PENERAPAN KONSEP ECO-WASTE ENERGY PADA PERANCANGAN PENGEMBANGAN INSTALASI PENGOLAHAN SAMPAH TERPADU (IPST) DI KABUPATEN KLATEN IMPLEMENTING THE ECO-WASTE ENERGY CONCEPT IN THE DESIGN OF THE DEVELOPMENT OF AN INTEGRATED WASTE PROCESSING INSTALLATION (IPST) IN KLATEN REGENCY

Pratama Wahyu, Hercules Angga and Natalia, Dita Ayu Rani (2026) PENERAPAN KONSEP ECO-WASTE ENERGY PADA PERANCANGAN PENGEMBANGAN INSTALASI PENGOLAHAN SAMPAH TERPADU (IPST) DI KABUPATEN KLATEN IMPLEMENTING THE ECO-WASTE ENERGY CONCEPT IN THE DESIGN OF THE DEVELOPMENT OF AN INTEGRATED WASTE PROCESSING INSTALLATION (IPST) IN KLATEN REGENCY. Tugas Akhir thesis, UNIVERSITY OF TECHNOLOGY YOGYAKARTA.

[img] Text
ABSTRAK-5210911025-HERCULES ANGGA WAHYU PRATAMA - Hercules Angga.pdf
Download (33kB)

Abstract

Perancangan Instalasi Pengolahan Sampah Terpadu (IPST) pada Tempat Pemrosesan Akhir (TPA) Troketon, Kabupaten Klaten, dilatarbelakangi oleh meningkatnya volume sampah yang mencapai 237.050,70 ton per tahun (2023). Pengelolaan sampah yang belum optimal menimbulkan berbagai dampak negatif bagi lingkungan, seperti pencemaran tanah, udara, dan air. Oleh karena itu, dibutuhkan solusi inovatif yang tidak hanya mengurangi volume sampah, tetapi juga menghasilkan energi terbarukan serta memberikan manfaat kepada masyarakat. Tujuan dari perancangan ini adalah menciptakan fasilitas pengolahan sampah yang efektif, ramah lingkungan, dan multifungsi. Metode perancangan melibatkan analisis tapak, pengumpulan data primer melalui observasi dan wawancara, serta data sekunder dari studi literatur dan studi kasus. Contoh studi kasus yang menjadi referensi adalah Dublin Waste to Energy di Irlandia dan Musashino Clean Center di Jepang. Desain meliputi integrasi teknologi pengolahan sampah modern seperti insinerasi, menghasilkan energi listrik dari uap panas hasil pembakaran. Fasilitas ini juga dilengkapi dengan area interaktif yang bertujuan meningkatkan pemahaman masyarakat tentang pengelolaan sampah dan energi terbarukan. Dengan pendekatan Eco-Waste Energy, Hasilnya diharapkan mampu mengurangi dampak negatif sampah sekaligus memberikan manfaat ekonomi dan lingkungan, serta menjadi solusi strategis dalam pengelolaan sampah berkelanjutan dengan mengintegrasikan teknologi modern dan keberlanjutan. The design of the Integrated Waste Processing Installation (IPST) at the Troketon Final Processing Site (TPA) in Klaten Regency is driven by the increasing waste volume, which reached 237,050.70 tons per year in 2023. Inefficient waste management has various detrimental effects on the environment, including soil, air, and water pollution. Therefore, innovative solutions are required that not only reduce waste volume but also generate renewable energy and provide community benefits. The objective of this design is to develop an effective, environmentally friendly, and multifunctional waste processing facility. The design methodology includes site analysis, primary data collection through observations and interviews, and secondary data obtained from literature reviews and case studies. Notable case studies referenced are the Dublin Waste-to-Energy facility in Ireland and the Musashino Clean Center in Japan. The design incorporates modern waste-processing technologies, such as incineration, which generates electrical energy from the steam produced during combustion. Additionally, the facility features an interactive area designed to enhance public awareness of waste management and renewable energy. By adopting the Eco-Waste Energy approach, the project is expected to mitigate the negative environmental impacts of waste while delivering economic and ecological benefits, ultimately serving as a strategic solution for sustainable waste management through the integration of advanced technology and sustainability principles.

Item Type: Thesis (Skripsi, Tugas Akhir or Kerja Praktek) (Tugas Akhir)
Uncontrolled Keywords: energi, insinerasi, lingkungan, limbah, sampah, teknologi energy, incineration, environment, waste, garbage, technology
Subjects: N Fine Arts > NA Architecture
Divisions: Fakultas Sains dan Teknologi > S1 Arsitekur
Depositing User: Kaprodi S1 Arsitektur UTY
Date Deposited: 17 Jun 2026 04:34
Last Modified: 17 Jun 2026 04:34
URI: http://eprints.uty.ac.id/id/eprint/19900

Actions (login required)

View Item View Item
UTY Open Access is powered by EPrints 3 which is developed by the School of Electronics and Computer Science at the University of Southampton. More information and software credits.