基于复杂分段拟合的热电厂负荷优化分配Optimal Load Distribution of the Thermal Power Plant Based on Complex Subsection Fitting
吴月胜,施子福,王树宇,刘林涛,葛黎明,李培,周永刚
WU Yuesheng,SHI Zifu,WANG Shuyu,LIU Lintao,GE Liming,LI Pei,ZHOU Yonggang
摘要(Abstract):
以某热电联产机组为例,通过大数据分析,利用考虑是否有中压抽汽以及是否投运高压加热器的复杂分段函数拟合方法替代性能试验等传统方法得到2台汽轮机进汽量及发电量计算值,此计算值与实际值相比平均绝对误差在3%以内,以此计算方法作为全厂负荷优化分配的理论依据;结合锅炉侧试验数据,建立负荷优化分配数学模型,采用穷举法,在保证计算精度、满足运行要求的前提下,分别对汽轮机和锅炉负荷寻求基于效率最优的负荷优化分配;随机采集一周历史数据进行该优化分配后,总标煤耗量平均降低0.415 t/h,总发电量平均增加0.101 MW/h,全年可降低生产成本约245.43万元。
Based on CHP units and big data analysis, complex subsection function fitting method, considering whether there is medium-pressure extraction and whether the high-pressure heater is put into operation,replaces traditional methods including performance test to conclude the air inflow of two steam turbines and the generation capacity, and the mean absolute error between the calculated value and the actual value is within 3%. The method provides a theoretical basis for optimal load distribution of power plants. Based on the boiler-side test data, a mathematical model of optimal load distribution is established, and the method of exhaustion is used to seek optimal load distribution of steam turbine and boiler loads with optimal efficiency; after random collection of the historical data in one week for the optimal load distribution, the total standard coal consumption is reduced by 0.415 t/h on average, and the total power generation increases by 0.101 MW/h on average, leading to an annual production cost reduction of about 2.454 3 million yuan.
关键词(KeyWords):
汽轮机;供热;进汽量;发电量
steam turbine;heat supply;steam inflow;power generation
基金项目(Foundation):
作者(Author):
吴月胜,施子福,王树宇,刘林涛,葛黎明,李培,周永刚
WU Yuesheng,SHI Zifu,WANG Shuyu,LIU Lintao,GE Liming,LI Pei,ZHOU Yonggang
DOI: 10.19585/j.zjdl.202006014
参考文献(References):
- [1]万燕,孙诗梦,戈志华,等.大型热电联产机组高背压供热改造全工况热经济分析[J].电力建设,2016,37(4):131-137.
- [2]韩建春,孔梦婕,江建勋,等.热电厂多元供热优化分配方法研究[J].内蒙古电力技术,2019,37(5):22-25.
- [3]姚纪伟,邵峰,谭锐.高背压供热机组全厂负荷优化调度的试验研究[J].汽轮机技术,2019,61(5):371-374.
- [4]戈志华,陈玉勇,李沛峰,等.基于当量抽汽压力的大型热电联产供热模式研究[J].动力工程学报,2014,34(7):569-575.
- [5]朱明善.工程热力学[M].北京:清华大学出版社,1995.
- [6]郑体宽.热力发电厂[M].2版.北京:中国电力出版社,2008.
- [7]沈丛奇,归一数,方炯.火电厂全厂负荷优化分配及其控制方式的研究[J].华东电力,2005(3):18-22.
- [8]王学栋,郑威,宋昂.高背压供热改造机组性能指标的分析与评价方法[J].电站系统工程,2014,30(2):49-51.
- [9]李沛峰,杨勇平,陈玉勇,等.热电联产供热系统节能分析及改进[J].工程热物理学报,2013,34(8):1411-1415.
- [10]赵冲,罗向龙,陈颖,等.热电联产集中供热方案的分析对比[J].热能动力工程,2016,31(12):48-55.
- [11]程钧培.节能减排与火电新技术[J].动力工程,2009,29(1):1-4.
- [12]VERONIQUE TREMBLAY,RADU ZMEUREANU.Benchmarking models for the ongoing commissioning of heat recovery process in a central heating and cooling plant[J].Energy,2014,70.