OPTIMIZATION OF A HYBRID WIND-PV WATER PURIFICATION SYSTEM WITH REDUCED PART COUNT USING INDUCTION MOTOR (IM) PUMP AND SEIG TECHNOLOGY

Krishana Karak; Amar Saraswat; Madhumala G

OPTIMIZATION OF A HYBRID WIND-PV WATER PURIFICATION SYSTEM WITH REDUCED PART COUNT USING INDUCTION MOTOR (IM) PUMP AND SEIG TECHNOLOGY

Authors

Krishana Karak Sandip University (Sijoul)
Amar Saraswat K.R. Mangalam University, Gurugram, Haryana, INDIA
Madhumala G Sri Siddhartha Academy of Higher Education

Keywords:

Engineering, Water Pumping System, Life Cycle Cost

Abstract

The need for renewable sources of energy for water pumping due to the growing global population and the associated increase in demand for water and power. The use of traditional sources of energy such as fossil fuels results in greenhouse gas emissions and increases the life cycle cost of pumps. Recent advancements in power electronics and drives have made renewable sources such as solar photovoltaic and wind power more accessible and affordable for use in water pumping systems. The primary objective of this research is to focus on the efficient operation and administration of a freestanding hybrid Wind-PV Water Purification System that utilizes an Induction Motor (IM) pump with a decreased part count. The study will concentrate on the performance of a solar photovoltaic (PV) fed boost converter and a bidirectional Voltage Source Converter (VSC) aided SEIG based Wind Energy Conversion System (WECS). The results of this research will contribute to the reduction of greenhouse gas emissions and the life cycle cost of water pumping systems. In order to make greater use of renewable energy sources, the primary objective of this research endeavor is to concentrate on the efficient operation and administration of a freestanding hybrid Wind-PV Water Purification System (WPS) that utilizes an Induction Motor (IM) pump with a decreased part count. In order to discuss the four significant contributions that this thesis makes, the issue statement that was described earlier is dissected into a solar PV fed boost converter and a bidirectional Voltage Source Converter (VSC) aided SEIG based Wind Energy Conversion System (WECS).

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OPTIMIZATION OF A HYBRID WIND-PV WATER PURIFICATION SYSTEM WITH REDUCED PART COUNT USING INDUCTION MOTOR (IM) PUMP AND SEIG TECHNOLOGY