BibTex RIS Cite

Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh

Year 2013, Volume: 3 Issue: 2, 347 - 352, 01.06.2013

Abstract

Climate change and energy crisis are the serious challenges that Bangladesh is facing at the moment. Energy situation in Bangladesh is extremely critical and its major power stations are run by natural gas and it’s reserve is now under threat if no new gas mine is identified. This acute electricity crisis along with the conventional fuel crisis is affecting every sector of the country and economy is being crippled. To reduce the dependency on fossil fuels, renewable energy like solar home system could play a vital role in this regards. In this paper, the cost, energy and emission of solar home systems installed in Bangladesh are analyzed. It has been found that around 1.4 million solar home systems are already installed by January 2013 in Bangladesh. Normally 40~85 Wp systems are mostly used in the rural user level. The cost of a 40 Wp system was around 24,000 BDT, whereas for a 85 Wp system, the cost was 45,000 BDT. Average value of payback period was 4.2 years and varied from 3.1 to 6.5 years. On the other hand, NPV varies 34,500 BDT to 14800 BDT. Total primary energy requirement for a 50Wp in its total life of 20 years is 4593 MJth. This gives around 253 kg of CO2 emission. Whereas, a 50 Wp SHS supplies around 11773 MJth of Energy in 20 years.  Energy payback was found to be 7.80 years. The total CO2 emission reduction was 11604 kg in 20 years.

References

  • World Energy Outlook. The Electricity Access Database. www.iea.org, Accesssed on 26th May 2012.
  • Energy Bangla, http://www.energybangla.com/, Accessed on 5th February 2013. Bangladesh Power Development (BPDB), www.bpdb.gov.bd, Accesssed on 26th May 2012.
  • Islam, M.R, Islam, M,R and M.R.A. Beg, “Renewable energy Bangladesh”. Renewable and Sustainable Energy Review, 2008, 12 (2), pp. 299-343. Practice in
  • Infrastructure Development Company Limited (IDCOL), Bangladesh. http://www.idcol.org, Accesssed on 2nd Feb 2013. with SHS's installation
  • Urmee T., Harries D. Determinants of the success and sustainability of Bangladesh’s SHS program. Journal of Renewable Energy, 2011, 36, pp. 2822-2830.
  • Laufer D, Schäfer M, “The implementation of Solar Home Systems as a poverty reduction strategy-A case study in Sri Lanka”. Energy for sustainable Development, , 15 (3), pp. 330-336. Chowdhury S.A., Mourshed M., Kabir S.M.R., Islam M., Morshed T., Khan M.R. and Patwary M.N., “Technical appraisal of solar home systems in Bangladesh: A field investigation”. Renewable Energy,2011, 36, pp. 772-778.
  • Chakrabarty S., Islam T., “Financial viability and eco- efficiency of the solar home systems (SHS) in Bangladesh”, Energy 2011,36 (8), pp. 4821-4827.
  • Mondal A.H., “Economic viability of solar home systems: Case study of Bangladesh. Renewable Energy”, , 35, pp. 1125-1129.
  • Chaurey A. and Kandpal T.C., “Assessment and evaluation electrification”, Sustainable. Energy Reviews, 2010, 14 (8), 2266- 2278. overview. rural and Renewable
  • IPCC, Intergovernmental Panel for Climate Change, IPCC guidelines for national greenhouse gas inventories, Reference Manual (Volume 3), 1994 and revised 1996
  • Chaurey A. and Kandpal T.C., “Carbon abatement potential of solar home systems in India and their cost reduction due to carbon finance”, Journal of Energy Policy, 2009, 37(1), 115-125.
  • Cabraal A, Cosgrove-Davies M, and Loretta SL , Best practices for photovoltaic household electrification programs: Lessons from experiences in selected countries. World Bank Technical Paper 324, World Bank: Washington, DC, 1996
  • Chowdhury S.A., Kabir S.M.R. and Islam S.M.M., Siddique R. H., Saroar A.T.M. G., “Performance of Solar Home Systems in Rural Bangladesh”, 1st International Conference on the Developments in Renewable Energy Technology (ICDRET'09), Dhaka, Bangladesh. IEEE: Explore Digital Library, pp. 1-5, 2009.
  • GS Solar Home System Program, Grameen Shakti, Bangladesh. www.gshakti.org, 2012. Accesssed on 26th May 2012. World Bank. http://www.worldbank.org.bd, 2012. Accesssed on 26th May 2012 Bangladesh,
  • Alsema E. A, Energy requirement and CO2 mitigation potential of PV systems, PV and the Environment 1998, BNL/NREL Workshop, Keystone, CO, USA, 23-24 July 1998
  • Twedell T, Analysis of the photovoltaic roof on the engineering building at The University of Reading, M.Sc thesis, University of Reading (1999), pp-42.
  • Morningstar, Morningstar Corporation, Products, http://www.ecodirect.com/Morningstar-SunSaver-SS-10- V-10-Amp-12-Volt-p/morningstar-sunsaver-ss-10- v.htm, Accessed on 5th Feb 2013.
  • Wheldon AE, Bently RW, Whitfield GR, Tweddel T and Weatherby CK, Payback times for energy and carbon dioxide: concentrating PV systems, Proceedings of the 16th European Glasgow, May 2000. of concentrating and non- Photovoltaic Solar energy Conference,
Year 2013, Volume: 3 Issue: 2, 347 - 352, 01.06.2013

