A Study on Measures to achieve Net Zero and RE100 goals in Urban Water Cycle System
Urban water cycle systems(UWCS), including water treatment facilities, distribution facilities, sewers, and wastewater treatment facilities, are energy intensive and significant source of greenhouse gas (GHG) emissions, making the reduction of GHG emissions and the transition to eco-friendly energy...
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Korean Society of Environmental Engineers
2025-02-01
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| Series: | 대한환경공학회지 |
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| Online Access: | http://www.jksee.or.kr/upload/pdf/KSEE-2025-47-2-128.pdf |
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| author | Seyoung Ahn Haerim Kim |
| author_facet | Seyoung Ahn Haerim Kim |
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| description | Urban water cycle systems(UWCS), including water treatment facilities, distribution facilities, sewers, and wastewater treatment facilities, are energy intensive and significant source of greenhouse gas (GHG) emissions, making the reduction of GHG emissions and the transition to eco-friendly energy essential. This study identifies specific GHG emission sources at each stage of the UWCS and proposes detailed methods to achieve a 40% reduction in GHG emissions, implement RE100, and attain Net Zero by employing insets and offsets. This study develops scenarios for insets and offsets based on the baseline process of the UWCS, and investigates potential pathways to reduce GHG emissions by quantifying emissions from each process. Internal insets, which are self-implemented and technical measures, are prioritized, while external offsets are applied to compensate for the remaining emissions. Internal insets include the application of anaerobic digesters and combined heat and power(CHP), improvements in energy efficiency of equipment, reduction in water pipe leakage, implementation of water footprint labeling, and installation of on-site photovoltaic system. External offsets comprise renewable energy certificates(REC), power purchase agreements(PPA), green hydrogen fuel for vehicles, natural sequestration improvement, and emission trading system. GHG emissions at each stage within the UWCS are quantified using modeling software. Based on these results, the effectiveness of insets and offsets in achieving a 40% GHG emissions reduction, Net Zero, and RE100 goal is analyzed. The baseline total GHG emissions for the UWCS are estimated at 4,732.8 tCO2eq/yr, of which 56.8% is identified as targets for internal insets, and the remaining 43.2% is reduced through external offsets. A 40% GHG reduction can be achieved through internal insets, and Net Zero can be attained by incorporating additionally applying external offsets. The total power demand of UWCS facilities and equipment is calculated as 572.8 kW. Renewable energy is generated through anaerobic digesters and CHP(116.1kW) as well as on-site PV(395.0 kW), while RE100 compliance is achieved by securing an aditional 61.7 kW through REC/PPA. Achieving Net Zero and RE100 requires prioritizing strategies for insets, offsets and efficient resource allocation. For this, the technical feasibility and self-implementation potential of reduction efforts and the external conditions for offsets, should be carefully reviewed to optimize implementation strategies. GHG reduction and renewable energy utilization in the UWCS are key priorities for addressing the climate crisis and achieving sustainable water resource management, requiring technological innovation and institutional support. The comprehensive and systematic application of GHG insets and offsets is the optimal approach to achieving these goals. Furthermore, modeling software serves as a key tool for quantifying GHG emissions and formulating concrete, viable GHG reduction strategies. In addition to the technical and institutional approaches proposed in this study, achieving Net Zero and implementing RE100 requires the integrated consideration of economic factors in the future. |
| format | Article |
| id | doaj-art-a3fbd2e4710743b78f521b810f094be9 |
| institution | OA Journals |
| issn | 1225-5025 2383-7810 |
| language | English |
| publishDate | 2025-02-01 |
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| series | 대한환경공학회지 |
