Production of biogas as an energy source in colder area, using flat plate thermal collector

Naqeeb Ullah Kakar; Jafar Khan Kasi; Ajab Khan Kasi; Samiullah Tareen

Research Article

Year 2018, Volume: 1 Issue: 2, 29 - 35, 20.11.2018

Naqeeb Ullah Kakar Jafar Khan Kasi Ajab Khan Kasi Samiullah Tareen

Abstract

References

[1]. Chen, X., Romano, R. T., & Zhang, R. (2010). Anaerobic digestion of food wastes for biogas production. International Journal of Agricultural and Biological Engineering, vol.3 no.4, p. 61-72.
[2]. Jabeen, M., Yousaf, S., Haider, M. R. & Malik, R. N. (2015). High-solids anaerobic co-digestion of food waste and rice husk at different organic loading rates. International Bio deterioration & Biodegradation, vol. 102, p.149-153
[3]. PEPA (Pakistan Environmental Protection Agency), 2005. Guideline for Solid Waste Management. Pakistan Environmental Protection Agency, Islamabad, Pakistan
[4]. Cheng, H., & Hu, (2010). Municipal solid waste (MSW) as a renewable source of energy: Current and future practices in China. Bio resource technology, vol.101 p.113816-3824.
[5]. Liu, X., GAO, X., Wang, W., Zheng, L., Zhou, Y., & Sun, (2012). YPilot-scale anaerobic co-digestion of municipal biomass waste: Focusing on biogas production and GHG reduction. Renewable energy, vol. 44 p.463-468
[6]. Solomon, S., Qin, D., Manning, M., Averyt, K., & Marquis, M. (Eds.). (2007). Climate change 2007-the physical science basis: Working group I contribution to the fourth assessment report of the IPCC (Vol. 4). Cambridge university press.
[7]. Karthikeyan, O. P., & Visvanathan, C. (2012). Effect of C/N ratio and ammonia-N accumulation in a pilot-scale thermophilic dry anaerobic digester. Bioresource Technology, vol. P. 113, 294-302.
[8]. Da Silva, E. J. (2010). Biogas Generation: Developments, Problems and Tasks (An Overview). Page this volume
[9]. Ren, Z., Chen, Z., Hou, L. A., Wang, W., Xiong, K., Xiao, X., & Zhang, W. (2012). Design investigation of a solar energy heating system for anaerobic sewage treatment. Energy Procedia, vol. 14, p. 255-259.
[10]. Nirunsin, R., Setthapun, W., Dussadee, N., & Ninsonti, H. (2017). Enhancement of household biogas production by solar collector and solar greenhouse. Journal of Renewable Energy and Smart Grid Technology, vol.12 no.1, p. 103-116.
[11]. Yuan, S., Rui, T., & Hong, Y. X. (2011). Research and analysis of solar heating biogas fermentation system. Procedia Environmental Sciences, vol.11, p. 1386-1391.
[12]. Uzodinma, E. O. U., Ofoefule, A. U., Eze, J. I., & Onwuka, N. D (2007). Optimum mesophilic temperature of biogas production from blends of agro-based wastes. Trends in Applied Sciences Research, vol. 2 no.1. P.39-44
[13]. Dioha, I. J., Eboatu, A. N., Sambo, A. S., & Birnin, K. A. M. (2006). Investigation of the effect of temperature on biogas production from poultry droppings and Neem tree leaves. Nig. J. Solar Energy, vol 16, p. 19-24.
[14]. James, L. W., Charles, C. R., Mirhd, S. S., & Smith, S. R. (1998). Handbook on biogas utilization. Georgia institute of Technology, Georgia.

Production of biogas as an energy source in colder area, using flat plate thermal collector

Year 2018, Volume: 1 Issue: 2, 29 - 35, 20.11.2018

Naqeeb Ullah Kakar Jafar Khan Kasi Ajab Khan Kasi Samiullah Tareen

Abstract

Biogas is a good source of renewable energy.
This research work has been done for the design, fabrication, and investigation
of a digester with solar thermal flat plate collector to heat slurry inside the
digester in order to maintain the temperature in appropriate range (37±2). For
production of continuous biogas in winter, a minimum temperature is required for
the slurry 7kg COD/m³ organic waste. The Hydraulic Retention time
for this research experiment was 12 days. Flat plat thermal collector is used
in this research to heat water and circulate it inside the digester. The hot
water is circulated by copper coils during the winter season. By adopting this
method the temperature of the slurry enhanced to required minimum temperature
and the production of biogas was continued through the whole year in the colder
area. The data collected from the experiment showed that using of flat plat
thermal solar collector is the appropriate method for heating slurry to produce
biogas through the whole year in the colder area in winter season.

