high-penetration renewable energy system[J].Electric Power Survey & Design,2020,1:15-22.[百度学术]
116
张志,邵尹池,伦涛,等.电化学储能系统参与调峰调频政策综述与补偿机制探究[J].电力工程技术,2020,39(5):71-77.[百度学术]
ZHANG Zhi,SHAO Yinchi,LUN Tao,et al.Review on the policies and compensation mechanism of BESS participation in the auxiliary service of frequency and peak modulation[J].Electric Power Engineering Technology,2020,39(5):71-77.[百度学术]
117
刘永奇,邹鹏,燕争上,等.山西电力调频市场机制设计与运营实践[J].电力系统自动化,2019,43(16):175-182.[百度学术]
LIU Yongqi,ZOU Peng,YAN Zhengshang,et al.Mechanism design and operation practice of Shanxi power frequency regulation market in China[J].Automation of Electric Power Systems,2019,43(16):175-182.[百度学术]
118
董超,郝文焕,董锴,等.南方(以广东起步)调频辅助服务市场机制设计与运营实践[J].广东电力,2020,33(6):12-19.[百度学术]
DONG Chao,HAO Wenhuan,DONG Kai,et al.Mechanism design and operation practice of frequency regulation auxiliary service market in southern China(starting from Guangdong)[J].Guangdong Electric Power,2020,33(6):12-19.[百度学术]
特别声明:北极星转载其他网站内容,出于传递更多信息而非盈利之目的,同时并不代表赞成其观点或证实其描述,内容仅供参考。版权归原作者所有,若有侵权,请联系我们删除。
凡来源注明北极星*网的内容为北极星原创,转载需获授权。
近日,思格新能源携手保加利亚可再生能源企业TrakiaMT,成功完成保加利亚南部MalkoTarnovo镇20MWh大型地面光伏储能项目建设。项目坐落于保加利亚与土耳其交界的群山之间,随着光储项目的建成运行,不仅实现了清洁电力在山区的稳定输出,也为提升区域能源独立性和用能安全奠定了坚实基础。拥有“玫瑰之
众所周知,垃圾发电厂除了可以通过垃圾焚烧发电,还能进行循环利用,渣制砖、水回用,多余的热气还能供热。但大家看到的并非全部。实际上,垃圾焚烧发电厂不仅在垃圾处理领域优势显著,在资源循环利用、环境保护、节能减排等方面也蕴含着巨大潜力。值此第53个世界环境日来临之际,小编将从水、气、电三
北极星储能网获悉,6月6日,阳泉市能源局印发《阳泉市能源领域碳达峰实施方案》,提到,鼓励大数据中心、电动汽车充(换)电站、虚拟电厂运营商以及储能运营商作为市场主体参与用户侧储能项目建设。积极构建多层次智能电力系统调度体系,提高电网调度智能化水平。到2025年,全市实现快速灵活的需求侧响
6月6日,北极星太阳能光伏网发布一周要闻回顾(2025年6月2日-6月6日)。政策篇国家能源局:分布式光伏等,豁免电力业务许可证6月3日,国家能源局关于进一步深化电力业务资质许可管理更好服务新型电力系统建设的实施意见发布。文件提到,优化资质许可管理制度。支持电力领域新模式、新业态创新发展,除
为贯彻落实党中央、国务院关于加快绿色低碳发展和构建新型电力系统的决策部署,国家发展改革委、国家能源局近日发布《关于有序推动绿电直连发展有关事项的通知》,培育绿色制造国际竞争优势,提升新能源就近消纳能力。当前,我国绿电直连仍处于探索阶段,江苏等省份已经开始针对电池企业展开实践,全国
续接上文已经分析完的中长期交易市场分时现状,我们接下来看看分时颗粒度更细的现货分时以及与用户有关的零售分时和到户分时。(来源:黄师傅说电)现货分时虽然中长期市场交易最终的标的物还是未来某个15分钟时段内的电量,但被分时的电量并不一定都能带有分时的价格,也许很多连续的时段都是一个价,
