This study investigates the development and implementation of a superstructure optimization model... more This study investigates the development and implementation of a superstructure optimization model in an integrated drinking water supply system in Timika City, Mimika Regency, Central Papua Province. The research addresses the growing demand for clean water in Mimika amidst population growth and urban development challenges. By reviewing the existing 2014 design and proposing new strategies, the study provides solutions for enhancing water distribution and management through an optimized superstructure. The analysis considers both technical and non-technical aspects, including institutional frameworks, financing models, and legal regulations. Findings from this research support long-term sustainable clean water supply in Mimika, proposing infrastructure development phases to meet short-, medium-, and long-term needs. The projected demand for clean water over a 20-year period is expected to rise from 26,164 m³/day to 49,956 m³/day. The study highlights the role of local government, community participation, and public-private partnerships in ensuring an efficient and resilient water supply system.
The Department of Civil Engineering PhD-68736612 Dec 2022, 2022
Providing clean water to meet community needs is an effort that can directly affect the quality o... more Providing clean water to meet community needs is an effort that can directly affect the quality of life in Mimika Regency as a whole. PDAM with existing limitations, in fact there are many limitations to providing clean water in Mimika Regency, the implementation of management and development activities for the Drinking Water Supply System (SPAM) in Mimika Regency aims to review the previous design, namely in 2014. Mimika Regency consists of 18 districts with an area of 21,693.51 km2 or 4.75% of the area of Papua Province with a population density of 316,295 people (2021), the population density in 2021 is the first highest (46%) in Mimika Baru District with a total of 144,893 people and the second highest (19%) in Wania District with a population of 59,721 people. The targets of this study include identification and analysis of characteristics, identification, and analysis of clean water supply by PDAM, study of aspects that influence clean water supply and continuity of clean water supply. Area Coverage: The urgent stage of SPAM network development (2 years) is in Mimika Baru District, namely the BWP A (priority), BWP B and BWP C areas. The medium stage of SPAM network development (5 years) is in Mimika Baru District in BWP A, BWP B, BWP C (Consummation) and Wania District are in BWP A, BWP D and BWP E. Long-term development of the SPAM network (20 years) in all 18 Mimika Regency Districts by paying attention to the dynamics of infrastructure development related to the development of regional potential and the availability of raw water. The pilot project is proposed to be constructed at BWP A, Koperapoka Village, Mimika Baru District. The existing SPAM is served by 6 units of deep wells and springs in 1 area in Kuala Kencana District with a discharge of 250 l/sec, 2 units of WTP, 2 units of GWT with a capacity of 1,250 m3 with a total service coverage of 2,937 SR units, Primary Network 19,866 m, Secondary Network 54,021 m, Tertiary Network 114,246 m and 1 GWT unit in the SP2 area. Maximizing the capacity of raw water sources to 500 l/sec in the medium term (2027). The conclusion in this research is that the projected need for drinking water using the linear method in Mimika Regency for the urgent term (2 years) is 26,164 m3/day with a projected population of Pn 408,892 people requiring 102,223 SR and 30,667 non-domestic connections. The projected need for drinking water in the medium term (5 years) of Mimika Regency is 29,674 m3/day with a projected population of Pn 501,364 people requiring 125,341 SR and 37,602 non-domestic connections. The projected long-term need for drinking water in Mimika Regency (20 years) is 49,956 m3/day with a projected population of Pn 963,724 people requiring 240,931 SR and 72,279 non-domestic connections. By offering thanks to the presence of Allah SWT, Alhamdulillah, for the abundance of His grace and guidance, the author can complete this dissertation with the title Development of a Superstructure Optimization Model in an Integrated Drinking Water Supply System in Timika City, Mimika Regency, Central Papua Province, so that this thesis can be completed well. Selection for the implementation of drinking water supply system (SPAM) management and development projects by stakeholders involved in construction projects including service providers, budget users, commitment making officials, public works implementation teams, and facilitators. Each stakeholder will have a different view about the implementation of the drinking water supply system (SPAM) management and development project. This article discusses the choice between contract empowerment and community empowerment in SPAM project implementation. On this occasion the author would like to thank the parties who have helped in completing this dissertation. The author hopes that the results of this research can contribute ideas that are useful for the progress and development of the world of education. The authors will gladly accept suggestions and constructive criticism in order to improve the quality of future research.
This study investigates the development and implementation of a superstructure optimization model... more This study investigates the development and implementation of a superstructure optimization model in an integrated drinking water supply system in Timika City, Mimika Regency, Central Papua Province. The research addresses the growing demand for clean water in Mimika amidst population growth and urban development challenges. By reviewing the existing 2014 design and proposing new strategies, the study provides solutions for enhancing water distribution and management through an optimized superstructure. The analysis considers both technical and non-technical aspects, including institutional frameworks, financing models, and legal regulations. Findings from this research support long-term sustainable clean water supply in Mimika, proposing infrastructure development phases to meet short-, medium-, and long-term needs. The projected demand for clean water over a 20-year period is expected to rise from 26,164 m³/day to 49,956 m³/day. The study highlights the role of local government, community participation, and public-private partnerships in ensuring an efficient and resilient water supply system.
