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NIT Rourkela's Green Breakthrough: Smart Microgrid Powers Rural India

Researchers at NIT Rourkela have created an innovative hybrid microgrid system that brings reliable electricity to rural areas without grid access. This smart control system automatically manages power from solar, wind, and battery sources to ensure continuous supply. The technology addresses fluctuations in renewable energy by seamlessly coordinating different power sources throughout the day. This breakthrough provides clean, affordable energy solutions while supporting sustainable development in remote communities.

Key Points: NIT Rourkela Smart Hybrid Microgrid for Rural Green Energy

  • Smart system automatically manages electricity flow from multiple renewable sources
  • Dynamic Power Management Scheme coordinates solar, wind, and battery storage seamlessly
  • Provides approximately 10 kWh of dependable energy for four rural households
  • Reduces fossil fuel dependence while enhancing energy security in remote areas
  • Enables greater battery storage capacity with longer lifespan and lower costs
2 min read

NIT Rourkela's smart hybrid microgrid to ensure green energy supply in rural areas

NIT Rourkela researchers develop smart hybrid microgrid using solar, wind, and battery power to provide continuous electricity to remote rural areas without grid access.

"Energy management techniques in renewables-integrated microgrids provide social benefits by ensuring reliable electricity access, especially in remote communities. - Prof. Arnab Ghosh and Prof. Krishna Roy"

New Delhi, Oct 24

Researchers from the National Institute of Technology (NIT) Rourkela have developed a smart control system that can automatically manage the electricity flow from solar, wind, and battery sources.

This innovative "hybrid microgrid" can deliver a clean and continuous power supply to areas in the countryside that have no access to the main electric power grid, and even during fluctuating solar radiation, changing wind speeds, and varying electrical loads.

The research, published in the journal IEEE Transactions on Industry Applications, aims to reduce the potential use of fossil fuel reserves and provide power to remote regions that are not covered by the main electricity grid.

“This work focuses on power management among different sources, loads, and storage systems. Energy management techniques in renewables-integrated microgrids provide social benefits by ensuring reliable electricity access, especially in remote communities. They promote sustainable development, create local employment opportunities, and improve living standards,” said Prof. Arnab Ghosh and Prof. Krishna Roy, Assistant Professors, Department of Electrical Engineering, NIT Rourkela.

"Additionally, they reduce dependence on fossil fuels, enhance energy security, and support community resilience through cleaner, affordable, and more equitable energy solutions,” the team added.

To address the issue of fluctuations, researchers developed a dynamic Power Management Scheme (PMS) that enables all energy producers and storage units to coordinate seamlessly.

This controlling technique allows the batteries to store energy safely and efficiently, enabling greater storage capacity and longer battery life, while reducing overall expenditures.

By automatically switching converters according to the most readily available resources, solar in the morning, and wind, Biomass Gasifier (BMG), and Pico Hydropower (PH) during the rest of the day, the system ensures that the active power flow is balanced across different loads.

This multi-source converter-based hybrid setup can provide an effective solution for the needs of remote communities and can be a source of approximately 10 kWh of dependable energy, sufficient for four households in rural areas.

- IANS

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Reader Comments

R
Rohit P
Great initiative by NIT Rourkela! The 10 kWh capacity for 4 households sounds promising. Hope this gets implemented across tribal areas where electricity access is still a dream.
D
David E
Impressive research! The dynamic Power Management Scheme addressing fluctuations is crucial. Similar technology could benefit remote communities worldwide. Well done, professors!
A
Ananya R
While the technology sounds excellent, I hope the implementation considers local maintenance capabilities. Many such projects fail because villagers can't maintain complex systems. Proper training is essential.
V
Vikram M
Combining solar, wind, biomass AND pico hydro - that's comprehensive! This could be a game-changer for hilly regions where conventional grid extension is challenging and expensive.
S
Sarah B
The local employment opportunities mentioned are crucial. Green energy projects should empower communities economically, not just provide electricity. Hope this model gets scaled up!

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