基于变水位静水法的梯形渠道渗漏强度函数构建及验证
变水位静水法受规范中观测方法限制,相邻2次观测时间段的计算只能代表平均水深的平均渗漏强度,且将观测期间渠道渗漏的非线性过程假设为线性变化,该假设将导致计算误差,从而使拟合的渗漏强度幂函数存在系统误差。该文以渠道内水位随时间的渗漏过程拟合函数为基础,建立了关于梯形渠道变水位静水法(dropping head ponding test,DHPT)的渗漏强度函数。以石津灌区6种梯形衬砌渠道的变水位静水法试验为依据进行实例分析,分析获得6种梯形渠道的传统幂函数和DHPT渗漏强度函数,并应用各函数进行了渗漏时长计算。通过渗漏时长计算值与实测值对比表明,DHPT函数平均估计误差0.978 h,最大相对误差...
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| Published in | 农业工程学报 Vol. 33; no. 5; pp. 91 - 95 |
|---|---|
| Main Author | |
| Format | Journal Article |
| Language | Chinese |
| Published |
河北农业大学城乡建设学院,保定,071001%天津农学院水利工程学院,天津,300384
2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1002-6819 |
| DOI | 10.11975/j.issn.1002-6819.2017.05.013 |
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| Abstract | 变水位静水法受规范中观测方法限制,相邻2次观测时间段的计算只能代表平均水深的平均渗漏强度,且将观测期间渠道渗漏的非线性过程假设为线性变化,该假设将导致计算误差,从而使拟合的渗漏强度幂函数存在系统误差。该文以渠道内水位随时间的渗漏过程拟合函数为基础,建立了关于梯形渠道变水位静水法(dropping head ponding test,DHPT)的渗漏强度函数。以石津灌区6种梯形衬砌渠道的变水位静水法试验为依据进行实例分析,分析获得6种梯形渠道的传统幂函数和DHPT渗漏强度函数,并应用各函数进行了渗漏时长计算。通过渗漏时长计算值与实测值对比表明,DHPT函数平均估计误差0.978 h,最大相对误差为1.552%;而传统方法平均估计误差为3.997 h,最大相对误差为5.632%。表明DHPT函数能够更好地描述梯形渠道的渗漏过程,可用于计算点水深下的渗漏强度。通过DHPT函数与传统方法的计算结果对比,表明传统方法计算的渗漏强度普遍偏高,实例中平均误差达到0.248 L/(m^2·h),而DHPT函数直接建立于观测数据之间的函数关系,可避免线性假设的影响,提高计算精度,为分析变水位工况下的渠道水利用系数提供依据。 |
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| AbstractList | S274; 变水位静水法受规范中观测方法限制,相邻2次观测时间段的计算只能代表平均水深的平均渗漏强度,且将观测期间渠道渗漏的非线性过程假设为线性变化,该假设将导致计算误差,从而使拟合的渗漏强度幂函数存在系统误差.该文以渠道内水位随时间的渗漏过程拟合函数为基础,建立了关于梯形渠道变水位静水法(dropping head ponding test,DHPT)的渗漏强度函数.以石津灌区6种梯形衬砌渠道的变水位静水法试验为依据进行实例分析,分析获得6种梯形渠道的传统幂函数和DHPT渗漏强度函数,并应用各函数进行了渗漏时长计算.通过渗漏时长计算值与实测值对比表明,DHPT函数平均估计误差0.978 h,最大相对误差为1.552%;而传统方法平均估计误差为3.997 h,最大相对误差为5.632%.表明DHPT函数能够更好地描述梯形渠道的渗漏过程,可用于计算点水深下的渗漏强度.通过DHPT函数与传统方法的计算结果对比,表明传统方法计算的渗漏强度普遍偏高,实例中平均误差达到0.248 L/(m2·h),而DHPT函数直接建立于观测数据之间的函数关系,可避免线性假设的影响,提高计算精度,为分析变水位工况下的渠道水利用系数提供依据. 变水位静水法受规范中观测方法限制,相邻2次观测时间段的计算只能代表平均水深的平均渗漏强度,且将观测期间渠道渗漏的非线性过程假设为线性变化,该假设将导致计算误差,从而使拟合的渗漏强度幂函数存在系统误差。该文以渠道内水位随时间的渗漏过程拟合函数为基础,建立了关于梯形渠道变水位静水法(dropping head ponding test,DHPT)的渗漏强度函数。以石津灌区6种梯形衬砌渠道的变水位静水法试验为依据进行实例分析,分析获得6种梯形渠道的传统幂函数和DHPT渗漏强度函数,并应用各函数进行了渗漏时长计算。通过渗漏时长计算值与实测值对比表明,DHPT函数平均估计误差0.978 h,最大相对误差为1.552%;而传统方法平均估计误差为3.997 h,最大相对误差为5.632%。表明DHPT函数能够更好地描述梯形渠道的渗漏过程,可用于计算点水深下的渗漏强度。通过DHPT函数与传统方法的计算结果对比,表明传统方法计算的渗漏强度普遍偏高,实例中平均误差达到0.248 L/(m^2·h),而DHPT函数直接建立于观测数据之间的函数关系,可避免线性假设的影响,提高计算精度,为分析变水位工况下的渠道水利用系数提供依据。 |
| Abstract_FL | Dropping head ponding test is a typical method for canal seepage measurement,particularly under variable canal capacities during irrigation.This study analyzed the limitations of traditional method for seepage rate calculation and proposed a new method based on dropping head ponding test (DHPT).Based on dropping head ponding test results and a standard method in Technical Code for Seepage Control Engineering on Canal,seepage rates were calculated,and a power function was established to describe the relationships between water-level and seepage rate.The standard calculation method had two inaccurate hypotheses.One was the linear variation of water-level dropping speed between a pair of contiguous measurements.However,water-level dropping speed slowed down while water level dropping down,and dropping speed change was obviously nonlinear in trapezoidal canals.The other hypothesis was the power functions that restricted regression precision.In addition,calculation error increased while measurement interval was prolonged,and it resulted in an integral error to the power functions.The new DHPT function was developed with 3 components in this study:the relationship between water level and its dropping speed,water surface width variation due to water level,and wetted width variation due to water level.The DHPT function development process was simplified to 6 steps:1) Making plot of water-depth vs measuring time to generate a water variation function;2) Deriving an inverse function of water-depth variation and its first derivative expressed as water level dropping speed;3) Deriving a function between water surface width and water depth;4) Deriving a function between wetted width and water depth;5) Establishing a seepage rate function;and 6) subtracting evaporation from total lost water,and then correcting seepage rate function.In a case study,test