Abstract:When the hydrogeological conditions are suitable,the permeability tube for water project has the advantages of no pharmacy,low operating costs,good water quality,etc.It has been widely used in daily life, industrial and agricultural production.The water yield and the turbidity of treated water are two important design parameters of the permeability tube for water project. In the permeability tube for water project, the influence of the thickness of the original river sand on the water yield and the turbidity of treated water is analyzed based on the model experiment. The experimental result is consistent with the calculated results and the actual operation of the project.So the results can used in the actual project,and provide a reference for future water infiltration pipe engineering.The results show that there is a gradually decreasing process from the beginning to the eventually stabilized phase in the permeability tube for water project.With the increase of the thickness of the original river sand, the water yield increase, the turbidity of treated water decrease;with the increase of the amount of water,the water yield increase,the turbidity of treated water decrease.
郑晓瑜, 刘焕芳, 于旭永. 河床砂厚度对渗管取水出水量及浊度的影响[J]. 排灌机械工程学报, 2015, 33(2): 128-132.
Zheng Xiaoyu, Liu Huanfang, Yu Xuyong. Thickness of original river sand condition on water yield and turbidity of treated water. Journal of Drainage and Irrigation Machinery Engin, 2015, 33(2): 128-132.
[1]李晓,杨立中.利用天然河床渗滤取水的新技术[J].中国给水排水,2003,19(6):74-76. Li Xiao,Yang Lizhong.New Technology for infiltration diversion from natural river bed[J].China Water and Wastewater, 2003,19(6):74-76.(in Chinese)[2]Wang Wei,Zhang Ge.Numerical simulation of groundwater flowing to horizontal seepage wells under a river[J].Hydrogeology Journal,2007,15(6):1211-1220.[3]Wena X H,Deutsch C V,Cullick A S.Inversion of dynamic production data for permeability:Fast streamline-based computation of sensitivity coefficients of fractional flow rate[J].Journal of Hydrology,2003,281:296-312.[4]Dai Changlei,Li Xinxin,Sun Simiao.Analysis and design for physical model of infiltration gallery under frozen la-yer[C]//2010 Conference on Modern Hydraulic Engineering.[S.l.]:London Science Publishing,2010:309-312.[5]吴正淮.渗渠取水[M].北京:中国建筑工业出版社,1981.[6]刘持峰,刘焕芳,程琨,等.河床床面冲淤变化对渗渠产水量的影响[J].水资源与水工程学报,2007,18(3):10-13. Liu Chifeng,Liu Huanfang,Cheng Kun,et al.Influence on infiltration ditch water intake from the change of river bed condition[J].Journal of Water Resources and Water Engineering,2007,18(3):10-13.(in Chinese)[7]刘持峰,刘焕芳,程琨,等.滤管长度对渗渠产水量的影响[J].人民长江,2008,39(2):30-32. Liu Chifeng,Liu Huanfang,Cheng Kun,et al.Influence of seepage pipe length on water yield volume of seepage canal[J].Yangtze River,2008,39(2):30-32.(in Chinese)[8]程琨,刘焕芳,吕宏兴,等.渗渠取水量变化过程初步分析[J].中国农村水利水电,2007(8):39-44. Cheng Kun,Liu Huanfang,Lv Hongxing,et al.The elementary analyses of the water intake variation process of seepage channel[J].China Rural Water and Hydropower,2007(8):39-44.(in Chinese)[9]刘持峰.渗渠取水工程水力特性试验研究[D].石河子大学水利建筑工程学院,2008.[10]程琨.渗渠取水量影响因素试验研究[D].石河子大学水利建筑工程学院,2007.[11]刘焕芳,程琨,吕宏兴.渗渠取水压力变化过程分析[J].西北农林科技大学学报,2007,35(8):211-216. Liu Huanfang,Cheng Kun,Lv Hongxing.Analysis of pressure variety process during seepage channel intaking water[J].Journal of Northwest A and F University:Na-tural Science Edition,2007,35(8):211-216.(in Chinese)[12]毛昶熙.渗流计算分析与控制[M].北京:中国水利水电出版社,2003.
