Modelamiento Hidrológico De La Quebrada San Idelfonso Mediante SIG En Trujillo, La Libertad 2020

Proceedings of the 19th LACCEI International Multi-Conference for Engineering, Education, and Technology: “Prospective and trends in technology and skills for sustainable social development” “Leveraging emerging technologies to construct the future” Pub Date : 2021-01-01 DOI:10.18687/laccei2021.1.1.158

Carlos Anticona-Saavedra, Luis Cabanillas-Miranda, Jessica Lujan-Rojas

{"title":"Modelamiento Hidrológico De La Quebrada San Idelfonso Mediante SIG En Trujillo, La Libertad 2020","authors":"Carlos Anticona-Saavedra, Luis Cabanillas-Miranda, Jessica Lujan-Rojas","doi":"10.18687/laccei2021.1.1.158","DOIUrl":null,"url":null,"abstract":"– The research focuses on designing a Hydrological Modeling of the San Idelfonso Stream through a Geographic Information System in Trujillo. Where rainfall information was collected on the last fifty years of the occurrence of the phenomenon of the child and its incidence in the districts of Laredo, El Porvenir, Florencia de Mora, Trujillo and Víctor Larco Herrera. Also, the DEM was used with the Arc GIS software, Hec-RAS, Hec-HMS and Civil 3D software were used. The exact location of the San Idelfonso stream was obtained, the collection of thematic maps of different national entities. Also, figures and thematic maps that show rainfall during the last 50 years, being the years 1983, 1998, 2017, where a greater precipitation was observed. After analyzing the rainfall information, vulnerable areas were determined, obtaining an unmanned flight modeling, which shows the distribution of the San Idelfonso creek. Finally, a prevention alternative was proposed for a possible future coming and sliding; thus allowing to handle the situation with the least number of affected in the population. In this way, it was possible to design a hydrological model for the San Idelfonso stream taking GIS into account. Abstract – The research focuses on designing a Hydrological Modeling of the San Idelfonso Stream through a Geographic Information System in Trujillo. Where rainfall information was collected on the last fifty years of the occurrence of the phenomenon of the child and its incidence in the districts of Laredo, El Porvenir, Florencia de Mora, Trujillo and Víctor Larco Herrera. Also, the DEM was used with the Arc GIS software, Hec-RAS, Hec-HMS and Civil 3D software were used. The exact location of the San Idelfonso stream was obtained, the collection of thematic maps of different national entities. Also, figures and thematic maps that show rainfall during the last 50 years, being the years 1983, 1998, 2017, where a greater precipitation was observed. After analyzing the rainfall information, vulnerable areas were determined, obtaining an unmanned flight modeling, which shows the distribution of the San Idelfonso creek. Finally, a prevention alternative was proposed for a possible future coming and sliding; thus allowing to handle the situation with the least number of affected in the population. In this way, it was possible to design a hydrological model for the San Idelfonso stream taking GIS into account.","PeriodicalId":20446,"journal":{"name":"Proceedings of the 19th LACCEI International Multi-Conference for Engineering, Education, and Technology: “Prospective and trends in technology and skills for sustainable social development” “Leveraging emerging technologies to construct the future”","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2021-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Proceedings of the 19th LACCEI International Multi-Conference for Engineering, Education, and Technology: “Prospective and trends in technology and skills for sustainable social development” “Leveraging emerging technologies to construct the future”","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.18687/laccei2021.1.1.158","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

