Characteristics of Direct-Coupling Fuel Cell Injection in Renewable Energy Hybrid Power Generation Electrical Systems: Karakteristik Injeksi Fuel Cell Secara Direct-Coupling Pada Sistem Kelistrikan Pembangkit Hibrida Energi Terbarukan
- fuel cell,
- hybrid renewable energy
Copyright (c) 2022 Indah Sulistiyowati, Jamaaludin, Izza Anshory
This work is licensed under a Creative Commons Attribution 4.0 International License.
Currently, Fuel Cell technology is widely used as a supporting technology for energy storage systems in the electrical system. With the widespread use of renewable energy as an energy source today, several schemes have been tried for the installation of Fuel Cells after the converter, but the performance of the Fuel Cells is not very helpful because the response time is not significant enough to raise power requirements when input intermittent occurs (on a time scale of seconds). . In this study, a simulation of the installation of a fuel cell was carried out in an isolated electrical system (off-grid) containing solar panels. To increase the performance of the Fuel Cell, the installation will be carried out by Direct-Coupling before the converter. The results of this study indicate that the installation of Direct-Coupling can help improve the performance of Fuel Cells in off-grid renewable energy electrical systems.
Power Stability Based on Battery and Supercapacitor Hybrid System," 2021 International
Seminar on Application for Technology of Information and Communication (iSemantic), 2021,
 R. Delfianti, A. Soeprijanto, A. Priyadi, A. L. S. Budi and I. Abadi, "Energy Management
Efficiency and Stability Using Passive Filter in Standalone Photovoltaic Sudden Cloud
Condition," 2020 3rd International Seminar on Research of Information Technology and
Intelligent Systems (ISRITI), 2020, pp. 716-720.
Procedia of Social Sciences and Humanities
Proceedings of the SEMNAS
ISSN 2722-0672 (online), https://pssh.umsida.ac.id. Published by Universitas Muhammadiyah Sidoarjo
Copyright (c) 2021 Author (s). This is an open-access article distributed under the terms of Creative
Commons Attribution License (CC BY).
To view a copy of this license, visit https://creativecommons.org/licenses/by/4.0/.
 M. Taoufik and S. Lassad, "Hybrid photovoltaic-fuel cell system with storage device control,"
2017 International Conference on Green Energy Conversion Systems (GECS), 2017, pp. 1-6.
 Soedibyo, S. Anam, M. Ashari, A. L. Setya Budi and A. Soeprijanto, "Voltage and Power
Stability Characteristics for Photovoltaic Battery and Supercapacitor Hybrid System," 2020 1st
International Conference on Information Technology, Advanced Mechanical and Electrical
Engineering (ICITAMEE), 2020, pp. 111-116.
 S. Agalya and R. Kavitha, "Implementation of hybrid cascaded multilevel inverter with
photovoltaic cell and fuel cell," 2014 International Conference on Green Computing
Communication and Electrical Engineering (ICGCCEE), 2014, pp. 1-5.
 Soedibyo, A. L. S. Budi, M. Ashari, H. Ridho and F. A. Pamuji, "Implementation Of
Maximum Power Point Tracking Based On Perturb and Observe Algorithm For Photovoltaic,
Wind Turbine, and Fuel Cell Hybrid System," 2020 International Seminar on Application for
Technology of Information and Communication (iSemantic), 2020, pp. 267-273.
 S. Z. Nurul Haq, A. L. Setya Budi, Soedibyo and F. A. Pamuji, "Photovoltaic Sudden Cloud
Compensation Device Using Modified LCL Filter Converter Configuration," 2021
International Seminar on Application for Technology of Information and Communication
(iSemantic), 2021, pp. 365-369.
 S. V. M. Guaitolini, I. Yahyaoui, J. F. Fardin, L. F. Encarnação and F. Tadeo, "A review of
fuel cell and energy cogeneration technologies," 2018 9th International Renewable Energy
Congress (IREC), 2018, pp. 1-6.