Economic Importance Of Environmental Development Of Bioenergy From Agriculture Residues And Environment

Year : 2024 | Volume :14 | Issue : 01 | Page : –

Abdeen Mustafa Omer

  1. Researcher Energy Research Institute (ERI) Nottingham UK


This communication discusses a comprehensive review of biomass energy sources, environment and sustainable development. This includes all the biomass energy technologies, energy efficiency systems, energy conservation scenarios, energy savings and other mitigation measures necessary to reduce emissions globally. The current literature is reviewed regarding the ecological, social, cultural and economic impacts of biomass technology. This study gives an overview of present and future use of biomass as an industrial feedstock for production of fuels, chemicals and other materials. However, to be truly competitive in an open market situation, higher value products are required. Results suggest that biomass technology must be encouraged, promoted, invested, implemented, and demonstrated, but especially in remote rural areas.

Keywords: Biomass resources, wastes, woodfuel, biofuels, energy, environment, sustainability related with bioenergy development, disperse systems formulation science, surfactant sciences

[This article belongs to Journal of Petroleum Engineering & Technology(jopet)]

How to cite this article: Abdeen Mustafa Omer. Economic Importance Of Environmental Development Of Bioenergy From Agriculture Residues And Environment. Journal of Petroleum Engineering & Technology. 2024; 14(01):-.
How to cite this URL: Abdeen Mustafa Omer. Economic Importance Of Environmental Development Of Bioenergy From Agriculture Residues And Environment. Journal of Petroleum Engineering & Technology. 2024; 14(01):-. Available from:


