River water lever sensor as river flood warning system

International Journal of Physical Sciences Pub Date : 2020-10-31 DOI:10.5897/ijps2020.4866

Collenn Callanga, Carl Agustin Alegrado, Kathleen Hurano, Gwen Stefani Tenio, P. Velarde, C. M. Galon

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引用次数: 1

Abstract

Senate Report recorded last 2013 show that tropical storms and floods are the principal disasters with 102 and 72 occurrences, respectively. Distinctly, flood is still one of the biggest problems of the country. Statistics shows that 31.9% of the natural disasters, which occur in the Philippines in the years 1990-2014, are attributed to flood related episodes with a mortality rate of 5.9%. The researchers seek to approach non-structural measures to mitigate flooding problems of the country, specifically creating flood warning systems and to conduct several experiments testing the effectivity and efficiency of the flood warning system. This paper also aims to confront the century long problem of flooding and address the lack of real time flood warning system, thus reducing the loss of lives and damage to property; and to determine the effectiveness of the design of the river warning system in giving real time river water level updates. Results show that it works better if in contact with river waters than tap water. The device is audible in all distances at average ambient sound level of 50 to 60 decibels. Hence, the device is efficient in giving off sound alarms when deployed in different river systems. Key words: River water level sensor, river flood warning system, river flood alarm system.

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河水水位传感器作为河水洪水预警系统

2013年的参议院报告显示，热带风暴和洪水是主要的灾害，分别发生102次和72次。显然，洪水仍然是这个国家最大的问题之一。统计数据显示，1990-2014年菲律宾发生的自然灾害中，31.9%与洪水有关，死亡率为5.9%。这组科学家试图采取非结构性措施来缓解该国的洪水问题，特别是建立洪水预警系统，并进行一些实验来测试洪水预警系统的有效性和效率。本文还旨在面对长期存在的洪水问题，解决缺乏实时洪水预警系统的问题，从而减少生命损失和财产损失;并确定河流预警系统设计在实时更新河流水位方面的有效性。结果表明，与自来水相比，与河水接触效果更好。该设备在所有距离都能听到，平均环境声级为50至60分贝。因此，当部署在不同的河流系统时，该设备可以有效地发出声音警报。关键词:河流水位传感器，河流洪水预警系统，河流洪水报警系统。

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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International Journal of Physical Sciences 综合性期刊-综合性期刊

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审稿时长

24 months