加快锻造新质生产力推进抽水蓄能产业高质量发展5月28日,水电水利规划设计总院发布《抽水蓄能产业发展报告2024年度》(以下简称《报告》)显示,我国抽水蓄能装机容量连续9年居世界首位,日本、美国分列第二、三位。在“双碳”目标的引领和驱动下,南方电网近年来加大抽水蓄能发展力度,以积极锻造新质
6月5日,北京电力交易中心公示售电公司市场注销的公告,北京互联售电有限公司由于企业自身原因,自愿退出电力市场,申请注销在北京电力交易中心及北京电力交易中心推送的省(区、市)电力交易中心交易平台的市场注册。按照国家发展改革委、国家能源局《售电公司管理办法》的要求,北京电力交易中心受理
6月1日,国网浙江省电力有限公司在营销2.0中上线电费智能核算应用,该公司在电费核算数智化转型升级方面迈出重要一步。随着新型电力系统和全国统一电力市场建设步伐加快,电费结算业务呈现结算主体多元、结算规则复杂、数据处理量大等特点,传统的电费核算模式面临挑战。电费智能核算应用采用“大模型+
北极星售电网获悉,6月5日,湖南电力交易中心发布关于印发《湖南省保底售电管理办法(试行)》的通知,其中提到,保底售电公司每年确定一次,由售电公司申请,电力交易中心开展遴选。年度中长期批发市场交易开展前,电力交易中心按照以下条件公开透明组织开展保底售电公司遴选:经营稳定、资金储备充足
近期,为贯彻落实国家能源局关于建设全国统一电力市场、推动市场监管公平统一的重要精神,东北能源监管局部署加快推进电力市场数字化监管平台建设工作,旨在通过数字化监管手段,规范电力市场秩序,保障东北区域电力市场公平有序运行。一是发布监管通知,筑牢市场规范基石。印发《关于进一步加强数字化
5月28日至29日,国家能源局2025年电力市场建设能力培训班暨电力市场建设工作座谈会在云南昆明举办。国家能源局党组成员、副局长宋宏坤出席会议并讲话。会议指出,新一轮电力体制改革以来,电力市场建设取得积极成效,市场化交易规模持续扩大,市场制度规则体系加速成型,市场功能持续深化,中长期、现
5月22日,由北极星电力网主办的“2025第三届虚拟电厂运营与未来发展研讨会”在安徽合肥盛大召开。本次大会以“破界聚能,智领未来”为主题,汇聚了行业主管部门、权威智库、领军企业及优秀实践代表,共同探讨虚拟电厂的发展趋势、技术创新及落地应用。西安广林汇智能源科技有限公司(以下简称“广林”
北极星售电网获悉,5月29日,重庆市能源局发布关于市六届人三次会议第0840号代表建议办理情况的答复函。文件明确,2022年以来,在大家共同努力下,重庆市新型储能项目建设取得快速发展,截至2024年底,全市装机项目规模达到156万千瓦/315万千瓦时,总投资约48亿元,为我市电力保障发挥和可再生能源消纳
北极星售电网获悉,5月27日,安徽电力交易中心发布2025年4月华东调峰市场安徽购买调峰费用分摊统计结果的通知,详情如下:
一靴子落地,峰谷套利空间压缩,工商业储能进入博弈新阶段江苏省发改委发布《关于优化工商业分时电价结构促进新能源消纳降低企业用电成本支持经济社会发展的通知》(苏发改价格发〔2025〕426号)正式生效,储能电站峰谷套利收益腰斩,江苏储能行业面临着前所未有的挑战。不仅是江苏,越来越多的省份也
在“双碳”目标驱动下,新能源装机占比已突破35%,但风光电的间歇性与电网刚性需求矛盾日益凸显。当行业焦点从“装机竞赛”转向“消纳能力”,电力辅助服务——这一曾被忽视的万亿级市场,正成为新能源企业、投资者和电网运营商的必争之地。本文一起探讨电力辅助服务(调峰、调频、备用、爬坡)四大核
在电力现货市场全面铺开、需求侧管理政策密集出台的背景下,虚拟电厂正经历从政府邀约向市场化运营的深刻转型。近年来,各地积极开展虚拟电厂的探索实践,推动其应用场景实现裂变式拓展,在促进能源高效利用、提升电力系统灵活性等方面展现出巨大潜力。(来源:北极星售电网作者:北极星)2025年5月23
5月16日,四川能源监管办组织召开四川电网2025年厂网联席会暨电力市场秩序突出问题专项监管工作启动会。国网西南分部、国网四川省电力公司、四川能源发展集团有限责任公司、四川电力交易中心、25家发售电企业等单位负责人参加会议。四川能源监管办负责同志出席会议并讲话。会议安排部署了2025年电力市
对于现代能源体系来说,传统电力系统好比一条条宽阔的“主动脉”,能源单向流动,稳定却稍显笨重。一旦遇到极端天气、设备故障,可能会“牵一发而动全身”,引发大面积停电事故。同时,随着新能源快速发展,大量风光分布式新能源涌入电网,从而导致传统电网“消化不良”,这就促使微电网应运而生,它是
