| 107 | 0 | 99 |
| 下载次数 | 被引频次 | 阅读次数 |
CPS1(Control Performance Standard 1)标准在应用于负荷规模悬殊控制区域中,存在适用性问题,故有必要对CPS1标准进行分析以便改进。通过对CPS1标准频率调节责任分配本质内涵的剖析,和负荷波动幅度与负荷规模之间关系的探究,指出CPS1标准是依据系统的负荷规模分配频率调节责任。由于负荷波动的平滑效应,负荷规模较大控制区域的负荷随机波动与负荷规模(与发电规模相当)的比值较小,因此,在实际运行中大区域获得较好的评价结果是一个必然现象。在明确了这两种模式下(分别按照系统负荷规模和波动幅度分配频率调节责任)评价标准适用条件的基础上,提出了适用于我国电网运行现状标准的改进方法,即:无需进行B系数分配原则的改动,直接对标准中的B系数进行相关修正即可解决其适应性问题。仿真算例结果分析表明,按照原有标准进行评价,大区域将获得较好的评价结果,而所提出CPS1标准调整方法可有效解决该问题。
Abstract:There are applicability problems when CPS1(Control Performance Standard 1) standard is applied to control areas with large disparity in load scale. It is necessary to analyze the CPS1 for improvement. By analysis of the essential connotation of the frequency regulation responsibility distribution in CPS1 and the relationship between load fluctuation range and load scale, it is clear that in CPS1 the frequency regulation responsibility is allocated according to load scale. The ratio of load random fluctuation and load scale(equivalent to power generation scale) in the control area with large load scale is small due to the smoothing effect of load fluctuations, so it is inevitable that the area with lager load scale can get a better assessment results. The application conditions of CPS1, under the mode of according to load scale and according to load fluctuation range respectively, are clarified. A convenient way is proposed which is suitable for the present operation situation of China State grid:to correct the B coefficient of the CPS1 directly without revising the B coefficient allocation principle. Simulation results and its analysis show that, if being assessed according to the existing standard, the large area will get better evaluation results. The proposed CPS1 standard adjustment method can solve the problem effectively.
[1] North American Electric Reliability Council.Control performance criteria training document[R].US:NAERC,1994.
[2] JALEELI N,VANSLYCK L S.Control performance standards and procedures for interconnected operation[R].US:EPRI,1997.
[3] JALEELI N,VANSLYCK L S.NERC's new control performance standards[J].IEEE Transactions on Power Systems,1999,14(3):1092- 1099.
[4] 李卫东.关于频率响应控制未来发展的思考[J].发电技术,2018,39(1):84- 89.
[5] 文贤馗,张世海,邓彤天,等.大容量电力储能调峰调频性能综述[J].发电技术,2018,39(6):487- 492.
[6] BADLEY D E.Discussion of[1][J].IEEE Transactions on Power Systems,1999,14(3):1097.
[7] 汪德星.华东电网实行CPS标准的探索[J].电力系统自动化,2000,24(8):41- 44.
[8] 刘家庆,徐峥.大电网运行控制面临的形势、问题与挑战[J].发电技术,2018,39(6):493- 498.
[9] 刘娆,林伟,李卫东,等.互联电力系统运行控制性能评价标准的探讨[J].电力系统自动化,2005,29(8):31- 31.
[10] 华东电网有限公司.华东电网省(市)际联络线功率电量管理和考核办法[Z].上海:华东电网有限公司,2002.
[11] 王羽.风电出力时序特性及其对省级电网的影响[J].发电技术,2018,39(5):475- 482.
[12] 中国南方电网有限责任公司.南方电网联络线功率与系统频率偏差控制和考核管理办法(试行)[Z].广州:中国南方电网有限责任公司,2005.
[13] 华中电网有限公司.华中电网省(市)间联络线电力电量管理考核办法[Z].武汉:华中电网有限公司,2005.
[14] 熊卫斌,李鹏,张昆.CPS对于不同负荷规模的适用性分析[J].电力系统自动化,2012,36(15):78- 82.
[15] 赵旋宇,李鹏,汪皓,等.新型控制性能评价方法及相应的自动发电控制模式[J].中国电机工程学报,2010,30(16):93- 97.
[16] 巴宇,刘娆,李卫东.CPS及其考核在北美与国内的应用比较[J].电力系统自动化,2012,36(15):63- 72.
[17] 单茂华,杨胜春,雍太有,等.风电大规模集中并网后的互联电网有功功率控制性能评价模型[J].中国电机工程学报,2015,35(13):3221- 3230.
[18] 刘娆,常烨骙,巴宇,等.互联电网运行控制性能评价标准研究(一)制定原则和需解决的问题[J].电力系统自动化,2015(18):133- 139.
[19] COHN N.Discussion of “non-linear tie-line frequency bias for interconnected systems control”[J].IEEE Transactions on Power Systems,1988,3(3):1244- 1253.
[20] 刘乐,刘娆,李卫东.自动发电控制中频率偏差系数确定方法的探讨[J].电力系统自动化,2006,30(6):42247.
[21] GROSS G,LEE J W.Analysis of load frequency control performance assessment criteria[J].IEEE Transactions on Power Systems,2001,16(3):520- 525.
[22] 陈磊,胡伟,徐飞,等.互联电网联络线随机功率波动统计特性与评价标准分析[J].电网技术,2013(11):3137- 3143.
[23] 国家电力监管委员会.发电厂并网运行管理规定[Z].北京:国家电力监管委员会,2006.
[24] 国家电力监管委员会.并网发电厂辅助服务管理暂行办法[Z].北京:国家电力监管委员会,2006.
[25] 汪德星.电力系统运行AGC调节需求的分析[J] .电力系统自动化,2004,28(8):6- 9.
[26] MICHIGAMI T,ISHII T.Construction of fluctuation load model and dynamic simulation with LFC control of DC power system and frequency converter interconnection[C]//IEEE.Transmission and Distribution Conference and Exhibition 2002:Asia Pacific.Yokohama,Japan:IEEE/PES,2002:382- 387.
[27] 王松岩,于继来.含大规模风电系统的非AGC与AGC机组高峰协调控制策略[J].中国电机工程学报,2013,33(7):156- 163.
[28] 樊新东,杨秀媛,金鑫城.风电场有功功率控制综述[J].发电技术,2018,39(3):268- 276.
[29] 王媛.互联电网运行与控制仿真系统的研制[D].大连:大连理工大学,2006.
[30] MINIESY S M,BOHN E V.Optimum Load-Frequency Continuous Control with Unknown Deterministic Power Demand[J].IEEE Transactions On Power Apparatus and Systems,1972,91(5):1910- 1915.
[31] 李正,敬东,赵强,等.CPS/DCS 标准在大区互联电网AGC控制策略中的应用[J].电力系统及其自动化学报,2003,15(2):27- 32.
基本信息:
DOI:10.13928/j.cnki.wrahe.2019.05.029
中图分类号:TM712
引用信息:
[1]穆永强,刘波,王春生,等.考虑系统负荷规模的CPS1标准修正方法[J].水利水电技术,2019,50(05):245-252.DOI:10.13928/j.cnki.wrahe.2019.05.029.
基金信息:
国家自然科学基金项目(50577002)
2019-04-16
2019-04-16
2019-04-16