Rancang Bangun Modul Pembangkit Listrik Tenaga  Surya (PLTS) Sistem Off-grid Sebagai Alat  Penunjang Praktikum Di Laboratorium

Muhammad Syahwil; Nasrudin Kadir

doi:10.14710/jplp.3.1.26-35

DOI: https://doi.org/10.14710/jplp.3.1.26-35

Rancang Bangun Modul Pembangkit Listrik Tenaga Surya (PLTS) Sistem Off-grid Sebagai Alat Penunjang Praktikum Di Laboratorium

Muhammad Syahwil¹ , Nasrudin Kadir²

¹Laboratorium Sistem Tenaga Listrik, Jurusan Teknik Elektro, Politeknik Negeri Ujung Pandang, Indonesia

²Bengkel Mekanik, Jurusan Teknik Mesin, Politeknik Negeri Ujung Pandang, Indonesia

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

BibTex Citation Data :

@article{JPLP10169,
    author = {Muhammad Syahwil and Nasrudin Kadir},
    title = {Rancang Bangun Modul Pembangkit Listrik Tenaga  Surya (PLTS) Sistem Off-grid Sebagai Alat  Penunjang Praktikum Di Laboratorium},
    journal = {Jurnal Pengelolaan Laboratorium Pendidikan},
  volume = {3},
    number = {1},
    year = {2021},
    keywords = {PLTS Module; off-grid system; Small Scale},
    abstract = {  This study aims to design and manufacture a practical module for a small-scale off-grid solar power system with a power capacity of 3  2  0Wp. This module consists of the main components of an off-grid type solar power system such as solar panels, Solar Charger Controller (SCC), batteries, inverters, ac/dc loads and power meter measuring instruments integrated in one module. The method used is laboratory research methods and literature study. The literature study method is to look for literature related to solar power plant as a support in making modules and laboratory methods, namely testing modules/ systems with certain conditions. Stages This research method includes identification of problems in the laboratory, literature study, design/layout of the PLTS module, determining the type and analysis of the capacity of solar panels, SCC, inverters and batteries, supplying materials/components, manufacturing modules, and testing modules in the laboratory. The output and benefits of this research are getting a practical module for the   solar power plant   system which makes it easier for students to understand the working principles of the PLTS system; also to optimize practicum activities in the laboratory. From the results of testing, measurement, and data analysis that have been carried out by the off-grid solar power plant (PLTS) module that has been made to function properly and works in accordance with the principle of the off-grid PLTS system, generating electricity according to the capacity of the solar panel, The solar charge controller works in accordance with its function to regulate charge and discharge of battery storage and the inverter is able to serve the load according to its capacity so that this module is ready to be used as a practical module in learning activities in the laboratory.  },
   issn = {2654-251X},   pages = {26--35}  doi = {10.14710/jplp.3.1.26-35},
    url = {https://ejournal2.undip.ac.id/index.php/jplp/article/view/10169}
}

Citation Format:

Abstract

This study aims to design and manufacture a practical module for a small-scale off-grid solar power system with a power capacity of 320Wp. This module consists of the main components of an off-grid type solar power system such as solar panels, Solar Charger Controller (SCC), batteries, inverters, ac/dc loads and power meter measuring instruments integrated in one module. The method used is laboratory research methods and literature study. The literature study method is to look for literature related to solar power plant as a support in making modules and laboratory methods, namely testing modules/ systems with certain conditions. Stages This research method includes identification of problems in the laboratory, literature study, design/layout of the PLTS module, determining the type and analysis of the capacity of solar panels, SCC, inverters and batteries, supplying materials/components, manufacturing modules, and testing modules in the laboratory. The output and benefits of this research are getting a practical module for the solar power plant system which makes it easier for students to understand the working principles of the PLTS system; also to optimize practicum activities in the laboratory. From the results of testing, measurement, and data analysis that have been carried out by the off-grid solar power plant (PLTS) module that has been made to function properly and works in accordance with the principle of the off-grid PLTS system, generating electricity according to the capacity of the solar panel, The solar charge controller works in accordance with its function to regulate charge and discharge of battery storage and the inverter is able to serve the load according to its capacity so that this module is ready to be used as a practical module in learning activities in the laboratory.

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Keywords: PLTS Module; off-grid system; Small Scale

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In Vol. 3, No. 1, Januari 2021

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