Management Model for Biogas Production from Wastewater of Natural Rubber Processing at Community Level

Authors

  • Vivat Keawdounglek
  • Wisakha Phoochinda
  • Warangkana Sornil

Keywords:

Factor priority, Waste-to-energy, Renewable energy management

Abstract

This study aimed to examine factors affecting the management of biogas production from wastewater of natural rubber processing at the community level, and to develop a management model. The methodologies consisted of a literature review on the factors affecting biogas management and the area based on in-depth interviews with three cooperatives of rubber sheet production in Songkhla Province. The data was summarized to find the key factors and criteria. These factors and criteria were prioritized using the analytical hierarchy process (AHP) to conclude the management model. As a result, there are five key factors including the environmental aspect, social aspect, health impact, economical aspect, and technological aspect respectively. In addition, collaboration with relevant sectors to prevent problems concerning biogas operation and maintenance, biogas funding, and the biogas utilization in the future must be promoted.

Author Biography

Vivat Keawdounglek

Department of Environmental Health 

School of Health Science

References

B.P. (2015). BP Statistic Review of World Energy. United Kingdom: BP.

Energy Policy and Planning Office. (2015). Energy Statistic of Thailand 2015. Bangkok: Energy Policy and Planning Office.

Bond, T., & Templeton, M. R. (2011). History and future of domestic biogas plants in the developing world. Energy for Sustainable Development. 15(4). 347-354.

Vivat Keawdounglek, Chamlong Poboon, Wisakha Phoochinda, & Warangkana Sornil. (2011). Application of clean technology for reduction of wastewater from unsmoked rubber sheet production: a case study of Khaochamao district, Rayong province. The Public Health Journal of Burapha University, 6(1), 1-10.

Wikanda Thongnueakhaeng and Usa Onthong. (2010). Treating wastewater and producing biogas from rubber sheet production process wastewater. Paper presented at The 3rd Technology and Innovation for Sustainable Development International Conference, Thailand.

Waraporn Khachornchikul. (2011). Rubber production: process and technology. Bangkok: The Thailand Research Fund.

Munier, N. (2011). A Strategy for using multi-criteria analysis in decision-making: A guide for simple and complex environmental project. New York: Springer.

Saaty, R.W. (1987). The analytic hierarchy process: what it is and how it is used. Math Modelling, 9(3-5), 161-176.

Daim, T.U., Li,X., Kim, J. & Simms, S. (2012). Evaluation of energy storage technologies for integration with renewable electricity: Quantifying expert opinions. Environmental Innovation and Societal Transitions, 3, 29-49.

Mourmouris, J.C. & Potolias, C. (2013). A multi-criteria methodology for energy planning and developing renewable energy sources at a regional level: A case study Thassos, Greece.

Energy Policy, 52, 522-530.

Davoudpour, H., Rezaee, S. & Ashrafi, M. (2012). Developing a framework for renewable technology portfolio selection: A case study at a R&D center. Renewable and Sustainable Energy Reviews, 16(6), 4291-4297.

Bale, C. S. E., Foxon, T. J., Hannon, M. J., & Gale, W. F. (2012). Strategic energy planning within local authorities in the UK: A study of the city of Leeds. Energy Policy, 48, 242-251.

Ruggiero, S., Onkila, T., & Kuittinen, V. (2014). Realizing the social acceptance of community renewable energy: A process-outcome analysis of stakeholder influence. Energy Research & Social Science, 4, 53-63.

Scaglia, B., D’Imporzano, G., Garuti, G., Negri, M., & Adani, F. (2014). Sanitation ability of anaerobic digestion performed at different temperature on sewage sludge. Science of The Total Environment, 466-467, 888-897.

McSwane, D., Rue, N.R., & Linton, R. (2005). Essential of food safety and sanitation (4th ed.). New jersey: Pearson Education.

Downloads

Published

2018-05-01

How to Cite

Keawdounglek, V., Phoochinda, W., & Sornil, W. (2018). Management Model for Biogas Production from Wastewater of Natural Rubber Processing at Community Level. Journal of Renewable Energy and Smart Grid Technology, 13(1). Retrieved from https://ph01.tci-thaijo.org/index.php/RAST/article/view/65157

Issue

Vol. 13 No. 1 (2018): January-June 2018

Section

Articles

License

All copyrights of the above manuscript, including rights to publish in any media, are transferred to the SGtech.

The authors retain the following rights;

            1. All proprietary rights other than copyright.

            2. Re-use of all or part of the above manuscript in their work.

            3. Reproduction of the above manuscript for author’s personal use or for company/institution use provided that

            (a) prior permission of SGtech is obtained,

            (b) the source and SGtech copyright notice are indicated, and

            (c) the copies are not offered for sale.