PERANCANGAN PLTS UNTUK PENERANGAN LISTRIK KAPAL PERINTIS 750 DWT DI DOK KODJA BAHARI

Authors

  • Ujang Wiharja dosen unkris
  • Ahmad Rifaldi universitas krisnadwipayana

Keywords:

Panel Surya, SCC, Inverter, Charge Control

Abstract

The 750 DWT Pioneer Ship uses a generator as an electrical system with a power capacity of AC 380V / 220V 3 Ph, 50 Hz 4 FIRE 100 KW, 125 KVA, 190.2 A, 1500 RPM. With the load requirements of the motors with a power of 119.9 KW, while the load for ship lighting is 6.752 KW. For planning a solar power plant (PLTS) on a 750 DWT pioneer ship, it
is necessary to pay attention to the capacity of each PLTS component. In this plan, manual calculations are carried out as a reference for using the PVSyst software. The need for distribution of lighting installations is 31.8 KW per day using the PVsyst software. The design results of 32 KV. The characteristics of the solar module used with a capacity of 200Wp are 159 solar cells, 94 batteries with a capacity of 24v 200Ah, Solar Charge Controller (SCC) Power 1 Controller used is a max of 150 A and Pscc 2500 W and an inverter with a power capacity of 32 KW. every installed component has met the specifications, so this PLTS system will be able to serve electricity for ship lighting installations

References

Juhari 2013 “Generator” Politeknik Negeri Sriwijaya hal 5-10, diakses pada 29 mei 2017

A. M. Muslimin Syam 2016 “Distribusi Daya Listrik di Kapal” Fakultas Teknik Universitas Hasanuddin

(file:///C:/Users/ALDI/Downloads/Sistem _Distribusi_Daya_ Listrik_di_Kapal.pdf)

Unknown 2012 “Pembangkit Listrik Tenaga Surya (PLTS)” Jendela Den Ngabei (http://jendeladenngabei.blogspot.com/2012/11/pembangkit-listrik-tenaga-suryaplts. html) di akses pada Sabtu 3 November 2012.

Setiawan, I.K. Agus, dkk. 2014. Analisis Unjuk Kerja Pembangkit Listrik Tenaga Surya (PLTS) 1 MWp Terinterkoneksi Jaringan Di Kayubihi,Bangli. Bali: Jurnal Teknologi Elektro. Vol. 13, No. 1:27-33.

IEEE Recommended Practice for Utility Interface of Photovoltaic (PV) Systems. 2000. USA: IEEE-SA Standards Board.

Uti Oqi Kurnia Ramdhany 2016 “Pembangkit Listrik Tenaga surya” Ketapang pada 1 Oktober 2016

Kiki Yonata 2017 “Analisis Tekno-Ekonomi Terhadap Desain Sistem PLTS Pada Bangunan Komensial Di Surabaya,

Indonesia” Departemen Tenik Fisika Fakultas Teknologi Industri Insitut Teknologi Sepuluh November Surabaya,

Januari 2017

Sitepu, R.; Gunadhi, A. Kajian Potensi Pembangkit Listrik Tenaga Surya pada Atap Gedung Kota Surabaya: Studi Kasus Gedung Perkuliahan. 3rd National Conference on Industrial Electrical and Electronic. 2014.

Ayu Septiana Pratiwi dan Wahyu Diana 2015 “Solar Energy And Solar cell System” Universitas Negeri Malang Maret 2015

Sihombing Donny TB, Surya Tarmizi Kazim. 2013. Perencanaan Sistem Penerangan Jalan Umum Dan Taman Di

Areal Kampus USU Dengan Menggunakan Teknologi Tenaga Surya (Aplikasi Di Areal Pendopo Dan Lapangan Parkir).

(3): 118-122.

https://panelsuryajakarta.com/panelsurya-200wp-monocrystalline-solarland/

Sumber:http://www.panelsurya.com/index. php/id/solar-controller/12-solarcharge%20controller%20solar%20controller

Ulya “Pembangkit Listrik Tenaga Surya” Ulya days(https://ulyadays.com/pembangkit-listriktenaga-

surya/).

Simanjorang Raymond.2016. PLTS Terpusat Tinjauan Teknologi Dan Spesifikasi Off Grid- AC Coupling. 5.

Dian Furqani Alifyanti “Pengaturan Tegangan Pembangkit listrik Tenaga Surya Elektro Vol1. No.1 Page 89 , Jurusan Teknik Elektro, STT PLN Jakarta

Putra, Tjok Gede Visnu Semara. 2015. Analisa Unjuk Kerja Pembangkit Listrik Tenaga Surya 15 KW Di Dusun Asah

Teben Desa Datah Karangasem. Bali: Universitas Udayana.

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Published

2021-01-02

How to Cite

Wiharja, U., & Ahmad Rifaldi. (2021). PERANCANGAN PLTS UNTUK PENERANGAN LISTRIK KAPAL PERINTIS 750 DWT DI DOK KODJA BAHARI. JURNAL ELEKTRO, 9(1), 55–63. Retrieved from https://journal.teknikunkris.ac.id/index.php/elektro/article/view/401