Keywords

Biogas, thermal collector, slurry, digester, renewable energy, cow dung, food waste, bio mass

References

[1]. Chen, X., Romano, R. T., & Zhang, R. (2010). Anaerobic digestion of food wastes for biogas production. International Journal of Agricultural and Biological Engineering, vol.3 no.4, p. 61-72.
[2]. Jabeen, M., Yousaf, S., Haider, M. R. & Malik, R. N. (2015). High-solids anaerobic co-digestion of food waste and rice husk at different organic loading rates. International Bio deterioration & Biodegradation, vol. 102, p.149-153
[3]. PEPA (Pakistan Environmental Protection Agency), 2005. Guideline for Solid Waste Management. Pakistan Environmental Protection Agency, Islamabad, Pakistan
[4]. Cheng, H., & Hu, (2010). Municipal solid waste (MSW) as a renewable source of energy: Current and future practices in China. Bio resource technology, vol.101 p.113816-3824.
[5]. Liu, X., GAO, X., Wang, W., Zheng, L., Zhou, Y., & Sun, (2012). YPilot-scale anaerobic co-digestion of municipal biomass waste: Focusing on biogas production and GHG reduction. Renewable energy, vol. 44 p.463-468
[6]. Solomon, S., Qin, D., Manning, M., Averyt, K., & Marquis, M. (Eds.). (2007). Climate change 2007-the physical science basis: Working group I contribution to the fourth assessment report of the IPCC (Vol. 4). Cambridge university press.
[7]. Karthikeyan, O. P., & Visvanathan, C. (2012). Effect of C/N ratio and ammonia-N accumulation in a pilot-scale thermophilic dry anaerobic digester. Bioresource Technology, vol. P. 113, 294-302.
[8]. Da Silva, E. J. (2010). Biogas Generation: Developments, Problems and Tasks (An Overview). Page this volume
[9]. Ren, Z., Chen, Z., Hou, L. A., Wang, W., Xiong, K., Xiao, X., & Zhang, W. (2012). Design investigation of a solar energy heating system for anaerobic sewage treatment. Energy Procedia, vol. 14, p. 255-259.
[10]. Nirunsin, R., Setthapun, W., Dussadee, N., & Ninsonti, H. (2017). Enhancement of household biogas production by solar collector and solar greenhouse. Journal of Renewable Energy and Smart Grid Technology, vol.12 no.1, p. 103-116.
[11]. Yuan, S., Rui, T., & Hong, Y. X. (2011). Research and analysis of solar heating biogas fermentation system. Procedia Environmental Sciences, vol.11, p. 1386-1391.
[12]. Uzodinma, E. O. U., Ofoefule, A. U., Eze, J. I., & Onwuka, N. D (2007). Optimum mesophilic temperature of biogas production from blends of agro-based wastes. Trends in Applied Sciences Research, vol. 2 no.1. P.39-44
[13]. Dioha, I. J., Eboatu, A. N., Sambo, A. S., & Birnin, K. A. M. (2006). Investigation of the effect of temperature on biogas production from poultry droppings and Neem tree leaves. Nig. J. Solar Energy, vol 16, p. 19-24.
[14]. James, L. W., Charles, C. R., Mirhd, S. S., & Smith, S. R. (1998). Handbook on biogas utilization. Georgia institute of Technology, Georgia.

There are 14 citations in total.

Details

Primary Language	English
Subjects	Engineering
Journal Section	Original Research Articles
Authors	Naqeeb Ullah Kakar 0000-0003-3340-4506 Jafar Khan Kasi 0000-0003-3926-0806 Ajab Khan Kasi 0000-0002-9974-2287 Samiullah Tareen This is me 0000-0002-2062-5353
Publication Date	November 20, 2018
Acceptance Date	October 19, 2018
Published in Issue	Year 2018 Volume: 1 Issue: 2

Cite

APA	Kakar, N. U., Kasi, J. K., Kasi, A. K., Tareen, S. (2018). Production of biogas as an energy source in colder area, using flat plate thermal collector. Scientific Journal of Mehmet Akif Ersoy University, 1(2), 29-35.

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