Journal article
Galib Shahriar, Runa Ruksana Khan, Md. Shahiduzzaman, and Galib Hashmi
IST Journal on Business & Technology, vol. 8(1), 2017, pp. 58-64
IST Journal on Business & Technology, vol. 8(1), 2017, pp. 58-64
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APA
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Shahriar, G., Khan, R. R., Shahiduzzaman, M., & and Galib Hashmi. (2017). Technical Potential of Rooftop Solar Plant in Bangladesh. IST Journal on Business &Amp; Technology, 8(1), 58–64.
Chicago/Turabian
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Shahriar, Galib, Runa Ruksana Khan, Md. Shahiduzzaman, and and Galib Hashmi. “Technical Potential of Rooftop Solar Plant in Bangladesh.” IST Journal on Business & Technology 8, no. 1 (2017): 58–64.
MLA
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Shahriar, Galib, et al. “Technical Potential of Rooftop Solar Plant in Bangladesh.” IST Journal on Business &Amp; Technology, vol. 8, no. 1, 2017, pp. 58–64.
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@article{galib2017a,
title = {Technical Potential of Rooftop Solar Plant in Bangladesh},
year = {2017},
issue = {1},
journal = { IST Journal on Business & Technology},
pages = {58-64},
volume = {8},
author = {Shahriar, Galib and Khan, Runa Ruksana and Shahiduzzaman, Md. and and Galib Hashmi},
booktitle = {},
howpublished = {}
}
Abstract:
Technical potential of Grid-Tie rooftop power plant in Bangladesh is immense. From the technical, environmental, and economic perspectives, the solar panel is the best source of renewable energy power generation in Bangladesh. It is expected that the building’s rooftop solar plant can provide more than 6 Giga Watt electricity in Bangladesh. In a land shortage country like Bangladesh Grid-Tie rooftop power plant has the extensive potentiality to eradicate the electricity crisis. To see the potentiality, a 1360 W rooftop grid-tie solar plant has been implemented and its performance and cost-benefit analysis have been investigated. The solar power plant has been implemented at the Institute of Science and Technology, Dhaka, Bangladesh. After implementation, it is seen that a maximum of 1070.6 W is received by the solar panel and 118.8 kWh electricity was generated on the month of August 2016. Cost-benefit analysis shows that above 600 unit electricity consumption in an organization rooftop solar plant is very much profitable and the implementation cost can be recovered within 15 years.
Keywords: Power plant, Solar cell, Grid-Tie system, Electricity, and Sustainable future.
Technical potential of Grid-Tie rooftop power plant in Bangladesh is immense. From the technical, environmental, and economic perspectives, the solar panel is the best source of renewable energy power generation in Bangladesh. It is expected that the building’s rooftop solar plant can provide more than 6 Giga Watt electricity in Bangladesh. In a land shortage country like Bangladesh Grid-Tie rooftop power plant has the extensive potentiality to eradicate the electricity crisis. To see the potentiality, a 1360 W rooftop grid-tie solar plant has been implemented and its performance and cost-benefit analysis have been investigated. The solar power plant has been implemented at the Institute of Science and Technology, Dhaka, Bangladesh. After implementation, it is seen that a maximum of 1070.6 W is received by the solar panel and 118.8 kWh electricity was generated on the month of August 2016. Cost-benefit analysis shows that above 600 unit electricity consumption in an organization rooftop solar plant is very much profitable and the implementation cost can be recovered within 15 years.
Keywords: Power plant, Solar cell, Grid-Tie system, Electricity, and Sustainable future.
