Simulation of sustainable habitat in Gajah Mungkur reservoir area using urban modelling interface (UMI)

The Gajah Mungkur reservoir (GMR) area is located in Wonogiri district. The reservoir was built to prevent flooding issues. There are some parts of the reservoir that function for nature tourism. This function has supported the development of other infrastructures and facilities. In addition, the de...

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Main Authors: Kusumawanto, Arif, Hijriyah, Linda, Widyasamratri, Hasti
Format: Article
Published: Thai Society of Higher Eduation Institutes on Environment 2024
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Online Access:http://eprints.um.edu.my/44908/
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Institution: Universiti Malaya
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spelling my.um.eprints.449082024-05-21T08:09:28Z http://eprints.um.edu.my/44908/ Simulation of sustainable habitat in Gajah Mungkur reservoir area using urban modelling interface (UMI) Kusumawanto, Arif Hijriyah, Linda Widyasamratri, Hasti NA Architecture The Gajah Mungkur reservoir (GMR) area is located in Wonogiri district. The reservoir was built to prevent flooding issues. There are some parts of the reservoir that function for nature tourism. This function has supported the development of other infrastructures and facilities. In addition, the development of Wonogiri district has promoted a variety of new growth centres. Therefore, sustainable development is urgently needed to minimize negative impacts on the environment both now and in the future. This study aims to assess the level of sustainability of the GMR area through a simulation method on the floor area ratio, operational energy, lifecycle, and design accessibility. The findings show that the GMR area had a sufficient sustainability habitat system based on the parameter standards value with various buildings intended for residential, retail, office, and hotel. This study suggested that GMR area had high sustainability habitat based on the standard of Operational Energy (OE), lifecycle of building, lifecycle of facade and glazing, and design accessibility. Meanwhile, based on the simulation, Floor Area Ratio (FAR) in the GMR area had a low value since the study area was dominated by green area. The low FAR value indicated a low building density in the GMR area, and it may be considered that there is a high possibility of improving the rural development of the area. The research results are expected to contribute to the sustainable development of the GMR area. © 2024, Thai Society of Higher Eduation Institutes on Environment. All rights reserved. Thai Society of Higher Eduation Institutes on Environment 2024 Article PeerReviewed Kusumawanto, Arif and Hijriyah, Linda and Widyasamratri, Hasti (2024) Simulation of sustainable habitat in Gajah Mungkur reservoir area using urban modelling interface (UMI). EnvironmentAsia, 17 (1). 1 – 13. ISSN 1906-1714, DOI https://doi.org/10.14456/ea.2024.1 <https://doi.org/10.14456/ea.2024.1>. 10.14456/ea.2024.1
institution Universiti Malaya
building UM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaya
content_source UM Research Repository
url_provider http://eprints.um.edu.my/
topic NA Architecture
spellingShingle NA Architecture
Kusumawanto, Arif
Hijriyah, Linda
Widyasamratri, Hasti
Simulation of sustainable habitat in Gajah Mungkur reservoir area using urban modelling interface (UMI)
description The Gajah Mungkur reservoir (GMR) area is located in Wonogiri district. The reservoir was built to prevent flooding issues. There are some parts of the reservoir that function for nature tourism. This function has supported the development of other infrastructures and facilities. In addition, the development of Wonogiri district has promoted a variety of new growth centres. Therefore, sustainable development is urgently needed to minimize negative impacts on the environment both now and in the future. This study aims to assess the level of sustainability of the GMR area through a simulation method on the floor area ratio, operational energy, lifecycle, and design accessibility. The findings show that the GMR area had a sufficient sustainability habitat system based on the parameter standards value with various buildings intended for residential, retail, office, and hotel. This study suggested that GMR area had high sustainability habitat based on the standard of Operational Energy (OE), lifecycle of building, lifecycle of facade and glazing, and design accessibility. Meanwhile, based on the simulation, Floor Area Ratio (FAR) in the GMR area had a low value since the study area was dominated by green area. The low FAR value indicated a low building density in the GMR area, and it may be considered that there is a high possibility of improving the rural development of the area. The research results are expected to contribute to the sustainable development of the GMR area. © 2024, Thai Society of Higher Eduation Institutes on Environment. All rights reserved.
format Article
author Kusumawanto, Arif
Hijriyah, Linda
Widyasamratri, Hasti
author_facet Kusumawanto, Arif
Hijriyah, Linda
Widyasamratri, Hasti
author_sort Kusumawanto, Arif
title Simulation of sustainable habitat in Gajah Mungkur reservoir area using urban modelling interface (UMI)
title_short Simulation of sustainable habitat in Gajah Mungkur reservoir area using urban modelling interface (UMI)
title_full Simulation of sustainable habitat in Gajah Mungkur reservoir area using urban modelling interface (UMI)
title_fullStr Simulation of sustainable habitat in Gajah Mungkur reservoir area using urban modelling interface (UMI)
title_full_unstemmed Simulation of sustainable habitat in Gajah Mungkur reservoir area using urban modelling interface (UMI)
title_sort simulation of sustainable habitat in gajah mungkur reservoir area using urban modelling interface (umi)
publisher Thai Society of Higher Eduation Institutes on Environment
publishDate 2024
url http://eprints.um.edu.my/44908/
_version_ 1800715027908395008