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I Wayan Koko Suryawan
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INDONESIA
Journal of Sustainable Infrastructure
Published by Universitas Pertamina
ISSN : -     EISSN : 29621895     DOI : https://doi.org/10.61078
Core Subject : Social, Engineering,
Civil Engineering, Building, Construction & Architecture Engineering Environmental Science
The Journal of Sustainable Infrastructure (JSI) accepts research articles from researchers, lecturers, students, and practitioners in English and Indonesian, which have never been published in other media. JSI focuses on research and design for infrastructure development applications to achieve sustainable development goals (SDGs). JSI only accepts original articles and is not under consideration in other journals. The scope of JSI includes: Infrastructure of Offshore Structure and Geotechnical Civil Engineering Environmental Science and Technology Environmental Management Water and Wastewater Treatment Sanitation Clean Energy City and Regional Development Climate and Environment Adaptation and Mitigation Life Below Water and Land
Arjuna Subject : Teknik (semua kategori) - Teknik (Lain-Lain)
Articles 5 Documents
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Search results for , issue "Vol. 2 No. 2 (2023): Importance of Public Health and Waste Management" : 5 Documents clear
Evaluating the Efficacy of the Waste Bank Centre in Kabupaten Kulon Progo: A Comprehensive Study on Sustainable Waste Management Practices Iva Yenis Septiariva; I Wayan Koko Suryawan
Journal of Sustainable Infrastructure Vol. 2 No. 2 (2023): Importance of Public Health and Waste Management
Publisher : Fakultas Perencanaan Infrastruktur, Universitas Pertamina

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61078/jsi.v2i2.19

Abstract

Amidst escalating global concerns regarding waste management, Kabupaten Kulon Progo in Yogyakarta presents a microcosm of the challenges and solutions inherent to Indonesia. This research primarily aims to elucidate the efficacy and impact of the waste bank centre, a pivotal initiative in the district promoting waste reduction, recycling, and proper disposal. Utilizing empirical data from the National Waste Management Information System (SIPSN) and an extensive literature review, the study offers insights into waste trends, composition, and disposal mechanisms specific to Kabupaten Kulon Progo. Further, the research underscores the waste bank center's operational efficiency, outreach, and influence within the broader waste management framework. By highlighting both the challenges and opportunities faced by the waste bank centre, this study crafts informed policy recommendations, aiming to fortify waste management efforts in Kabupaten Kulon Progo and presenting scalable lessons for other Indonesian districts.
Turbidity Reduction by Using Variations of Filtration Media Sizes (Case Study of Treated Water PT. X Jakarta) Vembrio, Leonardus Alvin Widi; Zahra, Nurulbaiti Listyendah; Sarwono, Ariyanti; Putri, Natasya Hikmat; Rofiah, Rofiah
Journal of Sustainable Infrastructure Vol. 2 No. 2 (2023): Importance of Public Health and Waste Management
Publisher : Fakultas Perencanaan Infrastruktur, Universitas Pertamina

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61078/jsi.v2i2.20

Abstract

Turbidity is one of the main water quality parameters in drinking water quality. One way to reduce turbidity levels is by filtration. The filtration unit in the water treatment plant must use appropriate media so that the processed raw water meets World Health Organization (WHO) standards. WHO states that the turbidity of processed water before disinfection is 1 NTU. This research was conducted to know the efficiency of filtration processing with various media in reducing the concentration of turbidity in raw water. This study used three types of media, namely 50% silica sand with a mesh size of 12-16 and 50% silica sand with a mesh size of 8-12 (C), 100% silica sand with a mesh size of 12-16 (K), and 100% silica sand in mesh size. 8-12 (B). Porosity value for each sample C, K, and B is 0.412; 0.423; and 0.388. The detention time at maximum discharge for samples C, K, and B was 3.6, respectively; 3.76; and 3.45 minutes. The flow rates used for media samples C, K, and B were 4125 L/s and 2500 L/s, respectively. The removal efficiency produced by the highest turbidity was obtained in medium C with values of 90.8% and 89.9%, respectively. Meanwhile, media B gave the lowest turbidity removal efficiency, namely 86.3% and 86.4%. The results of all variations of the media used have met WHO standards, where the processed results have produced turbidity concentrations of 0.25 - 0.32 NTU.
Evaluasi Aspek Konservasi Air berdasarkan Prinsip Green Building (Studi Kasus Gedung Griya Legita, Universitas Pertamina) Dinanti, Hilsya Aliffia Putri; Qonitan, Fatimah Dinan; Ridhosari, Betanti
Journal of Sustainable Infrastructure Vol. 2 No. 2 (2023): Importance of Public Health and Waste Management
Publisher : Fakultas Perencanaan Infrastruktur, Universitas Pertamina

