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All Journal INOVTEK POLBENG EPIC : Journal of Electrical Power, Instrumentation and Control ARSY : Jurnal Aplikasi Riset kepada Masyarakat Journal of Applied Mechanical Engineering and Renewable Energy (JAMERE) Literasi: Jurnal Pengabdian Masyarakat dan Inovasi ENTRIES
Yudi Chandra
Politeknik Negeri Ketapang
Agriculture, Biological Sciences & Forestry Humanities Automotive Engineering Chemical Engineering, Chemistry & Bioengineering Civil Engineering, Building, Construction & Architecture Computer Science & IT Control & Systems Engineering Decision Sciences, Operations Research & Management Earth & Planetary Sciences Electrical & Electronics Engineering Energy Engineering Environmental Science Industrial & Manufacturing Engineering Materials Science & Nanotechnology Mechanical Engineering Other

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Journal : ENTRIES

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Perancangan Pembangkit Listrik Tenaga Surya (PLTS) Sebagai Sumber Energi Listrik Untuk Akuaponik Yudi Chandra
Electrical Network Systems and Sources Vol 1 No 1 (2022)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v1i1.1116

Abstract

The higher the growth rate, the greater the need for electrical energy required. In addition, the increase in population has resulted in many land functions becoming non-agricultural or agricultural from non-agricultural land. Therefore, the way to overcome the shortage of food security and environmentally friendly is the aquaponics system. Aquaponics cannot be separated from air circulation, where this water is the main need for both fish and plants. The water pump is an air propulsion driven by electrical energy. The problem is, because the air used for both plants and fish is the main ingredient, the water must flow and if the electricity goes out or other disturbances in electricity, the air flow process will stop, in addition to reducing electrical energy from PLN, one of the efforts that can be done This is done by utilizing alternative energy, namely using solar light energy into electrical energy or called PLTS. In the design of this PLTS using an off grid system. This off grid system is intended as a substitute for electricity when the electricity source from PLN is off or there is no PLN electricity at all. The design of this PLTS is done by calculating the required PLTS components, after that determining where to put the solar panels that are used. After knowing the specifications of the components, then you can do calculations for the Budget Plan (RAB) which will be recommended in the design of PLTS with this off grid system. The results of this PLTS design with an off grid system are using components in the form of solar panels, solar charge controllers, batteries and inverters. After calculating the load on aquaponics, in this design the components are obtained, namely 1 solar panel with a capacity of 150 Wp, 1 battery with a capacity of 70 Ah 12 Volt, 1 inverter with a capacity of 500 watts and 1 SCC capacity of 10 A. . The recommended fee is Rp. 3.500.000.00., for the PLTS.
Implementasi Sistem Otomatis Pada Conveyor Bandar Udara Rahadi Oesman Ketapang Yudi Chandra
Electrical Network Systems and Sources Vol 1 No 1 (2022)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v1i1.1117

Abstract

Baggage handling has an important role in maintaining the comfort of passengerstraveling by airplane and processing the baggage until it can be transported together on the same plane with the passengers. But so far, passengers don't knowhow to process the luggage that has been handed over at the check-in counter tothe plane's baggage. But so far, passengers don't know how to process luggage from planes to passengers. Along with the growth of flight movements (passengers and aircraft), currently the technology applied to handling passenger baggage has developed rapidly.The current conveyor system runs continuously, whether thereare goods or not, to turn off the conveyor still uses human/operator power. If theoperator is careless/less orderly can lead to human error so that the increased useof electricity. One of the services that use conveyor systems such that Rahadi Oesman Airport Ketapang. Of these problems, the system is designed to automatically on the conveyor. This design has been in system tools automatically on a conveyor that can be turn on without pressing the start button if the storage detected the presence of goods and conveyor can die without pressingthe stop button when the trunk does not detect the presence of goods that are processed by the Proximity Sensor Retroreflecting. The system automaticallyon the conveyor can be applied in Rahadi Oesman airport Ketapang to facilitate the performance of technicians and electricity saving.
Perancangan ATS Untuk Rumah Walet di Paket 2 TR 23 Desa Banyu Abang Yudi Chandra
Electrical Network Systems and Sources Vol 1 No 2 (2022)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v1i2.1121

Abstract

A Swallow's house is a house that is dedicated as a place for swallows to enter and make nests. The part that can be used by swallows is the swallow's nest. The swallow house itself operates 24 hours. ATS (Automatic Transfer Switch) itself is a system equipment that can regulate the change in the supply of electric power from the main power source from PLN to a backup power source that works automatically by controlling the timing. Therefore, we need a circuit or automatic device that can move the power source from the main source to a backup source or vice versa. By considering the problem points above, an alternative was created to overcome this problem, so a tool called ATS (Automatic Transfer Switch) was created to solve it. In this research, a single-phase ATS will be designed by reducing the number of contactors to get more economical results and easy maintenance. ATS in this study uses a control circuit based on relay and Time Delay Relay (TDR). When the PLN blackout occurs, there is a time delay of 5 seconds before the battery or battery supplies the circuit. This is done to protect the components from damage if PLN occurs for a brief blackout. The outcomes of the ATS design using components such as contactors, relays, TDRs, and inverters. A circuit is formed that can move the power source automatically. This circuit can be applied to cities or other large industries by replacing a backup power source by using an existing power source in the area. The cost of making ATS is quite affordable, ranging from only 2-3 million, and the materials needed to make this ATS are very easy to obtain both through offline and online media, and the price of the materials is very affordable.
Perancangan Pembangkit Listrik Tenaga Surya Off Grid Untuk Penerangan dan Pengeras Suara pada Mushola Hidayatullah Desa Harapan Baru Yudi Chandra
Electrical Network Systems and Sources Vol 1 No 2 (2022)
Publisher : entries

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.58466/entries.v1i2.1122

Abstract

Solar energy is an energy that form the light and heat from the sun. This energy can be utilized by using technologies such as solar heating, solar photovoltaics, solar thermal electricity, solar building energy, and artificial photosynthesis. Solar energy provides many benefits for human life. One of the utilization of solar energy can be implemented is in the form of Solar Power Plants (PLTS). The Final Project a solar power plant designed which is located in Harapan Baru Village, kecamatan Matan Hilir Selatan, Ketapang Regency. The solar power plant component using an off grid system. The off grid PLTS system is used to a substitute for electricity, when source of PLN goes out. The design of solar power plant by selecting the solar components, calculating the power components will be needed, calculating the solar power components, then determining the location of the solar panel used. after the PLTS components have known the types and specifications, then calculation cost of budged plan recommended in the design of PLTS with this off grid system. The components used in solar power plants with this off grid system are solar panel, batterie, inverter, and solar charge controllers. This solar power generation system designed to supply electricity needs of the mosque when the PLN power source is off. Where this system uses consist of component are 5 piecs solar panels 100 Wp, an inverter capacity of 800 Watt, batteries with capacity of 60 Ah 12 Volt and a solar charge controller with capacity of 60 A cost of budget recommendeed is cost of Rp. 10,127,000.00.
Co-Authors akhdiyatul, akhdiyatul Erick Radwitya Fachrul Rozie Ivan Suwanda . Normansyah Normansyah Sy. Ishak Alkadrie Yusuf Yusuf