Abstract

References

  • World Energy Outlook. The Electricity Access Database. www.iea.org, Accesssed on 26th May 2012.
  • Energy Bangla, http://www.energybangla.com/, Accessed on 5th February 2013. Bangladesh Power Development (BPDB), www.bpdb.gov.bd, Accesssed on 26th May 2012.
  • Islam, M.R, Islam, M,R and M.R.A. Beg, “Renewable energy Bangladesh”. Renewable and Sustainable Energy Review, 2008, 12 (2), pp. 299-343. Practice in
  • Infrastructure Development Company Limited (IDCOL), Bangladesh. http://www.idcol.org, Accesssed on 2nd Feb 2013. with SHS's installation
  • Urmee T., Harries D. Determinants of the success and sustainability of Bangladesh’s SHS program. Journal of Renewable Energy, 2011, 36, pp. 2822-2830.
  • Laufer D, Schäfer M, “The implementation of Solar Home Systems as a poverty reduction strategy-A case study in Sri Lanka”. Energy for sustainable Development, , 15 (3), pp. 330-336. Chowdhury S.A., Mourshed M., Kabir S.M.R., Islam M., Morshed T., Khan M.R. and Patwary M.N., “Technical appraisal of solar home systems in Bangladesh: A field investigation”. Renewable Energy,2011, 36, pp. 772-778.
  • Chakrabarty S., Islam T., “Financial viability and eco- efficiency of the solar home systems (SHS) in Bangladesh”, Energy 2011,36 (8), pp. 4821-4827.
  • Mondal A.H., “Economic viability of solar home systems: Case study of Bangladesh. Renewable Energy”, , 35, pp. 1125-1129.
  • Chaurey A. and Kandpal T.C., “Assessment and evaluation electrification”, Sustainable. Energy Reviews, 2010, 14 (8), 2266- 2278. overview. rural and Renewable
  • IPCC, Intergovernmental Panel for Climate Change, IPCC guidelines for national greenhouse gas inventories, Reference Manual (Volume 3), 1994 and revised 1996
  • Chaurey A. and Kandpal T.C., “Carbon abatement potential of solar home systems in India and their cost reduction due to carbon finance”, Journal of Energy Policy, 2009, 37(1), 115-125.
  • Cabraal A, Cosgrove-Davies M, and Loretta SL , Best practices for photovoltaic household electrification programs: Lessons from experiences in selected countries. World Bank Technical Paper 324, World Bank: Washington, DC, 1996
  • Chowdhury S.A., Kabir S.M.R. and Islam S.M.M., Siddique R. H., Saroar A.T.M. G., “Performance of Solar Home Systems in Rural Bangladesh”, 1st International Conference on the Developments in Renewable Energy Technology (ICDRET'09), Dhaka, Bangladesh. IEEE: Explore Digital Library, pp. 1-5, 2009.
  • GS Solar Home System Program, Grameen Shakti, Bangladesh. www.gshakti.org, 2012. Accesssed on 26th May 2012. World Bank. http://www.worldbank.org.bd, 2012. Accesssed on 26th May 2012 Bangladesh,
  • Alsema E. A, Energy requirement and CO2 mitigation potential of PV systems, PV and the Environment 1998, BNL/NREL Workshop, Keystone, CO, USA, 23-24 July 1998
  • Twedell T, Analysis of the photovoltaic roof on the engineering building at The University of Reading, M.Sc thesis, University of Reading (1999), pp-42.
  • Morningstar, Morningstar Corporation, Products, http://www.ecodirect.com/Morningstar-SunSaver-SS-10- V-10-Amp-12-Volt-p/morningstar-sunsaver-ss-10- v.htm, Accessed on 5th Feb 2013.
  • Wheldon AE, Bently RW, Whitfield GR, Tweddel T and Weatherby CK, Payback times for energy and carbon dioxide: concentrating PV systems, Proceedings of the 16th European Glasgow, May 2000. of concentrating and non- Photovoltaic Solar energy Conference,
There are 18 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

S.M. Najmul Hoque This is me

Barun Kumar Das This is me

Publication Date June 1, 2013
Published in Issue Year 2013 Volume: 3 Issue: 2

Cite

APA Hoque, S. N., & Das, B. K. (2013). Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh. International Journal Of Renewable Energy Research, 3(2), 347-352.
AMA Hoque SN, Das BK. Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh. International Journal Of Renewable Energy Research. June 2013;3(2):347-352.
Chicago Hoque, S.M. Najmul, and Barun Kumar Das. “Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh”. International Journal Of Renewable Energy Research 3, no. 2 (June 2013): 347-52.
EndNote Hoque SN, Das BK (June 1, 2013) Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh. International Journal Of Renewable Energy Research 3 2 347–352.
IEEE S. N. Hoque and B. K. Das, “Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh”, International Journal Of Renewable Energy Research, vol. 3, no. 2, pp. 347–352, 2013.
ISNAD Hoque, S.M. Najmul - Das, Barun Kumar. “Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh”. International Journal Of Renewable Energy Research 3/2 (June 2013), 347-352.
JAMA Hoque SN, Das BK. Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh. International Journal Of Renewable Energy Research. 2013;3:347–352.
MLA Hoque, S.M. Najmul and Barun Kumar Das. “Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh”. International Journal Of Renewable Energy Research, vol. 3, no. 2, 2013, pp. 347-52.
Vancouver Hoque SN, Das BK. Analysis of Cost, Energy and Emission of Solar Home Systems in Bangladesh. International Journal Of Renewable Energy Research. 2013;3(2):347-52.