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61078/jsi.v2i2.21

Abstract

Water conservation is an integral component of Green Building principles. Green buildings not only emphasize energy efficiency but also need to consider water resource conservation. Therefore, this research aims to conduct a study on water conservation in the campus environment of the University of Pertamina, specifically Griya Legita, with a focus on the implementation of Green Building principles. Through the analysis of water consumption, observation of existing water conservation efforts, and a comparison with the Greenship Existing Building version 1.1 Green Building standards, this study aims to identify potential improvements in water usage on the University of Pertamina campus. The research findings indicate that, based on the water conservation criteria in Greenship Existing Building version 1.1, a score of 9 out of a total of 20 points was obtained. Some of the implemented efforts include water monitoring control and freshwater efficiency. Areas for improvement include installing sub-metering for water consumption monitoring, conducting periodic laboratory testing of water quality, and enhancing management commitment and water conservation awareness among the campus community. The results of this study provide recommendations on how the campus can more effectively implement Green Building principles that involve water conservation.
Utilization of Sludge from the Communal Wastewater Treatment Plant (WWTP) in the Asrama Dinas Lingkungan Hidup (DLH) Jagakarsa of South Jakarta City as Basic Material for Organic Fertilizer Marsono, Muhammad Ridho; Zahra, Nurulbaiti Listyendah; Sofiyah, Evi Siti
Journal of Sustainable Infrastructure Vol. 2 No. 2 (2023): Importance of Public Health and Waste Management
Publisher : Fakultas Perencanaan Infrastruktur, Universitas Pertamina

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61078/jsi.v2i2.22

Abstract

Asrama DLH Jagakarsa has a communal wastewater treatment plant (WWTP) that produces sludge that has not been treated. Asrama DLH residents directly apply the sludge from the communal WWTP as fertilizer for plants. Fecal sludge contains organic substances that provide nutrients to plants. However, there is a possibility that it still contains pathogenic bacteria and metals that can be harmful to plants. This research aims to utilize the fecal sludge from Asrama DLH Jagakarsa WWTP as organic fertilizer with additional ingredients in the form of humic acid. During fertilizer manufacturing, the bacteria and metals are removed. The analysis used includes the composting process conditions analysis, characteristics tests to determine the content of feces and fertilizers, and analysis of the application to plants. Analysis of the conditions in the composting process is the analysis of the pH value of organic fertilizers. Characteristic tests include soil variation (V1), WWTP sludge (V2), and organic fertilizer (V3). Analysis of the application of plant growth was carried out by testing the variation of soil 100% (P1), soil 80% + 20% fecal sludge (P2), and soil 80% + 20% organic fertilizer (P3). The laboratory analysis includes the analysis of nitrogen, phosphorus, potassium (NPP), and water content which will be compared with the quality standard of the Decree of the Minister of Agriculture Number 261 of 2019. The plant that is used as an indicator of the success of organic fertilizer in plant growth is the kale plant. The best value was obtained in the variation of organic fertilizer (V3), namely the NPP content and water content, respectively, which were 4.52%, 2.57%, 0.05%, and 19.84%. This shows that organic fertilizer increases NPP elements and plant growth.
Perancangan Sistem Pengelolaan Sampah dengan Metode Material Flow Analysis (MFA) (Studi Kasus: Kota Tasikmalaya) Detiar, Reki; Ulhasanah, Nova; Sari, Mega Mutiara
Journal of Sustainable Infrastructure Vol. 2 No. 2 (2023): Importance of Public Health and Waste Management
Publisher : Fakultas Perencanaan Infrastruktur, Universitas Pertamina

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.61078/jsi.v2i2.23

Abstract

This study concerns the design of a waste management system using the Material Flow Analysis (MFA) method in the city of Tasikmalaya. TPA Ciangir is the only landfill in Tasikmalaya, and its storage capacity has reached its maximum, necessitating improvements in waste management. The aim of this design is to determine an appropriate waste management system that can be implemented in Tasikmalaya. Based on observations and interviews, waste collection at TPA Ciangir in Tasikmalaya is conducted in small amounts, leading to a significant amount of household waste not being collected daily, resulting in waste accumulation and minimal transport to waste processing facilities. According to Permen PU Number 3 of 2013 and SNI 19-2454-2002, waste collection from the source should be conducted at least once every two days. Therefore, an evaluation and redesign of the waste management system based on technical aspects are needed. The best system selection will be carried out using the Analytical Hierarchy Process (AHP) method, which will then be recommended for application at TPA Ciangir in Tasikmalaya. Based on the calculations using the AHP method, scenario 3 scored the highest, at 1.676, using composting processes, RDF, and TPST-3R. From the design results, a total waste reduction of 81% was achieved, aligning with the government's target of a 70% waste reduction by 2020.

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