(1.School of Energy and Power Engineering,Yangzhou University,Yangzhou,Jiangsu 225127,China;2.Science & Technology Commission of Water Resources Department of Jiangsu Province,Nanjing,Jiangsu 210029,China)
Abstract:In order to know the evaporating capacity of channel and lake reservoir water surface along Jiangsu section of the Eastern Route of South-to-North Water Diversion Project(JERP),its power loss of the pumping stations and its influence on water transfer efficiency of JERP,evaporating capacity calculating models and formulae which are suitable for the areas where JERP locates were analyzed and compared.Evaporating capacity of every channel and lake reservoir water surface along JERP was calculated by integral.Both spacial and temporal distribution characteristics of the evaporating capacities of water surfacs were analyzed.The discharge loss and input power loss of every step pumping stations caused by water surface evaporation were calculated.The effect of water surface evaporation on water transfer efficiency of JERP was computed and analyzed.The results show that the evaporating capacities of water surfaces gradually increase from south to north and north- west,and are largest in summer and least in winter.The annual average evaporating capacity of water surfaces amounts to 862.2 mm.The evaporation water volume losses of Hongze Lake,Luoma Lake,Baima Lake and water transfer channels are 77.7%,13.3%,3.6% and 5.4% of the total evaporation water volume loss respectively.17.46% of the water pumped by source pumping stations loses for evaporation,which causes water transfer efficiency of JERP to decrease by 10.33%,and that is a considerable energy loss.Pipelines could be considered for the great water transfer projects which could avoid evaporating capacity of water surface.
仇宝云,王斐,冯晓莉, 黄海田,杨兴丽 . 水面蒸发对南水北调江苏段调水效率的影响[J]. 排灌机械工程学报, 2011, 29(3): 219-223.
Qiu Baoyun,Wang Fei,Feng Xiaoli,Huang Haitian,Yang Xingli. Effects of water surface evaporation on water transfer efficiency for Jiangsu section of South- to- North Water Diversion Project. Journal of Drainage and Irrigation Machinery Engin, 2011, 29(3): 219-223.
[1]田野.架空输电线路输电损耗的差异及降损措施[J].黑龙江电力,2010,32(6):441-443.[2]Pezzini Paola,Gomis-Bellmunt Oriol,Frau-Valenti Joan,et al.Energy efficiency optimization in distribution transformers considering Spanish distribution regulation policy[J].Energy,2010,35(12):4685-4690.[3]陆永泉 朱庆元 仇宝云 等.大套第三抽水站辅助设备能耗计算分析[J].排灌机械工程学报,2010,28(4):340-343.[4]Feng Xiaoli,Qiu Baoyun,Cao Haihong,et al.Optimal operation for Baoying pumping station in East Route Project of South-to-North Water Transfer[J].Chinese Journal of Mechanical Engineering,2009,22(1):78-83.[5]Moreno M A,Carrión P A,Planells P,et al.Measurement and improvement of the energy efficiency at pumping stations[J].Biosystems Engineering,2007,98(4):479-486.[6]Lowe L D,Webb J A,Nathan R J,et al.Evaporation from water supply reservoirs:An assessment of uncer-tainty[J].Journal of Hydrology,2009,376(1/2):261 -274.[7]闵骞.蒸发量的气候学计算[J].南昌水专学报,1992,(2):65-67.[8]李爱贞 刘厚凤.气象学与气候学基础[M].北京:气象出版社,2001.92-93.[9]中水淮河工程有限责任公司 中水北方勘测设计研究有限责任公司.南水北调东线第一期工程项目建议书[R].南京:江苏省水利厅,2004..