Abstract

The city of Yogyakarta is the city of choice for foreign and local tourist destinations. Their arrival also became a problem for the city of Yogyakarta in terms of waste. This is evidenced by the increasing waste generation in the city of Yogyakarta. Yogyakarta City waste is transported to Piyungan landfill every day. Piyungan Landfill has limited availability of land while unlimited amounts of incoming waste every day. Based on the primary data obtained from this study, the average municipal waste in Yogyakarta was 310 tons / day. The solution to this problem is the Waste Power Plant (PLTSa). The benefits of PLTSa to produce electricity can also reduce the volume of waste at the Piyungnan landfill. PLTSa technology certainly has choices in accordance with the characteristics of waste in the Piyungan Landfill. The purpose of this study is to conduct a review of the feasibility of PLTSa technology to be selected by the Grid Analysis (GA) method. First, there is a need for primary and secondary data about the amount of waste generated in the city of Yogyakarta every day. The method used in choosing PLTSa technology in the city of Yogyakarta with a simple random method was continued using the grid analysis method. The results of the calculation and processing of data obtained the right technology for karakersit city waste Yogyakarta is incenerator

Highlights

  • Abstrak − Kota Yogyakarta merupakan kota pilihan untuk destinasi wisatawan asing maupun lokal

  • The city of Yogyakarta is the city of choice

  • Their arrival also became a problem for the city of Yogyakarta

Read more

Summary

Introduction

Abstrak − Kota Yogyakarta merupakan kota pilihan untuk destinasi wisatawan asing maupun lokal. Berdasarkan data primer yang didapatkan dari penelitian ini adalah rata-rata sampah Kota Yogyakarta yang masuk sebesar 310 ton/hari. Hasil perhitungan dan pengolahan data didapatkan teknologi yang tepat unutk karakersitik sampah kota yogyakarta adalah insinerator. PLTSa merupakan salah satu bentuk konversi energi baru terbarukan yang memanfaatkan sampah sebagai bahan baku untuk membangkitkan boiler [4] yang bekerja terhubung dengan turbin dan generator sehingga bisa dihasilkan energi listrik [5].

Objectives
Results
Conclusion
Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call