Perencanaan Konfigurasi Dan Komponen Pembangkit Listrik Tenaga Surya (PLTS) Pada Stasiun Pengisian Kendaraan Listrik Kapasitas 1700 Watt Untuk ICAR

Krisnawan, Edgar Pramudya (2022) Perencanaan Konfigurasi Dan Komponen Pembangkit Listrik Tenaga Surya (PLTS) Pada Stasiun Pengisian Kendaraan Listrik Kapasitas 1700 Watt Untuk ICAR. Undergraduate thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Banyak sekali dampak negatif dari polusi atau emisi gas buang yang dihasilkan dari pembakaran mesin mobil konvensional. Antara lain dampak negatif terhadap kesehatan dan kesejahteraan manusia serta lingkungan hidup. Pemerintah Indonesia berencana serius dalam mewujudkan konversi kendaraan berbasis listrik (KBL). Namun masyarakat belum mengetahui teknologi yang digunakan pada mobil listrik. Dengan Adanya Charging Station ini diharapkan dapat membantu pihak PLN selaku penyelenggara tenaga listrik di Indonesia untuk menyumbang daya listrik untuk Stasiun Pengisian Kendaraan Listrik Umum (SPKLU).
Agar perencanaan stasiun pengisian kendaraan listrik berjalan lancar maka perlu adanya perencaan yang sangat matang agar dapat memastikan komponen apa saja yang terkait untuk membangun stasiun pengisian kendaraan listrik. Dengan adanya perencanaan stasiun pengisian kendaraan listrik dapat membantu dari segi pendidikan. Stasiun pengisian kendaraan listrik dapat berjalan lancer apabila ada komponen diantara lain seperti solar panel, solar charge controller, baterai untuk menyimpan daya dari solar panel, inventer.
Dalam perencanaan PLTS ini penulis menggunakan irradiasi dalam setahun dan suhu pada bulan November. Perhitungan ini menggunakan komponen solar panel dengan kapasitas 250 WP sebanyak 8 panel, solar charge controller 80 A, baterai 150 A, dan inventer 2 kW . Hasil dari perencanaan ini bahwa PLTS dapat menghasilkan 1728 WP dengan luas area array sebesar 12,988 m2.
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There are so many negative impacts of pollution or exhaust emissions resulting from the
combustion of conventional car engines. These include negative impacts on human health and well�being and the environment. The Indonesian government is serious about realizing the conversion
of electric-based vehicles (KBL). With the existence of this Charging Station, it is hoped that it can
help PLN as the provider of electricity in Indonesia to donate electrical power for the Public
Electric Vehicle Charging Station (SPKLU).
To achieve this, there are many things that must be considered, such as components such
as inverters that convert from DC current to AC current. Then the types of battery characteristics
of the Electric Vehicle (EV). In order for the planning of electric vehicle charging stations to run
smoothly, it is necessary to have very careful planning in order to ensure which components are
related to building an electric vehicle charging station. Planning for an electric vehicle charging
station can help in terms of education. Electric vehicle charging stations can run smoothly if there
are components such as solar panels, solar charge controllers, batteries to store power from solar
panels, inventers.
In planning this PLTS the author uses irradiation in a year and temperature in November.
This calculation uses a solar panel component with a capacity of 250 as many as 8 panels, a solar
charge controller of 80 A, a battery of 2V, 150 A, and a 2 kW inventer. The result of this planning
is that PLTS can produce 1781,4 WP with an array area of 12,988 m2.

Item Type:	Thesis (Undergraduate)
Uncontrolled Keywords:	PLTS, inverter, solar charge controller
Subjects:	T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK1087 Photovoltaic power generation
Divisions:	Faculty of Vocational > Mechanical Industrial Engineering
Depositing User:	Edgar Pramudya Krisnawan
Date Deposited:	08 Feb 2022 13:35
Last Modified:	11 Feb 2022 02:50
URI:	http://repository.its.ac.id/id/eprint/93135

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