The Department of Civil Engineering PhD-68736612 Dec 2022, 2022
Providing clean water to meet community needs is an effort that can directly affect the quality o... more Providing clean water to meet community needs is an effort that can directly affect the quality of life in Mimika Regency as a whole. PDAM with existing limitations, in fact there are many limitations to providing clean water in Mimika Regency, the implementation of management and development activities for the Drinking Water Supply System (SPAM) in Mimika Regency aims to review the previous design, namely in 2014. Mimika Regency consists of 18 districts with an area of 21,693.51 km2 or 4.75% of the area of Papua Province with a population density of 316,295 people (2021), the population density in 2021 is the first highest (46%) in Mimika Baru District with a total of 144,893 people and the second highest (19%) in Wania District with a population of 59,721 people. The targets of this study include identification and analysis of characteristics, identification, and analysis of clean water supply by PDAM, study of aspects that influence clean water supply and continuity of clean water supply. Area Coverage: The urgent stage of SPAM network development (2 years) is in Mimika Baru District, namely the BWP A (priority), BWP B and BWP C areas. The medium stage of SPAM network development (5 years) is in Mimika Baru District in BWP A, BWP B, BWP C (Consummation) and Wania District are in BWP A, BWP D and BWP E. Long-term development of the SPAM network (20 years) in all 18 Mimika Regency Districts by paying attention to the dynamics of infrastructure development related to the development of regional potential and the availability of raw water. The pilot project is proposed to be constructed at BWP A, Koperapoka Village, Mimika Baru District. The existing SPAM is served by 6 units of deep wells and springs in 1 area in Kuala Kencana District with a discharge of 250 l/sec, 2 units of WTP, 2 units of GWT with a capacity of 1,250 m3 with a total service coverage of 2,937 SR units, Primary Network 19,866 m, Secondary Network 54,021 m, Tertiary Network 114,246 m and 1 GWT unit in the SP2 area. Maximizing the capacity of raw water sources to 500 l/sec in the medium term (2027). The conclusion in this research is that the projected need for drinking water using the linear method in Mimika Regency for the urgent term (2 years) is 26,164 m3/day with a projected population of Pn 408,892 people requiring 102,223 SR and 30,667 non-domestic connections. The projected need for drinking water in the medium term (5 years) of Mimika Regency is 29,674 m3/day with a projected population of Pn 501,364 people requiring 125,341 SR and 37,602 non-domestic connections. The projected long-term need for drinking water in Mimika Regency (20 years) is 49,956 m3/day with a projected population of Pn 963,724 people requiring 240,931 SR and 72,279 non-domestic connections. By offering thanks to the presence of Allah SWT, Alhamdulillah, for the abundance of His grace and guidance, the author can complete this dissertation with the title Development of a Superstructure Optimization Model in an Integrated Drinking Water Supply System in Timika City, Mimika Regency, Central Papua Province, so that this thesis can be completed well. Selection for the implementation of drinking water supply system (SPAM) management and development projects by stakeholders involved in construction projects including service providers, budget users, commitment making officials, public works implementation teams, and facilitators. Each stakeholder will have a different view about the implementation of the drinking water supply system (SPAM) management and development project. This article discusses the choice between contract empowerment and community empowerment in SPAM project implementation. On this occasion the author would like to thank the parties who have helped in completing this dissertation. The author hopes that the results of this research can contribute ideas that are useful for the progress and development of the world of education. The authors will gladly accept suggestions and constructive criticism in order to improve the quality of future research.
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By offering thanks to the presence of Allah SWT, Alhamdulillah, for the abundance of His grace and guidance, the author can complete this dissertation with the title Development of a Superstructure Optimization Model in an Integrated Drinking Water Supply System in Timika City, Mimika Regency, Central Papua Province, so that this thesis can be completed well. Selection for the implementation of drinking water supply system (SPAM) management and development projects by stakeholders involved in construction projects including service providers, budget users, commitment making officials, public works implementation teams, and facilitators. Each stakeholder will have a different view about the implementation of the drinking water supply system (SPAM) management and development project. This article discusses the choice between contract empowerment and community empowerment in SPAM project implementation. On this occasion the author would like to thank the parties who have helped in completing this dissertation. The author hopes that the results of this research can contribute ideas that are useful for the progress and development of the world of education. The authors will gladly accept suggestions and constructive criticism in order to improve the quality of future research.
By offering thanks to the presence of Allah SWT, Alhamdulillah, for the abundance of His grace and guidance, the author can complete this dissertation with the title Development of a Superstructure Optimization Model in an Integrated Drinking Water Supply System in Timika City, Mimika Regency, Central Papua Province, so that this thesis can be completed well. Selection for the implementation of drinking water supply system (SPAM) management and development projects by stakeholders involved in construction projects including service providers, budget users, commitment making officials, public works implementation teams, and facilitators. Each stakeholder will have a different view about the implementation of the drinking water supply system (SPAM) management and development project. This article discusses the choice between contract empowerment and community empowerment in SPAM project implementation. On this occasion the author would like to thank the parties who have helped in completing this dissertation. The author hopes that the results of this research can contribute ideas that are useful for the progress and development of the world of education. The authors will gladly accept suggestions and constructive criticism in order to improve the quality of future research.