From: A critical review on techno-economic analysis of hybrid renewable energy resources-based microgrids
Compound system combination | Methodology | Location | Observation |
---|---|---|---|
Photovoltaic–air current | Power management technique | Bombay | Through the effective integration of converters, hybrid systems maximize the use of solar and wind resources |
Photovoltaic–air current | Modified Particle Swarm Optimization | Jaipur | Compared to just a solo PV and wind system, the total cost of a hybrid system is lower |
Wind-solar thermal-PV-DEG-biomass-fuel cell | Genetic technique | Wadgaon, Maharashtra | A genetic algorithm is utilized to optimize the controller’s settling time, overshoot, and oscillations, and it produces better results than the traditional approach |
Photovoltaic–Bio | Economic assessment framework | Pipariya Khurd, MP | Power generation utilizing biomass has a lower per unit cost (PUC) and is advantageous for Madhya Pradesh's rural communities. The lowest PUC ranges from Rs. 4.1 to 5.7/kW/h |
Photovoltaic–Bio | Distributed generation technique | Wadgaon, Maharashtra | In contrast to grid extension, a hybrid system using gasifier systems, micro-hydro, dual fuel biomass, PV, and small wind electric generators is more advantageous for supplying power to remote areas with 20 families |
Photovoltaic–air current | Iterative approach | Pipariya Khurd, MP | The manufacturer's specifications serve as a guide for choosing the best system configuration for the specific site |
Air current–DC | Blade Element Momentum | Wadgaon, Maharashtra | Modeling of the load and wind speed uses predictable parameters. The load demand and windy zone affect energy prices |
Air current–DC | Power center technique | Chhota Bainan, West Bengal | The issue is resolved using the cost per peak watt and system balance as they apply to the West Bengali village |