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Praditya Sigit Ardisty Sitogasa
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Environmental Science and Engineering Conference Proceeding
Published by Universitas Pembangunan Nasional Veteran Jawa Timur
ISSN : 27986268     EISSN : 27986241     DOI : -
Core Subject : Health, Social, Engineering,
Chemical Engineering, Chemistry & Bioengineering Engineering Environmental Science Industrial & Manufacturing Engineering Public Health
Environmental Science and Engineering Conference National Seminar Proceedings was created to be a medium that academics, practitioners and stakeholders can use to access various research results and literature published on this website. Proceedings of the National Environmental Science and Engineering Conference (ESEC) is a collection of papers or scientific articles that have been presented at the National Seminar on Environmental Science and Engineering Conference (ESEC) which is held regularly every year by the Environmental Engineering Study Program, UPN "Veteran" East Java. The scope is intentionally to recognises the complexity of issues and challenges in the Environmental Science and Engineering Areas. All scale of studies and analysis form environmental science to environmental engiinering, chemistry/chemical/biochemistry engineering, renewable energy, and industrial engineering to public health are welcomed.
Arjuna Subject : Ilmu Lingkungan (semua ketegori) - Teknik Lingkungan
Articles 132 Documents
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EnviroPureTech: Sistem Terpadu Inovatif untuk Pengelolaan Air Limbah Berkelanjutan menggunakan Teknologi Plasma, Reverse Osmosis, dan Turbin Listrik Berbasis IoT Sa Bashkaran Adi Warman; Janu Andeean; Ridho Firmansyah
Prosiding ESEC Vol. 4 No. 1 (2023): Seminar Nasional (ESEC) 2023
Publisher : Prosiding ESEC

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Abstract

Indonesia has rich energy resources, including electrical energy. However, the use of conventional power plants has negative impacts, such as increasing pollution and reducing fossil fuel sources. Therefore, alternative solutions such as energy from aquatic resources are important. As an archipelagic country, Indonesia has great potential to develop electricity and clean water supplies. Unfortunately, around 80% of waste water produced in Indonesia is not treated properly and is discharged directly into the waters. This demands sustainable wastewater management. The use of plasma technology, reverse osmosis and IoT-based electrical energy turbines is a solution to improve wastewater management. EnviroPureTech is an innovation that combines plasma technology to remove harmful compounds in wastewater, reverse osmosis to separate dissolved compounds, and IoT-based electrical energy turbines to produce additional energy from wastewater. This research aims to integrate EnviroPureTech in sustainable wastewater management in Indonesia. The research method involves literature study for data collection and design of the necessary tools. The success of creating this tool is important so that testing runs smoothly. It is hoped that the results of this research will contribute to the development of a sustainable wastewater management system, create a clean environment, and support the use of renewable energy sources.
CityCapt: Inovasi Teknologi Carbon Capture Direct Air and Biological Capture Guna Mendukung Pencapaian SDGs 2030 Rahma Khusniawati; Muhammad Sholeh Al Ghifari; Wafi Mumtaz Malik; Yasa Palaguna Umar
Prosiding ESEC Vol. 4 No. 1 (2023): Seminar Nasional (ESEC) 2023
Publisher : Prosiding ESEC

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Abstract

Several mitigation options, Carbon Capture Utilization and Storage (CCUS) technology is estimated to have sustainable potential to reduce CO2 emissions. Various CCUS technologies that have been developed include DAC (Direct Air Capture) and BC (Biological Capture). However, these existing technologies have shortcomings including technological efficiency that is not in line with the initial design and the price for the technology is quite expensive. CityCapt is an innovation of DAC technology integrated with BC for CO2 absorption in open spaces such as city halls, parks and other public places. This technology is operated with fuel from solar panels with the principle of capturing CO2 from ambient air, then channeled to microalgae containers for biological processing. CO2 that enters the microalgae container will become a source of energy for microalgae which can then be harvested to be used as biomass so as to optimize technology and reduce operational costs. With this technology, CO2 generated from urban activities can be captured, managed and utilized as a renewable energy source.

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