Energy and Environmental Benefit of Solar Charging System for Charging Auto-Rickshaw in Developing Countries
Abstract - 228
PDF

Keywords

Energy
Auto-rickshaw
Developing country
Solar charging system
Environmental impact

How to Cite

1.
Uddin M, Rahman A, Mondol S. Energy and Environmental Benefit of Solar Charging System for Charging Auto-Rickshaw in Developing Countries. Glob. Environ. Eng. [Internet]. 2021 Dec. 24 [cited 2024 Nov. 28];8:46-54. Available from: https://avantipublishers.com/index.php/tgevnie/article/view/1102

Abstract

The energy crisis and environmental impact are the major concern mf the present world. Three-wheeler auto-rickshaw becoming an important passenger transport vehicle in a developing country which are indirectly powered by the grid electricity through the batteries. Such vehicle consumes significant grid energy during charging which increases the load in the national grid and put extra stress on the electrification in line with the environmental impact. This paper investigated the existing facilities for charging auto-rickshaw in Bangladesh and designed a proposed solar charging model as a replacement based on the existing model. Then the energy and environmental benefit were estimated to reflect the significance of the proposed model and contribution in the context of the global energy crisis and environmental impact. The investigation found that the daily energy consumption is 290 kWh for a charging station capacity of 30 auto-rickshaws which is significant. The proposed solar model is designed to meet this demand offset. The environmental analysis showed that the proposed model can offset CO2, CH4, and NOx emissions by 54 tCO2eq, 40 kgCO2eq, and 60 kgCO2eq per year respectively of which the contribution of CO is significant. Further research could be focused on the economic and financial analysis in-depth to promote the proposed model.

https://doi.org/10.15377/2410-3624.2021.08.4
PDF

References

Desai N. Searchlight South Asia: The Auto Rickshaw Diaries. The alternative India 2013; [updated August 2017]: Available from: https://www.thealternative.in/society/

Rian MZ, Rahman ANM. Study on power consumption and social aspects of battery-operated Auto-rickshaw. Proceedings to the International Conference on Mechanical, Industrial and Energy Engineering. Khulna, Bangladesh, 2014.

Joe Cackler, Emily Gu, and Mike Rodgers. Technology in developing economies, 2008. https://cs.stanford.edu/people/eroberts/cs181/projects/2007-08/developing-economies/

John A. Mathews. Developing countries and the renewable energy revolution, 2016. https://www.oecd.org/fr/dev/developing-countries-and-the-renewable-energy-revolution.htm

Mankar PM, Ghute AA. Solar-powered battery-operated electric vehicle as an option for fueled vehicle. Int J Eng Sci Res Technol 2015; 4(4): 425-429.

Ahmed SR, Zeshan SQ, Kamdod ASM. Solar rickshaw for sustainable energy future. Int J Curr Eng Scienti Res 2015; 2(12): 91-93.

Rian MZ, Rahman ANMM. Study on power consumption and social aspects of battery operated auto-rickshaw. International Conference on Mechanical, Industrial and Energy Engineering (ICMIME). Department of Mechanical Engineering,Khulna University of Engineering & Technology, Khulna, Bangladesh, 2014.

Rana MS, Hossain F, Roy SS, Mitra SK. Energy consumption by battery operated auto rickshaw. Daffodil Int Univ J Sci Technol 2013; 8(2): 71-76.

Shaha N, Uddin MB. Hybrid energy modeling for auto vehicles. International Conference on Mechanical, Industrial and Energy Engineering (ICMIME). Electrical and Electronics Engineering Department, Dhaka University of Engineering and Technology, Gazipur, Bangladesh, 2013.

Rahim MA, Joardder MUH, Hoque SMN, Rahman MM, Sumon NH. Socio-economic and environmental impacts of battery-driven auto-rickshaw at Rajshahi city in Bangladesh. International Conference on Mechanical, Industrial and Energy Engineering (ICMIME). Department of Mechanical Engineering, Rajshahi University of Engineering & Technology, Rajshahi, Bangladesh, 2013.

Nunes P, Figueiredo R, Brito MC. The use of parking lots to solar-charge electric vehicles. J Renewable and Sustainable Energy Rev 2016; 66(1): 679-693. https://doi.org/10.1016/j.rser.2016.08.015

Muzzammir M, Abdullah AMF. An Economic Analysis of Solar PV System in Bangladesh. Department of Electrical and Electronics Engineering, Daffodil International University, Bangladesh 2014; 1-87.

Bangladesh Power Development Board. Generation of power, November-2017. https://www.bpdb.gov.bd/

Darío RG, John DW, Branca BA, Chia H, Gregg M, Emmanuel M, et al. Stationary Combustion: Chapter 2. 2006 IPCC Guidelines for National Greenhouse Gas Inventories, 1-47.

Pachauri RK, Meyer L. Climate Change 2014 Synthesis Report. USA: IPCC, 2015.

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.

Copyright (c) 2021 Md. Uddin, A.Z.M. Rahman , Sumon Mondol