Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Aris Suryadi, Didik Notosudjono, Dede Suhendi, Ubaedy Rachmat

Judul : Application of Indirect Battery Charging Control System in Hybrid Small Power Plant

Abstrak :
Electrical energy is a basic human need and its use continues to increase, it is necessary to seek and utilize alternative to meet these energy needs, among others, by combining wind energy and solar energy. In its application, this hybrid power plant requires a battery as a storage medium and a controller as a regulator. There is a controller designed for the direct control type, where the electrical energy from the power plant to the hybrid source will not be directly channeled to the battery but through the MOSFET first, so that charging and disbursement of power consumption on the battery can be regulated. When the battery is fully charged, the system voltage controller will read the parameters to be adjusted and will disconnect the hybrid power source to the battery to prevent overcharge. The controller switches and regulates battery power usage to the load. The battery charging control system uses the PWM method using a MOSFET as the driving circuit and the ATMega 32 microcontroller as the system controller.

Tahun : 2021 Media Publikasi : Jurnal Internasional

Kategori : Jurnal No/Vol/Tahun : 1 / 54 / 2021

ISSN/ISBN : -

PTN/S : Universitas Pakuan Program Studi : TEKNIK ELEKTRO

Bibliography :
[1] Suryadi, A., Asmoro, P., Solihin, A. (2019). Hybrid electric power plant using wind turbine savonius helix and solar cell as an alternative power source in the lightning tower at flashing lights. ADI Journal on Recent Innovation (AJRI), 1(1): 1-6. https://doi.org/10.34306/ajri.v1i1.3

[2] Suryadi, A. (2020). The implementation of turbine ventilator as an alternative power plant. ADI Journal on Recent Innovation (AJRI), 2(1): 180-185. https://doi.org/10.34306/ajri.v2i1.34

[3] Suryadi, A., Nugroho, E.A., Asmoro, P. (2019). Utilization of speed bump as an alternative energy power plant. Proceedings TEKNOKA, 4: E20-E24. https://doi.org/10.22236/teknoka.v4i0.4168

[4] Suryadi, A., Asmoro, P., Raihan, R. (2019). Utilization of ventilator turbine as alternative power plant. Proceedings TEKNOKA, 4: E15-E19. https://doi.org/10.22236/teknoka.v4i0.4124

[5] Suryadi, A., Ahmad, S., Munthe, B. (2020). Utilization of Savonius hybrid solar cell wind turbines as remote area power plants. Proceedings SNTE, 5(1): 13-17.

[6] Ministry of Energy and Mineral Resources. (2016). Strategic Program for EBTKE and Electricity. Jakarta.

[7] Andrianto, H. (2013). Atmega 16 AVR Microcontroller safe programming using C language (CodeVision AVR), Informatics, Bandung. https://openlibrary.telkomuniversity.ac.id/pustaka/1033 09/pemrograman-mikrokontroler-avr-atmega16- menggunakan-bahasa-c-codevisionavr-revisikedua.html

[8] Yosef, Y. (2018). Control battery charger for solar panels or windmill generators, yogyakarta. Sanata Dharma University. https://repository.usd.ac.id/32494/2/135114046_full.pdf

[9] Koulali, M., Mankour, M., Negadi, K., Mezouar, A. (2019). Energy management of hybrid power system PV wind and battery based three-level converter. Tecnica Italiana-Italian Journal of Engineering Science, 63(2-4): 297-304. https://doi.org/10.18280/ti-ijes.632-426

[10] Boxwell, M. (2017). Solar Electricity Handbook 11 Edition. United Kingdom: Greenstream Brimingham. 11, and 12-13.

[11] Rachman, A., Pratiwi, P., Ashari, L. (2019). Design and performance horizontal axis wind turbine taper type. Jurnal Teknik Mesin (JTM), 9(2): 58-63.

[12] Yang, H., Lu, L., Zhou, W. (2007). A novel optimization sizing model for hybrid solar-wind power generation system. Solar Energy, 81(1): 76-84. http://dx.doi.org/10.1016/j.solener.2006.06.010

[13] Yin, Y., Luo, X., Guo, S., Zhou, Z., Wang, J. (2008). A battery charging control strategy for renewable energy generation systems. In Proceedings of the World Congress on Engineering, pp. 2-4.

