Difference between revisions of "Off-grid Rural Area Electrification by Solar-Diesel Hybrid Mini-grid in Bangladesh: Design Considerations"
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Presenters: '''Shahriar Ahmed Chowdury, '''(Center for Energy Research, United International University) | Presenters: '''Shahriar Ahmed Chowdury, '''(Center for Energy Research, United International University) | ||
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| + | Rapporteur: '''Katie McCloskey''' | ||
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| [[File:Off-grid Rural Area Electrification by Solar Diesel Hybrid Minigrid in Bangladesh Design Considerations.pdf|border|right|250px|File:Off-grid Rural Area Electrification by Solar Diesel Hybrid Minigrid in Bangladesh Design Considerations.pdf|alt=File:Experience from First Solar Mini Grid Service in Bangladesh.pdf]] | | [[File:Off-grid Rural Area Electrification by Solar Diesel Hybrid Minigrid in Bangladesh Design Considerations.pdf|border|right|250px|File:Off-grid Rural Area Electrification by Solar Diesel Hybrid Minigrid in Bangladesh Design Considerations.pdf|alt=File:Experience from First Solar Mini Grid Service in Bangladesh.pdf]] | ||
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| + | == Main Topics Discussed == | ||
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| + | *Battery management has proven to be the most important part of the Solar-diesel hybrid mini-grid project | ||
| + | *Emphasize potential for daytime load increase (does not require storage) by shutting down feeders during night time <br/> | ||
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| + | <br/> | ||
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| + | == Questions/Comments Posed == | ||
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| + | *Understanding the local dynamics is of critical importance; you must design a system that fits the local needs | ||
| + | *Is technology or financing a major challenge? | ||
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| + | [[Category:Hybrid_Systems]] | ||
| + | [[Category:Mini-grid]] | ||
| + | [[Category:Photovoltaic]] | ||
| + | [[Category:Solar]] | ||
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Revision as of 13:47, 30 April 2014
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Off-grid Rural Area Electrification by Solar-Diesel Hybrid Mini-grid in Bangladesh: Design Considerations
Presenters: Shahriar Ahmed Chowdury, (Center for Energy Research, United International University)
Rapporteur: Katie McCloskey
Overview
| Bangladesh is experiencing the most successful solar home system based rural electrification program. So far the program has installed more than 3 million SHS in rural areas of Bangladesh. The SHS can provide electricity to rural areas for 4 to 5 hours to operate basic loads like lighting, mobile phone charging, B/W TV etc. The SHS can hardly contribute to productive commercial activities in rural off grid areas. In the rural areas loads are sparsely distributed and demand of energy is at a barely minimum. So, it is not economically viable to extend the national grid to the remote off grid areas. Also in the island areas the grid extension is not economically feasible. Electricity access in rural Bangladesh is less than 40%. It is the common tendency of the rural people to live in clustered households. These paved the options for electrification of off grid areas with small standalone solar PV mini-grids, considering that Bangladesh has moderate solar insolation. One of the challenges of developing mini-grids is the storage system management. Incorporation of a small diesel generator not only reduces the requirement of storage system but can also provide energy in low insolation days, thus reduces the requirement of autonomy days. This paper highlights the technical design consideration for developing solar-diesel hybrid mini-grids in off grid rural areas of Bangladesh[1]. |  |
Main Topics Discussed
- Battery management has proven to be the most important part of the Solar-diesel hybrid mini-grid project
- Emphasize potential for daytime load increase (does not require storage) by shutting down feeders during night time
Questions/Comments Posed
- Understanding the local dynamics is of critical importance; you must design a system that fits the local needs
- Is technology or financing a major challenge?
References
- ↑ Off-grid Rural Area Electrification by Solar-Diesel Hybrid Mini-grid in Bangladesh: Design Considerations. Shahriar Ahmed Chowdhury, Shakila Aziz.
