Construction of power plant (PLTSa) which can produce energy up to 500 kWH. Sukawinatan landfill which is predicted to produce CH4 around 12 nmh3 / hour in each well, with the calculation of 50 wells can produce 600 nmh3 / hour. However, for the current status, it turns out that CH4 at TPA wells which able to generate up to 500 kW in volume decrease so that it can only operate with a load of 45-94 kW, therefore in 2018 PLTSa Optimization review has been carried out Sukawinatan which is a study of composition calculation waste and gas potential as a basis for consideration for the development of TPA wells including the technical design. The optimization of PLTSa Sukawinatan has not been implemented because the generating capacity has not yet received the best value due to technology that did not meet the requirements. In this study, researchers used a Descriptive Action Research methodology focused on implementing actions aimed at improving quality and providing solutions problems in the area under study. The Ministry of Energy and Mineral Resources offers an alternative use of PLTSa Sukawinatan with the addition of the Plastic to Fuel scheme as a solution for generating fuel. It is expected this research can contribute to the Government of the City of Palembang and the Palembang community as a result of the application of waste management as a source of sustainable electrical energy source of lighting for Palembang.

Normaliati, Fithri and desi kumindari, desi kumindari (2022) Construction of power plant (PLTSa) which can produce energy up to 500 kWH. Sukawinatan landfill which is predicted to produce CH4 around 12 nmh3 / hour in each well, with the calculation of 50 wells can produce 600 nmh3 / hour. However, for the current status, it turns out that CH4 at TPA wells which able to generate up to 500 kW in volume decrease so that it can only operate with a load of 45-94 kW, therefore in 2018 PLTSa Optimization review has been carried out Sukawinatan which is a study of composition calculation waste and gas potential as a basis for consideration for the development of TPA wells including the technical design. The optimization of PLTSa Sukawinatan has not been implemented because the generating capacity has not yet received the best value due to technology that did not meet the requirements. In this study, researchers used a Descriptive Action Research methodology focused on implementing actions aimed at improving quality and providing solutions problems in the area under study. The Ministry of Energy and Mineral Resources offers an alternative use of PLTSa Sukawinatan with the addition of the Plastic to Fuel scheme as a solution for generating fuel. It is expected this research can contribute to the Government of the City of Palembang and the Palembang community as a result of the application of waste management as a source of sustainable electrical energy source of lighting for Palembang. Construction of power plant (PLTSa) which can produce energy up to 500 kWH. Sukawinatan landfill which is predicted to produce CH4 around 12 nmh3 / hour in each well, with the calculation of 50 wells can produce 600 nmh3 / hour. However, for the curren.

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Abstract

Kebutuhan energi listrik dunia semakin meningkat, ketersediaan energi semakin menipis, populasi penduduk dunia terus bertambah, juga semakin parahnya kerusakan lingkungan alam akibat polusi dari penggunaan teknologi yang kurang bijaksana sulit untuk dihindari. Untuk mengatasi masalah tersebut perlu terobosan baru dalam rekayasa dan pemanfaatan sumber energi secara efisien, efektif dan tepat guna. Untuk itu berdasarkan perkembangan teknologi baru dalam rekayasa dan pemanfaatan energi, yang meliputi pemanfaatan panas dari gas buang yang berasal dari generator merupakan alternatif teknologi yang dapat memberikan nilai efisiensi dalam pemakaian energi minyak dimana penerapan teknologi ini juga dapat menekan emisi pembakaran gas yang dapat menyebabkan polusi dan temperatur gas buang yang dilepas ke atmosfir. Pada Saat ini, natural gas dari Pertamina dibakar pada gas turbine untuk menghasilkan listrik melalui generator, sedangkan panas dari hasil pembakaran tersebut hanya dibuang melaui exhaust. Untuk ituah digunakan teknologi kogenerasi yang bertujuan untuk memanfaatkan panas yang terbuang tersebut menjadi bahan bakar

Item Type: Article
Subjects: L Education > L Education (General)
Divisions: Faculty of Law, Arts and Social Sciences > School of Education
Depositing User: Mr Edi Surya Negara
Date Deposited: 19 Jun 2022 12:49
Last Modified: 19 Jun 2022 12:49
URI: http://eprints.binadarma.ac.id/id/eprint/12963

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