ANALYSIS OF BUILDING SCALE WATER RECYCLING SYSTEM OPTIONS BUILDINGS AND POTENTIAL FOR OBTAINING WATER CONSERVATION SCORES GREENSHIP: CASE STUDY OF HOTEL X BUILDING IN DKI JAKARTA
Population growth, climate change and urbanization are increasing pressure on freshwater resources, potentially triggering the risk of water scarcity. To address these issues, a case study approach was conducted in a hotel building. A total of 15 recycled water utilization scenarios were simulate...
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| Format: | Final Project |
| Language: | Indonesia |
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| Online Access: | https://digilib.itb.ac.id/gdl/view/81036 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Population growth, climate change and urbanization are increasing pressure on
freshwater resources, potentially triggering the risk of water scarcity. To address
these issues, a case study approach was conducted in a hotel building. A total of 15
recycled water utilization scenarios were simulated for two conditions: first, if the
building only uses a Rainwater Harvesting (RWH) system, and second, if the
building only uses a Greywater Recycling (GWR) system. From the various
scenarios tested, 6 utilization scenarios were selected that could not be fulfilled by
the RWH system to be simulated by applying the Hybrid Rainwater-Greywater
(HRG) system. Simulations were conducted using the Yield After Spillage (YAS)
and Yield Before Spillage (YBS) algorithms coded in Python version 3.10.12. Each
scenario and system also assessed based on the Greenship Water Conservation
(WAC) score. The analysis results show that the RWH system is reliable for 4
specific scenarios, with maximum water savings 9.2%, and WAC Greenship scores
ranging from 1-4 points for existing buildings (GEB) and 3-6 points for new
buildings (GNB). The GWR system can be used for all scenarios, achieving
maximum water savings of up to 33.4%, and obtaining WAC Greenship scores
between 1-9 points (GEB) and 1-10 points (GNB). The HRG system was designed
to be reliable for all selected scenarios, achieving maximum water savings of up to
33.4%, and achieving WAC Greenship scores between 6-9 points (GEB) and 9-14
points (GNB). Based on the assessment of system reliability, infrastructure
requirements, and WAC Greenship scores, it is recommended for existing buildings
to implement GWR or HRG systems, while for new buildings, the implementation
of HRG systems is preferred.
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