[14] Nehrir, M.H., Wang, C., Strunz, K., Aki, H., Ramakumar, R., Bing, J., Miao, Z., Salameh, Z. (2011). A review of hybrid renewable/alternative energy systems for electric power generation: Configurations, control, and applications. IEEE Transactions on Sustainable Energy, 2(4): 392-403. http://dx.doi.org/10.1109/TSTE.2011.2157540

[15] Palaha, F. (2017). Testing prototype home installation using A CS 758 based on arduino. Journal of STT Pekanbaru, 5(2): 67-74. http://dx.doi.org/10.35583/js.v5i2.122

URL : https://doi.org/10.18280/jesa.540114

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Detail Karya Ilmiah Dosen

Aris Suryadi, Didik Notosudjono, Dede Suhendi, Ubaedy Rachmat

Judul	:	Application of Indirect Battery Charging Control System in Hybrid Small Power Plant
Abstrak	:	Electrical energy is a basic human need and its use continues to increase, it is necessary to seek and utilize alternative to meet these energy needs, among others, by combining wind energy and solar energy. In its application, this hybrid power plant requires a battery as a storage medium and a controller as a regulator. There is a controller designed for the direct control type, where the electrical energy from the power plant to the hybrid source will not be directly channeled to the battery but through the MOSFET first, so that charging and disbursement of power consumption on the battery can be regulated. When the battery is fully charged, the system voltage controller will read the parameters to be adjusted and will disconnect the hybrid power source to the battery to prevent overcharge. The controller switches and regulates battery power usage to the load. The battery charging control system uses the PWM method using a MOSFET as the driving circuit and the ATMega 32 microcontroller as the system controller.
Tahun	:	2021	Media Publikasi	:	Jurnal Internasional
Kategori	:	Jurnal	No/Vol/Tahun	:	1 / 54 / 2021
ISSN/ISBN	:	-
PTN/S	:	Universitas Pakuan	Program Studi	:	TEKNIK ELEKTRO
Bibliography	:	[1] Suryadi, A., Asmoro, P., Solihin, A. (2019). Hybrid electric power plant using wind turbine savonius helix and solar cell as an alternative power source in the lightning tower at flashing lights. ADI Journal on Recent Innovation (AJRI), 1(1): 1-6. https://doi.org/10.34306/ajri.v1i1.3 [2] Suryadi, A. (2020). The implementation of turbine ventilator as an alternative power plant. ADI Journal on Recent Innovation (AJRI), 2(1): 180-185. https://doi.org/10.34306/ajri.v2i1.34 [3] Suryadi, A., Nugroho, E.A., Asmoro, P. (2019). Utilization of speed bump as an alternative energy power plant. Proceedings TEKNOKA, 4: E20-E24. https://doi.org/10.22236/teknoka.v4i0.4168 [4] Suryadi, A., Asmoro, P., Raihan, R. (2019). Utilization of ventilator turbine as alternative power plant. Proceedings TEKNOKA, 4: E15-E19. https://doi.org/10.22236/teknoka.v4i0.4124 [5] Suryadi, A., Ahmad, S., Munthe, B. (2020). Utilization of Savonius hybrid solar cell wind turbines as remote area power plants. Proceedings SNTE, 5(1): 13-17. [6] Ministry of Energy and Mineral Resources. (2016). Strategic Program for EBTKE and Electricity. Jakarta. [7] Andrianto, H. (2013). Atmega 16 AVR Microcontroller safe programming using C language (CodeVision AVR), Informatics, Bandung. https://openlibrary.telkomuniversity.ac.id/pustaka/1033 09/pemrograman-mikrokontroler-avr-atmega16- menggunakan-bahasa-c-codevisionavr-revisikedua.html [8] Yosef, Y. (2018). Control battery charger for solar panels or windmill generators, yogyakarta. Sanata Dharma University. https://repository.usd.ac.id/32494/2/135114046_full.pdf [9] Koulali, M., Mankour, M., Negadi, K., Mezouar, A. (2019). Energy management of hybrid power system PV wind and battery based three-level converter. Tecnica Italiana-Italian Journal of Engineering Science, 63(2-4): 297-304. https://doi.org/10.18280/ti-ijes.632-426 [10] Boxwell, M. (2017). Solar Electricity Handbook 11 Edition. United Kingdom: Greenstream Brimingham. 11, and 12-13. [11] Rachman, A., Pratiwi, P., Ashari, L. (2019). Design and performance horizontal axis wind turbine taper type. Jurnal Teknik Mesin (JTM), 9(2): 58-63. [12] Yang, H., Lu, L., Zhou, W. (2007). A novel optimization sizing model for hybrid solar-wind power generation system. Solar Energy, 81(1): 76-84. http://dx.doi.org/10.1016/j.solener.2006.06.010 [13] Yin, Y., Luo, X., Guo, S., Zhou, Z., Wang, J. (2008). A battery charging control strategy for renewable energy generation systems. In Proceedings of the World Congress on Engineering, pp. 2-4. [14] Nehrir, M.H., Wang, C., Strunz, K., Aki, H., Ramakumar, R., Bing, J., Miao, Z., Salameh, Z. (2011). A review of hybrid renewable/alternative energy systems for electric power generation: Configurations, control, and applications. IEEE Transactions on Sustainable Energy, 2(4): 392-403. http://dx.doi.org/10.1109/TSTE.2011.2157540 [15] Palaha, F. (2017). Testing prototype home installation using A CS 758 based on arduino. Journal of STT Pekanbaru, 5(2): 67-74. http://dx.doi.org/10.35583/js.v5i2.122
URL	:	https://doi.org/10.18280/jesa.540114