– The research focuses on designing a Hydrological Modeling of the San Idelfonso Stream through a Geographic Information System in Trujillo. Where rainfall information was collected on the last fifty years of the occurrence of the phenomenon of the child and its incidence in the districts of Laredo, El Porvenir, Florencia de Mora, Trujillo and Víctor Larco Herrera. Also, the DEM was used with the Arc GIS software, Hec-RAS, Hec-HMS and Civil 3D software were used. The exact location of the San Idelfonso stream was obtained, the collection of thematic maps of different national entities. Also, figures and thematic maps that show rainfall during the last 50 years, being the years 1983, 1998, 2017, where a greater precipitation was observed. After analyzing the rainfall information, vulnerable areas were determined, obtaining an unmanned flight modeling, which shows the distribution of the San Idelfonso creek. Finally, a prevention alternative was proposed for a possible future coming and sliding; thus allowing to handle the situation with the least number of affected in the population. In this way, it was possible to design a hydrological model for the San Idelfonso stream taking GIS into account. Abstract – The research focuses on designing a Hydrological Modeling of the San Idelfonso Stream through a Geographic Information System in Trujillo. Where rainfall information was collected on the last fifty years of the occurrence of the phenomenon of the child and its incidence in the districts of Laredo, El Porvenir, Florencia de Mora, Trujillo and Víctor Larco Herrera. Also, the DEM was used with the Arc GIS software, Hec-RAS, Hec-HMS and Civil 3D software were used. The exact location of the San Idelfonso stream was obtained, the collection of thematic maps of different national entities. Also, figures and thematic maps that show rainfall during the last 50 years, being the years 1983, 1998, 2017, where a greater precipitation was observed. After analyzing the rainfall information, vulnerable areas were determined, obtaining an unmanned flight modeling, which shows the distribution of the San Idelfonso creek. Finally, a prevention alternative was proposed for a possible future coming and sliding; thus allowing to handle the situation with the least number of affected in the population. In this way, it was possible to design a hydrological model for the San Idelfonso stream taking GIS into account.

查看原文本刊更多论文

2020年，La Libertad，特鲁希略，使用gis对Quebrada San Idelfonso进行水文模拟

-研究重点是通过Trujillo的地理信息系统设计San Idelfonso溪流的水文模型。在那里收集了过去50年儿童现象发生的降雨信息，以及在拉雷多、埃尔波维尼亚、弗洛伦西亚德莫拉、特鲁希略和Víctor拉科埃雷拉等地区的发病率。DEM与Arc GIS软件、Hec-RAS、Hec-HMS和Civil 3D软件配合使用。获得了圣伊德方索河的确切位置，收集了不同国家实体的专题地图。此外，数据和专题地图显示了过去50年的降雨量，即1983年、1998年和2017年，观测到的降雨量更大。在分析降雨信息后，确定了脆弱区域，获得了一个无人飞行模型，该模型显示了San Idelfonso creek的分布。最后，针对未来可能出现的滑倒，提出了预防方案;这样就可以在人口中受影响人数最少的情况下处理这种情况。这样，就有可能为考虑到GIS的圣伊德方索河设计一个水文模型。摘要/ Abstract摘要:本研究的重点是通过地理信息系统设计特鲁希略圣伊德尔方索河的水文模型。在那里收集了过去50年儿童现象发生的降雨信息，以及在拉雷多、埃尔波维尼亚、弗洛伦西亚德莫拉、特鲁希略和Víctor拉科埃雷拉等地区的发病率。DEM与Arc GIS软件、Hec-RAS、Hec-HMS和Civil 3D软件配合使用。获得了圣伊德方索河的确切位置，收集了不同国家实体的专题地图。此外，数据和专题地图显示了过去50年的降雨量，即1983年、1998年和2017年，观测到的降雨量更大。在分析降雨信息后，确定了脆弱区域，获得了一个无人飞行模型，该模型显示了San Idelfonso creek的分布。最后，针对未来可能出现的滑倒，提出了预防方案;这样就可以在人口中受影响人数最少的情况下处理这种情况。这样，就有可能为考虑到GIS的圣伊德方索河设计一个水文模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Proceedings of the 19th LACCEI International Multi-Conference for Engineering, Education, and Technology: “Prospective and trends in technology and skills for sustainable social development” “Leveraging emerging technologies to construct the future”

自引率

0.00%

发文量