Abstract
Biogas can be obtained from agricultural, animal, and waste, replacing natural gas in heating systems. Because of that, studying its combustion characteristics will be valuable. This study investigates biogas combustion characteristics in a natural gas-powered heating system. Various CH4-CO2 biogas fuel mixtures were analyzed experimentally and numerically for a thermal power of 13 and 31 kW. In the experimental part of the study, the fuel mixtures were burned, and the temperature and the NOX were measured. The standard k-ε turbulence model and Eddy Dissipation Concept were used in the present study's numerical part. The model was validated with the measured data. The modeling results are in agreement with the measurements. Various fuel mixtures were then modeled to seek varying inlet temperature and O2 concentration effects on the combustion characteristics of the biogas fuel mixtures studied. It was concluded that as the amount of CO2 in the fuel mixture was increased the flame temperature decreased linearly from about 1900 K to 1775 K. NOx concentrations in the combustion product decreased from about 10 ppm to below 2 ppm. It was also concluded that air preheating and change in O2 concentration in the oxidizer affected the flame temperatures and NOx considerably.
Reference29 articles.
1. [1] Kecebas A. Gedik E. and Kayfeci M., “The effect of using geothermal energy and natural gas on air pollution arisen from using fossil fuels: Afyon example”, Makine Teknolojileri Elektronik Dergisi, 7(3), 23-30, (2010).
2. [2] Yagli H. and Koc Y., “Determination of Biogas Production Potential from Animal Manure: A Case Calculation for Adana Province”, Cukurova University Journal of the Faculty of Engineering and Architecture, 34(3), pp. 35-48, (2019).
3. [3] Bond T. and Templeton M.R., “History and future of domestic biogas plants in the developing World”, Energy for Sustainable Development, 15:347–354, (2011).
4. [4] Leonov E. and Trubaev P., “The Effect of Biogas Composition on the Characteristics of the Combustion Process”, Diyala Journal of Engineering Sciences, 15, 2, 1–9, (2022).
5. [5] Nonaka, H. O. B. and Pereira F. M., “Experimental and numerical study of CO2 content effects on the laminar burning velocity of biogas”, Fuel, vol. 182, Pages 382-390, (2016).