湖南能源监管办立足湖南能源转型关键阶段,创新实施“规划监管筑基、评价体系引路、市场改革赋能”三大举措,助力湖南构建新型电力系统。一是强化规划建设监管,筑牢新型电力系统根基。坚持发挥规划对电力发展的引领作用。在煤电领域,严格执行煤电项目全过程监管,推动优化煤电布局和灵活性改造,提升
北极星售电网获悉,5月19日,贵州省能源局发布关于公开征求《贵州省有序推进虚拟电厂发展的实施方案(征求意见稿)》《贵州省虚拟电厂建设运营管理办法(暂行)(征求意见稿)》意见的通知。到2030年,虚拟电厂应用场景进一步拓展,商业模式不断创新、更加多元,全省虚拟电厂调节能力达到200万千瓦以上
6月5日,北京电力交易中心公示售电公司市场注销的公告,北京互联售电有限公司由于企业自身原因,自愿退出电力市场,申请注销在北京电力交易中心及北京电力交易中心推送的省(区、市)电力交易中心交易平台的市场注册。按照国家发展改革委、国家能源局《售电公司管理办法》的要求,北京电力交易中心受理
北极星售电网获悉,6月5日,新疆电力交易中心发布关于2025年6月第一批电力用户市场注销的公示。按照《国家能源局关于印发电力市场信息披露基本规则的通知》(国能发监管〔2024〕9号)和《新疆电力市场电力用户注册服务指南》有关规定,现将2025年6月第一批市场注销电力用户名单进行公示,公示时间:202
6月5日,汉中市发改委发布汉中市电力高质量发展实施意见(草稿),文件指出,鼓励屋顶分布式项目开发,推动工商业屋顶分布式光伏发展,支持优先采用“自发自用”建设模式,鼓励分布式光伏项目配置储能设施,减小公共电网运行压力。住房城乡建设、发展改革、自然资源、财政、机关事务管理等部门,应当共
6月5日,国新办举行新闻发布会,介绍“深化提升‘获得电力’服务水平全面打造现代化用电营商环境”有关情况。国家能源局副局长宋宏坤在回答记者提问时表示,近年来,中国可再生能源总体保持了高速度发展、高比例利用、高质量消纳的良好态势,为保障电力供应、促进能源转型发挥了重要作用。截至今年4月
北极星售电网获悉,截至5月底,山西电力交易平台在册市场主体21429家,其中发电企业681家、售电公司440家、电力用户20239家,独立储能企业20家,虚拟电厂6家,辅助服务聚合商39家,分布式电源4家。
近日,西藏电力交易中心公布2025年5月西藏电力交易平台新增注册市场主体的公告,2025年5月份,2家发电企业、2家电力用户提报注册申请。西藏电力交易中心对市场主体提交的申请材料完整性进行了审核通过,现将市场主体名单基本情况予以公告。详情如下:
2025年5月30日,国家发展改革委、国家能源局联合印发《关于有序推动绿电直连发展有关事项的通知》(发改能源〔2025〕650号)。这是我国首份绿电直连政策法规,旨在探索创新新能源生产和消费融合发展模式,促进新能源就近就地消纳,更好满足企业绿色用能需求。在国际碳贸易壁垒下,绿电直连政策是我国应
6月5日,国务院新闻办举行新闻发布会,介绍《关于深化提升“获得电力”服务水平全面打造现代化用电营商环境的意见》有关情况并答记者问,国家能源局副局长宋宏坤、国家电网有限公司总经理庞骁刚、中国南方电网有限责任公司总经理钱朝阳、国家能源局市场监管司司长郝瑞锋等出席会议。文字实录如下:国家
北极星售电网获悉,近日,陕西省汉中市发展和改革委员会发布《汉中市电力高质量发展实施意见(草稿)》,其中提到,县级以上人民政府及其有关部门应当因地制宜推动储蓄、火电、水电等多种电源与新能源发电协同运营,有序发展多能互补项目;健全多能源发电协同调度机制,统筹优化调峰电源运行,保障新能
北极星售电网获悉,河北电力交易中心公示售电公司市场注销的公告(交易注册〔2025〕065号),河北辰睿盛新能源科技有限公司等三家售电公司由于企业自身原因,自愿退出电力市场,申请注销河北电力交易中心及推送的省(区、市)电力交易中心交易平台的市场注册。经核实以上售电公司未在河北电力交易中心
6月5日,国务院新闻办举行新闻发布会,介绍了《关于深化提升“获得电力”服务水平全面打造现代化用电营商环境的意见》有关情况并答记者问。国家能源局副局长宋宏坤表示:近年来,我们对标国际先进水平,结合国内发展实际,持续深化“获得电力”改革,全面完成了“三零”“三省”主要目标任务,降低办电
请使用微信扫一扫
关注公众号完成登录
姓名: | |
性别: | |
出生日期: | |
邮箱: | |
所在地区: | |
行业类别: | |
工作经验: | |
学历: | |
公司名称: | |
任职岗位: |
我们将会第一时间为您推送相关内容!