电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2014年
11期
3007-3011
,共5页
周任军%刘志勇%李献梅%陈瑞先%闵雄帮%尹权
週任軍%劉誌勇%李獻梅%陳瑞先%閔雄幫%尹權
주임군%류지용%리헌매%진서선%민웅방%윤권
碳捕集率%电价%碳排权放权价格%随机优化%多随机变量超分位数
碳捕集率%電價%碳排權放權價格%隨機優化%多隨機變量超分位數
탄포집솔%전개%탄배권방권개격%수궤우화%다수궤변량초분위수
carbon capture rate%electricity price%carbon emission permit price%stochastic optimization%multiple random variable superquantile
碳捕集机组的效益与电价、碳排放权价格密切相关,在售电损失费用、碳排放权交易费用和燃料费用为目标函数的机组碳捕集率优化模型中,同时考虑电价与碳排放权价格的随机性,提出并推导了多随机变量超分位数方法,将机组碳捕集率优化模型变为机组碳捕集率随机函数型的优化模型,便于利用工具箱求解。对比分析了不考虑电价和碳排放权价格波动,仅考虑碳排放权价格波动以及考虑电价与碳排放权价格波动的机组碳捕集率优化模型的3种计算结果。算例仿真结果表明,同时考虑两价格的随机性,增加了系统碳捕集率调节的灵活性,积极响应了电力市场和碳交易市场机制,降低了碳捕集系统的综合运行成本。
碳捕集機組的效益與電價、碳排放權價格密切相關,在售電損失費用、碳排放權交易費用和燃料費用為目標函數的機組碳捕集率優化模型中,同時攷慮電價與碳排放權價格的隨機性,提齣併推導瞭多隨機變量超分位數方法,將機組碳捕集率優化模型變為機組碳捕集率隨機函數型的優化模型,便于利用工具箱求解。對比分析瞭不攷慮電價和碳排放權價格波動,僅攷慮碳排放權價格波動以及攷慮電價與碳排放權價格波動的機組碳捕集率優化模型的3種計算結果。算例倣真結果錶明,同時攷慮兩價格的隨機性,增加瞭繫統碳捕集率調節的靈活性,積極響應瞭電力市場和碳交易市場機製,降低瞭碳捕集繫統的綜閤運行成本。
탄포집궤조적효익여전개、탄배방권개격밀절상관,재수전손실비용、탄배방권교역비용화연료비용위목표함수적궤조탄포집솔우화모형중,동시고필전개여탄배방권개격적수궤성,제출병추도료다수궤변량초분위수방법,장궤조탄포집솔우화모형변위궤조탄포집솔수궤함수형적우화모형,편우이용공구상구해。대비분석료불고필전개화탄배방권개격파동,부고필탄배방권개격파동이급고필전개여탄배방권개격파동적궤조탄포집솔우화모형적3충계산결과。산례방진결과표명,동시고필량개격적수궤성,증가료계통탄포집솔조절적령활성,적겁향응료전력시장화탄교역시장궤제,강저료탄포집계통적종합운행성본。
The benefit of carbon capture unit closely relates with electricity price and price of carbon emission permit, in the optimization model of unit carbon capture rate, in which the cost of electricity selling, the cost of carbon emission permit transaction cost and the fuel cost are taken as variables in objective function, the randomness of the electricity price and the price of carbon emission permit are considered simultaneously, and a multiple random variable superquantile method is proposed and derived to turn the optimization model of unit carbon capture rate into the optimization model of unit carbon capture rate in the form of random function that is easy to solve by toolbox. Three kinds of calculation results, namely the price fluctuations of both electricity and carbon emission permit are not considered, only the price fluctuation of carbon emission permit is considered and the price fluctuations of both electricity and carbon emission permit are considered, are contrasted and analyzed. Case simulation results show that considering the price randomness of both electricity and carbon emission permit the flexibility of power grid to adjust the carbon capture rate is enhanced; the mechanism of electricity market and carbon trading market is actively responded, thus the overall operating cost of carbon capture system can be reduced.