Comparison of some schemes for determining the optimal number of rain gauges in a specific area: A case study in an urban area of South Sulawesi, Indonesia

IF 1.6 Q4 ENVIRONMENTAL SCIENCES AIMS Environmental Science Pub Date : 2022-01-01 DOI:10.3934/environsci.2022018
N. Sunusi, Giarno
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引用次数: 2

Abstract

Improving the accuracy of rainfall forecasts is related to the number of rain gauges needed in an area, so determining the optimal number of rain gauges is very important. This study aimed to determine the best method for calculating the optimal number of rain gauges. Generally, the calculation of the optimal number of rain gauges using the coefficient of variation only takes into account the accumulation of rainfall at the station. The distance between the location and height of the rain gauge is not taken into account. The phenomenon of rain that occurs in the tropics is very dynamic, where one place compared to another tends to have different rain intensity and duration. In addition, the height and distance factors also greatly affect the measured rainfall. Therefore, it is very important to know the best method to calculate the optimal number of rain gauges needed in a particular area. This study implements 3 methods to determine the appropriate method to be used in determining the optimal rain gauge number for urban areas: namely, World Meteorological Organization (WMO) criteria, coefficient of variation, and Kagan-Rodda. In this study, rainfall data from 2010 to 2019 at 5 locations in Makassar were used in calculating the optimal number of rain gauges required. The results showed that the optimal number of rain gauges in Makassar as an urban area following the WMO recommendation was 9–18, where small islands around it are not considered. Another result obtained is that if the rainfall data for the Sudiang area, which is located at the coordinates (119.522° E, 5.085° S), is not included in the calculation, it will greatly reduce the accuracy in determining the optimal number of rain gauges in the Makassar area.
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确定特定地区最佳雨量计数量的一些方案的比较:以印度尼西亚南苏拉威西市市区为例
提高降雨预报的准确性与一个地区所需雨量计的数量有关,因此确定雨量计的最佳数量是非常重要的。本研究旨在确定计算雨量计最佳数目的最佳方法。一般而言,利用变异系数计算雨量计的最佳数目时,只考虑站内的雨量累积。雨量计的位置和高度之间的距离没有考虑在内。热带地区的降雨现象是非常动态的,一个地方与另一个地方相比,往往有不同的降雨强度和持续时间。此外,高度和距离因素对实测雨量也有较大影响。因此,了解计算特定地区所需雨量计的最佳数量的最佳方法是非常重要的。本研究实现了3种确定城市地区最优雨量计数值的合适方法:WMO标准、变异系数和Kagan-Rodda。本研究利用望加锡5个地点2010年至2019年的降雨数据,计算所需雨量计的最佳数量。结果表明,在不考虑周边小岛的情况下,按照WMO的建议,望加锡市区的最佳雨量计数量为9-18个。另一个结果是,如果不考虑位于坐标(119.522°E, 5.085°S)的苏江地区的降雨数据,将大大降低确定望加锡地区最佳雨量计数量的精度。
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来源期刊
AIMS Environmental Science
AIMS Environmental Science ENVIRONMENTAL SCIENCES-
CiteScore
2.90
自引率
0.00%
发文量
31
审稿时长
5 weeks
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