  1. Abdeen M. O. (2015). Utilisation of biomass for renewable bioenergy development, International Journal of Comprehensive Research in Biological Science, Vol.2, No.1, p. 1-28, India, January 2015.
  2. Abdeen, M. O. (2008a). Renewable building energy systems and passive human comfort solutions. Renewable and Sustainable Energy Reviews, 12(6), 1562-1587.
  3. Abdeen, M. O. (2008b). People, power and pollution. Renewable and Sustainable Energy Reviews, 12(7), 1864-1889.
  4. Abdeen, M. O. (2008c). Energy, environment and sustainable development. Renewable and Sustainable Energy Reviews, 12(9), 2265-2300.
  5. Abdeen, M. O. (2008d). Focus on low carbon technologies: The positive solution. Renewable and Sustainable Energy Reviews, 12(9), 2331-2357.
  6. Abdeen, M. O. (2008e). Chapter 10: Development of integrated bioenergy for improvement of quality of life of poor people in developing countries. In F. L. Magnusson & O. W. Bengtsson (Eds.), Energy in Europe: Economics, policy and strategy (pp. 341-373). New York, NY: NOVA Science Publishers.
  7. Abdeen, M. O. (2009a). Environmental and socio-economic aspect of possible development in renewable energy use. In Proceedings of the 4th International Symposium on Environment, Athens, Greece, 21-24 May 2009.
  8. Abdeen, M. O. (2009b). Energy use, environment and sustainable development. In Proceedings of the 3rd International Conference on Sustainable Energy and Environmental Protection (SEEP 2009), Paper No.1011, Dublin, Republic of Ireland, 12-15 August 2009.
  9. Abdeen, M. O. (2009c). Energy use and environmental: Impacts: A general review. Journal of Renewable and Sustainable Energy, 1(5), 1-29.
  10. Abdeen, M. O. (2009d). Chapter 3: Energy use, environment and sustainable development. In R. T. Mancuso (Ed.), Environmental cost management, (pp. 129-166). New York, NY: NOVA Science Publishers.
  11. Aladjadjiyan, A., and Kakanakov, R. (2008). The role of RES in future power supply of Bulgaria. 7th Balkan Power Conference, Sibenik, Croatia, 10-12 September 2008, Proceedings, ISBN 987-243-091-7, Published by University of Ljubljana, Ed. Andrej Gubina.
  12. Aladjadjiyan, A., Kakanakov, R. and Zahariev, A. (2010). Biomass energy resources in estimation and sustainable incorporation of biomass and other RES in municipal and national strategies for energy development, Scopie, 4.10.2010. Proceedings, pp 88-95.
  13. Aleksandar Z., Dimo, P., Anna, A. (2014). Biogas from animal manure-perspectives and barriers in Bulgaria, Annual Research and Review in Biology, 4(5): 709-719.
  14. Andrea, S., and Fernando, R. (2012). Identifying, developing, and moving sustainable communities through renewable energy, World Journal of Science, Technology and Sustainable Development, 9(4): 273-281.
  15. Aroyeun, S. O. (2009). Reduction of aflatoxin B1 and Ochratoxin A in cocoa beans infected with Aspergillus via Ergosterol Value. World Review of Science, Technology and Sustainable Development, 6(1), 75-90.
  16. Bacaoui, A., Yaacoubi, A., Dahbi, C., Bennouna, J., and Mazet, A. (1998). Activated carbon production from Moroccan olive wastes-influence of some factors. Environmental Technology 19: 1203-1212.
  17. Barton A. L. (2007). Focus on sustainable development research advances, (pp. 189-205). New York, NY: NOVA Science Publishers, Inc.
  18. Bessou, S. (2009). Biofuels, greenhouse gases and climate change. Agronomy for Sustainable Development, DOI: 10. 1051/agro/2009039.
  19. Bhutto A, Bazmi A, Zahwdi G (2011) Greener energy: issues and challenges for Pakistan – Biomass energy prospective. Renewable and Sustainable Energy Reviews, 15 (6): 3207-32-19.
  20. Brain, G., & Mark, S. (2007). Garbage in, energy out: Landfill gas opportunities for CHP projects. Cogeneration and On-Site Power, 8(5), 37-45.
  21. Cheng, R. (2010). Advanced biofuel technologies: status and barriers. World Bank Report, WPS5411.
  22. Cihan G, Dursun B, Bora A, Erkan S (2009) Importance of biomass energy as alternative to other sources in Turkey. Energy Policy, 37 (2): 424-431.
  23. D’Apote, S.L. (1998). IEA biomass energy analysis and projections. In: Proceedings of Biomass Energy Conference: Data, analysis and Trends, Paris: OECD; 23-24 March 1998.
  24. Duku, B. (2009). Comprehensive review of biomass resources and biofuels potential in Ghana. Renewable and Sustainable Energy Review, 15: 404-415.
  25. Erlich, P. (1991). Forward facing up to climate change, in Global Climate Change and Life on Earth. R.C. Wyman (Ed), Chapman and Hall, London.
  26. Hall O. and Scrase J. (1998). Will biomass be the environmentally friendly fuel of the future? Biomass and Bioenergy 15: 357-67.
  27. Jeremy, L. (2005). The energy crisis, global warming and the role of renewables. Renewable Energy World, 8(2).
  28. Kothari, D. P., Singal, K. C., Rakesh, Ranjan (2011). Renewable energy sources and emerging technologies, 2nd Edition, Private Ltd, New Delhi, 2011.
  29. Lattimore, B. (2009). Environmental factors in woodfuel production- opportunities, risks, and criteria and indicators for sustainable practices, Biomass and Bioenergy, 33: 1321-1342.
  30. Levine, M., & Hirose, M. (2005). Energy efficiency improvement utilising high technology: An assessment of energy use in industry and buildings. Report and Case Studies. London, UK: World Energy Council.
  31. Omer, A.M. (2006). Review: Organic waste treatment for power production and energy supply. Cells and Animal Biology 1 (2): 34-47.
  32. Omer, A.M. (2007). Renewable energy resources for electricity generation in Sudan. Renewable and Sustainable Energy Reviews 11: 1481-1497.
  33. Omer, A.M. (2008). Green energies and environment. Renewable and Sustainable Energy Reviews 12: 1789-1821.
  34. Omer, A.M., Yemen, F. (2003). Biogas energy technology in Sudan. Renewable Energy, 28 (3): 499-507.
  35. Pernille, M. (2004). Feature: Danish lessons on district heating. Energy Resource Sustainable Management and Environmental March/April 2004: 16-17.
  36. Robinson, G. (2007). Changes in construction waste management. Waste Management World, pp. 43-49. May-June 2007.
  37. Rossi, S., Arnone, S., Lai, A., Lapenta, E., and Sonnino, A. (1990). ENEA’s activities for developing new crops for energy and industry. In: Biomass for Energy and Industry (G. Grassi, G. Gosse, G. dos Santos Eds.). 1, pp.107-113, Elsevier Applied Science, London and New York.
  38. Rural Industries Research and Development Corporation (RIRDC). (2009). Sustainability production of bioenergy: a review of global bioenergy sustainability frameworks and assessment systems.
  39. Sims, R.H. (2007). Not too late: IPCC identifies renewable energy as a key measure to limit climate change. Renewable Energy World 10 (4): 31-39.
  40. Singh, A. (2008). Biomass conversion to energy in India: a critique. Renewable and Sustainable Energy Review, 14: 1367-1378.
  41. Wu, J. and Boggess, W. (1999). The optimal allocation of conservation funds. Journal Environmental Economic Management. 1999: 38.
  42. Zahariev, A., Kostadinova, Sv., and Aladjadjiyan, A. (2014). Composting municipal waste for soil re-cultivation in Bulgaria, International Journal of Plant and Soil Science, 3(2): 178-185.

Regular Issue Subscription Review Article
Volume 14
Issue 01
Received March 19, 2024
Accepted May 17, 2024
Published May 30, 2024