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All Journal Journal of Community Development Journal of Engineering Science and Technology
Alfan Mubarok
Politeknik Negeri Jember
Computer Science & IT Engineering Materials Science & Nanotechnology Nursing Public Health Social Sciences

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Penerapan Teknologi Venturi Finebubble Portable Buoy Berbasis Solar Cell dan Internet Of Things Pada Tambak Udang Vaname Karangrejo Banyuwangi Achmad Noval Kurniawan Raroeng; Moch. Yusron; Alfan Mubarok; Siti Ainun Fiqiyah; Anfasa Syahrul Habibie; Risse Entikaria Rachmanita
Journal of Community Development Vol. 4 No. 1 (2023): August
Publisher : Indonesian Journal Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47134/comdev.v4i1.128

Abstract

Indonesia is a maritime country that has enormous potential in marine products. One of the marine products which is the highest export commodity is shrimp. Lingkungan Pakem, Karangrejo Village, Banyuwangi Regency is a partner location that is one of the national shrimp producing centers. Partners cultivate vaname shrimp with an intensive system as a producer of oxygen bubbles. The application of an intensive system causes problems, namely the amount of electricity costs and the uneven flow of water flow so that oxygen levels are not optimal. Based on these problems, the application of venturi finebubble portable buoy technology based on solar cells and IoT aims to increase the efficiency of the production of vannamei shrimp produced. The stages of technology application to partners consist of observation, planning, manufacture, assembly, and evaluation. The implementation of this technology can reduce electricity bills from operational costs in one harvest period (2 months) which was initially IDR 3,000,000.00 to IDR 2,000,000.00 and the average mortality rate of shrimp from 3000 individuals is equivalent to IDR 1,100,000.00 to 1560 individuals which is equivalent to IDR 572,000.00. Thus, the savings achieved are 37% or IDR 1,528,000.00 per harvest.
Konsep Rancang Bangun Smart Home Base Berbasis IOT untuk Skala Perumahan Duta Catur Pamungkas Putra; Imani Rizkia Dawami; Muhammad Rofiul Haq; Achmad Daffa Danang Luthfiansyah; Alfan Mubarok; Dafit Ari Prasetyo
Journal of Engineering Science and Technology Vol. 1 No. 2 (2023): May
Publisher : Indonesian Journal Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.47134/jesty.v1i2.11

Abstract

World energy demand continues to increase by 45% until 2030 based on projections of the International Energy Agency (IEA) with an average increase of 1.6% per year. About 80% of these energy needs supplied by fossil fuels. This increase occurred due to population growth, industrialization, lifestyle changes, and the use of increasingly complex technology. The household sector is one of the sectors that require energy to meet daily needs. Researchers conducted a study of research results related to rooftop Solar Power Plants, the use of thermoelectric as a producer of electrical energy, and the use of septic tanks for household gas with digesters that have been published in Indonesian-language journals and proceedings. The concept of a smart home base is implemented assuming a simple housing design, in this design than a technical calculation of the feasibility of a Smart Home Base is carried out which considers efficient methods in the development and provision of energy independently based on renewable energy for cost savings and supports government programs abaout Indonesia Ketahanan Energi 2030. Renewable energy applied to the smart home base concept utilizes Solar Power Plants which are hybrid with Thermoelectric Generators and biogas to replace of the LPG stove. Utilization of IoT-based technology to optimize energy savings at home. The housing concept is assumed with a simple housing design with a daily energy consumption of 5,507 Wh and 1,336 watts of power. The solar system used is 450 Wp for as many as 8 units of solar panels, 12 v 200 Ah battery capacity of as many as 8 units of batteries, and inverters with a power of 2000 Watts.
Co-Authors Achmad Daffa Danang Luthfiansyah Achmad Noval Kurniawan Raroeng Anfasa Syahrul Habibie Dafit Ari Prasetyo Duta Catur Pamungkas Putra Imani Rizkia Dawami Moch. Yusron Muhammad Rofiul Haq Risse Entikaria Rachmanita Siti Ainun Fiqiyah