STUDY OF PRECIPITATION AND LAND-USE IMPACT ON GROUNDWATER - SURFACE WATER INTERACTION AND GROUNDWATER QUALITY IN THE CIKAPUNDUNG WATERSHED

STUDY OF PRECIPITATION AND LAND-USE IMPACT ON GROUNDWATER - SURFACE WATER INTERACTION AND GROUNDWATER QUALITY IN THE CIKAPUNDUNG WATERSHED

The Cikapundung River is one of the important water resources for the city of Bandung and its surrounding areas. The Cikapundung River interacts with the surrounding groundwater system so that both affect each other, both in quantity and quality. Research on the interaction of groundwater and riv...

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Main Author: Nelson Tambunan, Ricky
Format: Theses
Language:Indonesia
Subjects:
Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Online Access:https://digilib.itb.ac.id/gdl/view/87083
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Institution: Institut Teknologi Bandung
Language: Indonesia
id id-itb.:87083
spelling id-itb.:870832025-01-10T17:03:55ZSTUDY OF PRECIPITATION AND LAND-USE IMPACT ON GROUNDWATER - SURFACE WATER INTERACTION AND GROUNDWATER QUALITY IN THE CIKAPUNDUNG WATERSHED Nelson Tambunan, Ricky Teknik (Rekayasa, enjinering dan kegiatan berkaitan) Indonesia Theses Cikapundung, Effluent, Influent, Infiltration, TDS, pH INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/87083 The Cikapundung River is one of the important water resources for the city of Bandung and its surrounding areas. The Cikapundung River interacts with the surrounding groundwater system so that both affect each other, both in quantity and quality. Research on the interaction of groundwater and river water in the Cikapundung watershed and the quality of groundwater influenced by seasonal differences needs to be conducted, one of which can be a consideration for water resources management and flood disaster control. The measurement results in the short dry period, June - October 2023 showed that the transition zone from the effluent flow to the influent flow moved ± 1.7 km to the north towards the position of the research results in 2015. The measurement results in the short wet period, November 2023 - March 2024 showed that the transition zone from the effluent flow to the influent flow moved again by ± 1.2 km to the south towards its position in the short dry period of 2023. The runoff coefficient of the Cikapundung watershed using Cook's method was estimated at 70% where less than 30% of the precipitation is infiltrated into the subsurface, where the boundary of the area with the extreme runoff coefficient area is in the same area as the transition zone from effluent flow to influent flow in 2024. In contrast to the results of several studies elsewhere, the TDS concentration in groundwater is relatively higher in wet periods than in dry periods. The acidity of groundwater is relatively more acidic in the wet period than in the dry period. text
institution Institut Teknologi Bandung
building Institut Teknologi Bandung Library
continent Asia
country Indonesia
Indonesia
content_provider Institut Teknologi Bandung
collection Digital ITB
language Indonesia
topic Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
spellingShingle Teknik (Rekayasa, enjinering dan kegiatan berkaitan)
Nelson Tambunan, Ricky
STUDY OF PRECIPITATION AND LAND-USE IMPACT ON GROUNDWATER - SURFACE WATER INTERACTION AND GROUNDWATER QUALITY IN THE CIKAPUNDUNG WATERSHED
description The Cikapundung River is one of the important water resources for the city of Bandung and its surrounding areas. The Cikapundung River interacts with the surrounding groundwater system so that both affect each other, both in quantity and quality. Research on the interaction of groundwater and river water in the Cikapundung watershed and the quality of groundwater influenced by seasonal differences needs to be conducted, one of which can be a consideration for water resources management and flood disaster control. The measurement results in the short dry period, June - October 2023 showed that the transition zone from the effluent flow to the influent flow moved ± 1.7 km to the north towards the position of the research results in 2015. The measurement results in the short wet period, November 2023 - March 2024 showed that the transition zone from the effluent flow to the influent flow moved again by ± 1.2 km to the south towards its position in the short dry period of 2023. The runoff coefficient of the Cikapundung watershed using Cook's method was estimated at 70% where less than 30% of the precipitation is infiltrated into the subsurface, where the boundary of the area with the extreme runoff coefficient area is in the same area as the transition zone from effluent flow to influent flow in 2024. In contrast to the results of several studies elsewhere, the TDS concentration in groundwater is relatively higher in wet periods than in dry periods. The acidity of groundwater is relatively more acidic in the wet period than in the dry period.
format Theses
author Nelson Tambunan, Ricky
author_facet Nelson Tambunan, Ricky
author_sort Nelson Tambunan, Ricky
title STUDY OF PRECIPITATION AND LAND-USE IMPACT ON GROUNDWATER - SURFACE WATER INTERACTION AND GROUNDWATER QUALITY IN THE CIKAPUNDUNG WATERSHED
title_short STUDY OF PRECIPITATION AND LAND-USE IMPACT ON GROUNDWATER - SURFACE WATER INTERACTION AND GROUNDWATER QUALITY IN THE CIKAPUNDUNG WATERSHED
title_full STUDY OF PRECIPITATION AND LAND-USE IMPACT ON GROUNDWATER - SURFACE WATER INTERACTION AND GROUNDWATER QUALITY IN THE CIKAPUNDUNG WATERSHED
title_fullStr STUDY OF PRECIPITATION AND LAND-USE IMPACT ON GROUNDWATER - SURFACE WATER INTERACTION AND GROUNDWATER QUALITY IN THE CIKAPUNDUNG WATERSHED
title_full_unstemmed STUDY OF PRECIPITATION AND LAND-USE IMPACT ON GROUNDWATER - SURFACE WATER INTERACTION AND GROUNDWATER QUALITY IN THE CIKAPUNDUNG WATERSHED
title_sort study of precipitation and land-use impact on groundwater - surface water interaction and groundwater quality in the cikapundung watershed
url https://digilib.itb.ac.id/gdl/view/87083
_version_ 1822011258466992128

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