This study was aimed to determine biogas amount and the energy value which could be made from animal manure in Turkey. For this purpose, biogas potential was calculated with the number of dairy cattle and laying hens taking into consideration, which have high availability manure. Turkey has a total of about 8.9 million dairy cattle and 98 million laying hens. Annual total 92.1 million tons of manure is obtained from these animals. There are 89.2 million tons of cattle manure and 2.9 million tons of laying hens manure. Annual 1.6 billion m3 of biogas can be produced from the usable amount of this manure. The heating value of biogas produced from this manure is about 36.7 PJ. These values can provide 1.1% of Turkey’s annual energy consumption (80.5 Mtoe). The distribution of these calculated data by province was mapped using a GIS Software’s mapping option. When provinces are ranked according to the amount of biogas production, the top 10 are Konya, Erzurum, İzmir, Balıkesir, Kars, Afyon, Diyarbakır, Aydın, Ankara and Ağrı. Furthermore, the greenhouse gas (GHG) emission abatement was calculated for demonstrating the environmental benefits of the biogas production from animal manure. It was determined that the CO2 emission abatement annually ranging between 17.2-25.3 million tons could be provided with the evaluation of biogas potential which was calculated.
Keywords: biogas, biogas production potential, animal manure, GHG emission, Turkey
DOI: 10.25165/j.ijabe.20181103.3445

Citation: Cengiz K. Determination of biogas production potential from animal manure and GHG emission abatement in Turkey. Int J Agric & Biol Eng, 2018; 11(3): 205–210.

biogas, biogas production potential, animal manure, GHG emission, Turkey

Karaca C. Mapping of energy potential through annual crop residues in Turkey. Int J Agric & Biol Eng, 2015; 8(2): 104–109.

Al Seadi T, Rutz D, Prassl H, Köttner M, Finsterwalder T, Volk S, et al. Biogas handbook. University of Southern Denmark Esbjerg, Denmark, 2008.

Møller H B, Nielsen A M, Murto M, Christensson K, Rintala J, Svensson M, et al. Manure and energy crops for biogas production: Status and barriers, Nordic Council of Ministers, Copenhagen, Denmark, 2008.

Zhu G, Li J, Jha A K. Anaerobic treatment of organic waste for methane production under psychrophilic conditions. Int. J. Agric. Biol., 2014; 16: 1025–1030.

Kulišić B, Par V. Agricultural potential for biogas production in Croatia. Agriculturae Conspectus Scientificus, 2009; 74(3): 215–220

MENR (Ministry of Energy and Natural Resources). Turkey’s energy profile and strategy, 2015. Available: www.enerji.gov.tr. Accessed on [2017-4-23]

Akbay C, Boz I. Turkey’s livestock sector: Production, consumption and policies. Livestock Research for Rural Development, 2005; 17(9).

TUIK (Turkish Statistical Institute). Livestock statistics: All province of Turkey, 2015.

Başçetinçelik A, Karaca C, Öztürk H H, Kacıra M, Ekinci K. Agricultural biomass potential in Turkey. Proceedings of the 9th International Congress on Mechanization and Energy in Agriculture & 27th International Conference of CIGR Section IV: The Efficient Use of Electricity and Renewable Energy Sources in Agriculture, İzmir-Turkey, 2005; 195–99.

Başçetinçelik A, Öztürk H H, Karaca C, Kacıra M, Ekinci K, Kaya D, et al. Final Report of Exploitation of Agricultural Residues in Turkey. AGRO-WASTE - Exploitation of Agricultural Residues in Turkey. EU Life Program Project, Project No: LIFE03 TCY/TR/000061. 2006.

Ozsoy G, Alibas I. GIS mapping of biogas potential from animal wastes

in Bursa, Turkey. Int J Agric & Biol Eng, 2015; 8(1):74–83.

Clarke Energy. CHP efficiency for biogas, 2016. Available: ttps://www.clarke-energy.com/2013/chp-cogen-efficiency-biogas/ Accessed on [2016-6-20]

IPCC (Intergovernmental Panel on Climate Change). Guidelines for national greenhouse gas inventories, V4: Agriculture, forestry and other land use, Chapter 10: Emissions from Livestock and Manure Management, 2006.

Guo L. Potential of biogas production from livestock manure in China: GHG emission abatement from ‘manure-biogas-digestate’ system. Department of Energy and Environment, Division of Energy Technology, Chalmers University of Technology Göteborg, Sweden, 2010.

Avcioğlu Onurbaş A, Türker U. Status and potential of biogas energy from animal wastes in Turkey. Renewable and Sustainable Energy Review, 2012; 16(3): 1557–1561.

Danish Ecological Council. Biogas in Denmark - A potential energy source with benefits for the environment. 2012. Available: http://www.ecocouncil.dk/documents/publikationer/1081-120906-biogas-in-denmark Accessed on [2017-3-22]

Grzelak P L, Gis W, Żółtowski A. Potential of biogas production in Poland, Germany and Sweden. 2012. Available: http://www.balticbiogasbus.eu/web/Upload/doc/Wakbrzych_3_July_2012/Grzelak.pdf Accessed on [2017-3-22].

Colonna N, Pignatelli V, Alfano V. The state of biogas in Italy potential, targets and strategies in the nREAP framework, Trasnational forum on biogas, Varsaw, 2011

Gadhia P. Biogas scenario in India. 2016. Available: http://www.eclareon.com/sites/default/files/09_prnsentation_pranav_excellent_renewable_-_dusseldorf_-_v2.pdf Accessed on [2017-3-22]

TUIK (Turkish Statistical Institute). Greenhouse gas emissions inventory in 2014, Bulletin, 2016. Available: www.tuik.gov.tr Accessed on [2017-3-22]