canals were designed for 6 types of lining forms with a cross-section form of trapezoid in side slope angle for 32° and bed width 1.2 m.The dropping head ponding test was applied on all the types.The DHPT seepage rate functions and traditional power functions were both established.Function errors were examined.In order to decrease the influence of linear variation,total seepage depths were discretized into millimeters using a traditional method to calculate unit seepage time.The test seepage time was between 81.25-176.92 h.By DHPT seepage rate function,the largest error was 2.102 h and the minimum error was 0.308 h.While by traditional power function,the largest error was 9.433 h and the minimum error was 1.137 h.Error analysis showed that the DHPT seepage rate function described seepage characteristics of trapezoid canals well and gained higher accuracy in seepage rate estimation.Finally,the traditional method and the DHPT functions were applied to 6 types of lining canals calculation.The traditional calculation used day as measuring interval and its result was expressed as seepage rate of average water depth in day.Average water depth was used as an independent variable in the DHPT function.For 27 samples,the calculated seepage rates were higher by traditional method than those by DHPT function generally.The traditional method was averagely 0.248 L/ (m2·h) higher than the DHPT function results.Compared with the traditional method,the DHPT functions showed higher accuracy.This study indicates that the new function is better than the standard function in dropping head ponding test,and the method provides a better technical support for seepage estimation in irrigation system management. |
| Author | 柴春岭 苏艳娜 杨路华 刘宏权 |
| AuthorAffiliation | 河北农业大学城乡建设学院,保定071001 天津农学院水利工程学院,天津300384 |
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| Author_FL | Su Yanna Yang Luhua Chai Chunling Liu Hongquan |
| Author_FL_xml | – sequence: 1 fullname: Chai Chunling – sequence: 2 fullname: Su Yanna – sequence: 3 fullname: Yang Luhua – sequence: 4 fullname: Liu Hongquan |
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| DocumentTitleAlternate | Seepage rate function establishment and validation for trapezoidal canal based on dropping head ponding test |
| DocumentTitle_FL | Seepage rate function establishment and validation for trapezoidal canal based on dropping head ponding test |
| EndPage | 95 |
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| Keywords | 混凝土衬砌 lined with concrete linear variation 变水位静水法 canals functions 渗漏 函数 dropping head ponding test seepage 渠道 线性假设 |
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| Notes | Chai Chunling1, Su Yanna1, Yang Luhua2, Liu Hongquan1 (1. Institute of Urban and Rural Construction, Agricultural University of Hebei, Baoding 071001, China; 2. College of Water Conservancy Engineering, Tianjin Agricultural University, Tianjin 300384, China) 11-2047/S seepage; canals; functions; dropping head ponding test; lined with concrete; linear variation Dropping head ponding test is a typical method for canal seepage measurement, particularly under variable canal capacities during irrigation. This study analyzed the limitations of traditional method for seepage rate calculation and proposed a new method based on dropping head ponding test(DHPT). Based on dropping head ponding test results and a standard method in Technical Code for Seepage Control Engineering on Canal, seepage rates were calculated, and a power function was established to describe the relationships between water-level and seepage rate. The standard calculation method had two inaccurate hypotheses. One was the linear variation of water-lev |
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| Publisher | 河北农业大学城乡建设学院,保定,071001%天津农学院水利工程学院,天津,300384 |
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| Snippet | 变水位静水法受规范中观测方法限制,相邻2次观测时间段的计算只能代表平均水深的平均渗漏强度,且将观测期间渠道渗漏的非线性过程假设为线性变化,该假设将导致计算误差,从而... S274; 变水位静水法受规范中观测方法限制,相邻2次观测时间段的计算只能代表平均水深的平均渗漏强度,且将观测期间渠道渗漏的非线性过程假设为线性变化,该假设将导致计算误... |
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| SubjectTerms | 函数 变水位静水法 混凝土衬砌 渗漏 渠道 线性假设 |
| Title | 基于变水位静水法的梯形渠道渗漏强度函数构建及验证 |
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