TY - GEN
T1 - Efficient Integration of BLDC Motors for Grid-Tied Solar PV Powered Water Pumping Sysytem
AU - Krishnan, Geethu
AU - Sitbon, Moshe
AU - Vellayikot, Shijoh
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - This article introduces an innovative methodology for enhancing bidirectional power flow control within grid-connected solar photovoltaic (PV)-fed water pumping systems. The proposed system integrates a brushless DC (BLDC) motor drive, presenting a departure from conventional water pump operations that typically require phase current sensors. This departure contributes to an efficient and reliable power flow control strategy, ensuring optimal utilization of the water pump's capacity even under varying weather conditions. A key feature of the proposed approach is its ability to redirect surplus energy generated by the PV array back into a singular-phase utility grid during non-operational periods. This optimization enhances the overall reliability of the system., ensuring continuous utilization of the water pump at its maximum capacity. The switching scheme adopted for the voltage source inverter (VSI) is PWM_ON_PWM., strategically designed to minimize torque ripples within the BLDC drive. This design choice contributes to the system's stability and performance during operation. Additionally, the implementation of bidirectional power flow control is achieved through a single-phase voltage source converter. This converter employs a unit vector template generation technique to adeptly manage power exchange between the grid and the DC bus of the VSI. This efficient control mechanism further enhances the overall reliability and adaptability of the system. The contributions outlined showcase a novel approach to bidirectional power flow control in solar PV -fed water pumping systems., emphasizing efficiency., reliability., and adaptability in various operational scenarios.
AB - This article introduces an innovative methodology for enhancing bidirectional power flow control within grid-connected solar photovoltaic (PV)-fed water pumping systems. The proposed system integrates a brushless DC (BLDC) motor drive, presenting a departure from conventional water pump operations that typically require phase current sensors. This departure contributes to an efficient and reliable power flow control strategy, ensuring optimal utilization of the water pump's capacity even under varying weather conditions. A key feature of the proposed approach is its ability to redirect surplus energy generated by the PV array back into a singular-phase utility grid during non-operational periods. This optimization enhances the overall reliability of the system., ensuring continuous utilization of the water pump at its maximum capacity. The switching scheme adopted for the voltage source inverter (VSI) is PWM_ON_PWM., strategically designed to minimize torque ripples within the BLDC drive. This design choice contributes to the system's stability and performance during operation. Additionally, the implementation of bidirectional power flow control is achieved through a single-phase voltage source converter. This converter employs a unit vector template generation technique to adeptly manage power exchange between the grid and the DC bus of the VSI. This efficient control mechanism further enhances the overall reliability and adaptability of the system. The contributions outlined showcase a novel approach to bidirectional power flow control in solar PV -fed water pumping systems., emphasizing efficiency., reliability., and adaptability in various operational scenarios.
KW - Brushless DC (BLDC) motor
KW - PWM_ON_PWM
KW - Solar photovoltaic (PV)
KW - voltage source inverter (VSI)
UR - http://www.scopus.com/inward/record.url?scp=85201522435&partnerID=8YFLogxK
U2 - 10.1109/CPE-POWERENG60842.2024.10604338
DO - 10.1109/CPE-POWERENG60842.2024.10604338
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AN - SCOPUS:85201522435
T3 - CPE-POWERENG 2024 - 18th International Conference on Compatibility, Power Electronics and Power Engineering, Proceedings
BT - CPE-POWERENG 2024 - 18th International Conference on Compatibility, Power Electronics and Power Engineering, Proceedings
A2 - Detka, Kalina
A2 - Gorecki, Krzysztof
A2 - Gorecki, Pawel
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 18th IEEE International Conference on Compatibility, Power Electronics and Power Engineering, CPE-POWERENG 2024
Y2 - 24 June 2024 through 26 June 2024
ER -