Implementation of Hydrological Model for the Malino Catchment Area in South Sulawesi Province, Indonesia

IF 0.7 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Journal of Disaster Research Pub Date : 2023-10-01 DOI:10.20965/jdr.2023.p0806

Ayuko Hirani Saleh, Akira Tai, Shinichiro Yano, Mukhsan Putra Hatta

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Abstract

In South Sulawesi, the development of irrigation may be hindered by the continuing limitations and inadequacies of hydrological data. It is well known that the rainfall monitoring station is more extensive than the river flow monitoring station. Therefore, the Malino Catchment Area was selected to illustrate the theory of four tank components. The 1st tank (tank A) has two horizontal outlets ( Q a 1 and Q a 2 ) and one vertical outlet ( I a ); the 2nd tank (tank B) has one horizontal outlet ( Q b ) and one vertical outlet ( I b ); the 3rd tank (tank C) has the same conceptual structure as tanks A and B; and the 4th tank (tank D) has only one horizontal outlet ( Q d ). To ensure that the tank model represents vertical and horizontal flows in a watershed region, the flows ( Q a 1 , Q a 2 , Q b , Q c , and Q d ) are predicted to accumulate in one flow, more or less, and must equal the measured discharge ( Q o ) at the specified time. Rainfall and evapotranspiration data are required to calculate this model. The 264.55 km 2 (25902 ha) research area has an elevation range of 400–2400 masl. The findings for land use are dominated by plantations (41.01%), forests (40.79%), rice fields (15.44%), and residential areas (0.96%). In the calibration of the tank model, R 2 is evaluated at 0.560% (good) and Nash–Sutcliffe efficiency is evaluated at 0.526% (good) to ensure that the model can represent the distribution of water flow components. Additionally, the measurements for the total water flow ( Q total ) were 13702 m 3 /y with a total rainfall of 3996 mm/y. Furthermore, surface flow accounts for 77.26% of the total runoff water, while intermediate flow accounts for 20.25%.

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印度尼西亚南苏拉威西省马里诺流域水文模型的实施

在南苏拉威西，灌溉的发展可能会受到水文数据的持续限制和不足的阻碍。众所周知，降雨监测站比河流量监测站范围更广。因此，选择马里诺集水区来说明四个水箱组成部分的理论。第一罐(罐A)具有两个水平出口(qa1和qa2)和一个垂直出口(ia);第二罐(罐B)具有一个水平出口(Q B)和一个垂直出口(I B);第三辆坦克(坦克C)的概念结构与坦克A和B相同;第4罐(罐D)只有一个水平出口(Q D)。为了保证水槽模型能够表示流域内的垂直和水平流量，预测流量(q1, q2, q2, q2, q2, Q d)或多或少地聚集在一个流量中，并且必须等于指定时间的实测流量(q2)。计算该模型需要降水和蒸散数据。264.55平方公里(25902公顷)的研究区海拔范围为400-2400米。土地利用类型以人工林(41.01%)、森林(40.79%)、稻田(15.44%)和居民区(0.96%)为主。在水箱模型的标定中，r2评价为0.60%(良好)，Nash-Sutcliffe效率评价为0.526%(良好)，以确保模型能够代表水流分量的分布。此外，总水流量(Q total)测量值为13702 m3 /y，总降雨量为3996 mm/y。地表流量占总径流的77.26%，中间流量占20.25%。

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 Disaster Research GEOSCIENCES, MULTIDISCIPLINARY-

CiteScore

1.60

自引率

37.50%

发文量

113