| spelling | doaj-art-a3fbd2e4710743b78f521b810f094be92025-08-20T01:47:47ZengKorean Society of Environmental Engineers대한환경공학회지1225-50252383-78102025-02-0147212814710.4491/KSEE.2025.47.2.1284578A Study on Measures to achieve Net Zero and RE100 goals in Urban Water Cycle SystemSeyoung Ahn0Haerim Kim1Water Engineering & Consulting, Inc., Republic of KoreaWater Engineering & Consulting, Inc., Republic of KoreaUrban water cycle systems(UWCS), including water treatment facilities, distribution facilities, sewers, and wastewater treatment facilities, are energy intensive and significant source of greenhouse gas (GHG) emissions, making the reduction of GHG emissions and the transition to eco-friendly energy essential. This study identifies specific GHG emission sources at each stage of the UWCS and proposes detailed methods to achieve a 40% reduction in GHG emissions, implement RE100, and attain Net Zero by employing insets and offsets. This study develops scenarios for insets and offsets based on the baseline process of the UWCS, and investigates potential pathways to reduce GHG emissions by quantifying emissions from each process. Internal insets, which are self-implemented and technical measures, are prioritized, while external offsets are applied to compensate for the remaining emissions. Internal insets include the application of anaerobic digesters and combined heat and power(CHP), improvements in energy efficiency of equipment, reduction in water pipe leakage, implementation of water footprint labeling, and installation of on-site photovoltaic system. External offsets comprise renewable energy certificates(REC), power purchase agreements(PPA), green hydrogen fuel for vehicles, natural sequestration improvement, and emission trading system. GHG emissions at each stage within the UWCS are quantified using modeling software. Based on these results, the effectiveness of insets and offsets in achieving a 40% GHG emissions reduction, Net Zero, and RE100 goal is analyzed. The baseline total GHG emissions for the UWCS are estimated at 4,732.8 tCO2eq/yr, of which 56.8% is identified as targets for internal insets, and the remaining 43.2% is reduced through external offsets. A 40% GHG reduction can be achieved through internal insets, and Net Zero can be attained by incorporating additionally applying external offsets. The total power demand of UWCS facilities and equipment is calculated as 572.8 kW. Renewable energy is generated through anaerobic digesters and CHP(116.1kW) as well as on-site PV(395.0 kW), while RE100 compliance is achieved by securing an aditional 61.7 kW through REC/PPA. Achieving Net Zero and RE100 requires prioritizing strategies for insets, offsets and efficient resource allocation. For this, the technical feasibility and self-implementation potential of reduction efforts and the external conditions for offsets, should be carefully reviewed to optimize implementation strategies. GHG reduction and renewable energy utilization in the UWCS are key priorities for addressing the climate crisis and achieving sustainable water resource management, requiring technological innovation and institutional support. The comprehensive and systematic application of GHG insets and offsets is the optimal approach to achieving these goals. Furthermore, modeling software serves as a key tool for quantifying GHG emissions and formulating concrete, viable GHG reduction strategies. In addition to the technical and institutional approaches proposed in this study, achieving Net Zero and implementing RE100 requires the integrated consideration of economic factors in the future.http://www.jksee.or.kr/upload/pdf/KSEE-2025-47-2-128.pdfurban water cycle systemgreenhouse gas emissionsnet zerore100modeling |
| spellingShingle | Seyoung Ahn Haerim Kim A Study on Measures to achieve Net Zero and RE100 goals in Urban Water Cycle System 대한환경공학회지 urban water cycle system greenhouse gas emissions net zero re100 modeling |
| title | A Study on Measures to achieve Net Zero and RE100 goals in Urban Water Cycle System |
| title_full | A Study on Measures to achieve Net Zero and RE100 goals in Urban Water Cycle System |
| title_fullStr | A Study on Measures to achieve Net Zero and RE100 goals in Urban Water Cycle System |
| title_full_unstemmed | A Study on Measures to achieve Net Zero and RE100 goals in Urban Water Cycle System |
| title_short | A Study on Measures to achieve Net Zero and RE100 goals in Urban Water Cycle System |
| title_sort | study on measures to achieve net zero and re100 goals in urban water cycle system |
| topic | urban water cycle system greenhouse gas emissions net zero re100 modeling |
| url | http://www.jksee.or.kr/upload/pdf/KSEE-2025-47-2-128.pdf |
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