TY - GEN
T1 - Combining Stand Alone PV Rooftop, Small Scale PHS, Rainfall Storage Systems for Increasing Electric Power Production based on Hybrid Pumping Technique
AU - Musafa, Akhmad
AU - Priyadi, Ardyono
AU - Lystianingrum, Vita
AU - Pujiantara, Margo
AU - Anam, Sjamsjul
AU - Purnomo, Mauridhi Hery
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2021/9/29
Y1 - 2021/9/29
N2 - This paper proposed modified of the standalone PV-small scale PHS system design and operational method based on hybrid pumping technique in high rise building application. The objective of the proposed design and operational method are to increase the electric power production of the PV-small scale PHS system. Modification of the PV-small scale PHS system is carried out on the upper reservoir which is designed to have a rainfall storage system. SOC operations can be carried out with this design by combining the pumping process with PV power (when sunny or cloudy conditions) and PHS generator power (when rainy conditions or night). All components are modeled, and confirmation this design using a simulation program. The feasibility analysis of this design will be evaluated using the Loss Power Supply Probability (LPSP) method. Based on the system design, three pumping techniques can be combined and six methods of filling the upper reservoir. The simulation result shows that the PV-PHS system can increase the production of stored power about 22.44% and electric energy about 35.53% (daily simulation) and 45.69% (weekly simulation). For electrical energy generated increased by 35.53% (daily simulation) and 56.59% (weekly simulation).
AB - This paper proposed modified of the standalone PV-small scale PHS system design and operational method based on hybrid pumping technique in high rise building application. The objective of the proposed design and operational method are to increase the electric power production of the PV-small scale PHS system. Modification of the PV-small scale PHS system is carried out on the upper reservoir which is designed to have a rainfall storage system. SOC operations can be carried out with this design by combining the pumping process with PV power (when sunny or cloudy conditions) and PHS generator power (when rainy conditions or night). All components are modeled, and confirmation this design using a simulation program. The feasibility analysis of this design will be evaluated using the Loss Power Supply Probability (LPSP) method. Based on the system design, three pumping techniques can be combined and six methods of filling the upper reservoir. The simulation result shows that the PV-PHS system can increase the production of stored power about 22.44% and electric energy about 35.53% (daily simulation) and 45.69% (weekly simulation). For electrical energy generated increased by 35.53% (daily simulation) and 56.59% (weekly simulation).
KW - PV rooftop system
KW - hybrid pumping technique
KW - pumped hydro storage
KW - rainfall storage system
KW - small scale
UR - http://www.scopus.com/inward/record.url?scp=85119998939&partnerID=8YFLogxK
U2 - 10.1109/IES53407.2021.9594041
DO - 10.1109/IES53407.2021.9594041
M3 - Conference contribution
AN - SCOPUS:85119998939
T3 - International Electronics Symposium 2021: Wireless Technologies and Intelligent Systems for Better Human Lives, IES 2021 - Proceedings
SP - 47
EP - 54
BT - International Electronics Symposium 2021
A2 - Yunanto, Andhik Ampuh
A2 - Kusuma N, Artiarini
A2 - Hermawan, Hendhi
A2 - Putra, Putu Agus Mahadi
A2 - Gamar, Farida
A2 - Ridwan, Mohamad
A2 - Prayogi, Yanuar Risah
A2 - Ruswiansari, Maretha
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 23rd International Electronics Symposium, IES 2021
Y2 - 29 September 2021 through 30 September 2021
ER -