The NRCS curve number equation derived from an instantaneous unit hydrograph: Some consequences

IF 3.1 Q2 GEOSCIENCES, MULTIDISCIPLINARY
Klaas Metselaar
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引用次数: 2

Abstract

The NCRS-curve number equation allows calculating the storm runoff from a rainfall event for specific types of land use. It was based on an analysis of direct runoff data using baseflow corrected hydrographs and rainfall. Given this basis, the curve number equation can be derived assuming a constant effective rainfall intensity and a cubic reciprocal function as the instantaneous unit hydrograph. The instantaneous unit hydrograph and the resulting curve number equation are further generalized by adding a lag time. The equation for a curve number related hydrograph is presented, allowing to fit this curve number-based hydrograph to event data. The curve number itself is shown be a function of a catchment response time and the average event rainfall intensity. As the catchment response time is linked to the time of concentration the curve number equation and the storage index can be linked to catchment- and flow type characteristics. First results suggest that including the rainfall intensity duration frequency function in the curve number equation may explain systematic deviations observed when fitting the NCRS curve number equation to measured data.

由瞬时单位水线导出的NRCS曲线数方程:若干结论
ncrs曲线数字方程允许计算特定类型土地使用的降雨事件的暴雨径流。它是基于对直接径流数据的分析,使用基流校正的水文曲线和降雨量。在此基础上,假设有效降雨强度恒定,以三次倒数函数为瞬时单位线线,可导出曲线数方程。通过加入滞后时间,进一步推广了瞬时单位线和由此产生的曲线数方程。给出了与曲线数相关的水线图的方程,使基于曲线数的水线图与事件数据相拟合。曲线数本身是集水区响应时间和平均事件降雨强度的函数。由于集水区响应时间与集水区浓度时间相联系,曲线数方程和蓄水指数可以与集水区和流型特征相联系。首先,在曲线数方程中加入降雨强度持续时间频率函数可以解释NCRS曲线数方程拟合实测数据时所观察到的系统偏差。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Hydrology X
Journal of Hydrology X Environmental Science-Water Science and Technology
CiteScore
7.00
自引率
2.50%
发文量
20
审稿时长
25 weeks
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