Analysis of Environmental Impacts on the Characteristics of Gas Released from Biomass
Subject Areas :Reza Alayi 1 , Ehsan Sobhani 2 , Atabak Najafi 3
1 - department of mechanics, islamic azad university, germi, iran
2 - department of energy engineering, energy institute of higher education, Saveh, Iran.
3 - Deparment of electrical engineering, Germi branch, Islamic Azad University. Germi, Iran.
Keywords:
Abstract :
Achawangkul, Y., Maruyama, N., Hirota, M., Chaichana, C., Sedpho, S., & Sutabutr, T. 2016, Evaluation on environmental impact from the utilization of fossil fuel, electricity and biomass producer gas in the double-chambered crematories. Journal of Cleaner Production 134: 463-468.
Ahmed, M., Guo, X., & Zhao, X. M. 2016, Determination and analysis of trace metals and surfactant in air particulate matter during biomass burning haze episode in Malaysia. Atmospheric environment. 141: 219-229.
Alayi, R., Kasaeian, A., & Atabi, F. 2019, Thermal analysis of parabolic trough concentration photovoltaic/thermal system for using in buildings. Environmental Progress & Sustainable Energy. https://doi.org/10.1002/ep.13220.
Alayi, R., Kasaeian, A., & Atabi, F. 2019, Optical modeling and optimization of parabolic trough Concertation Photovoltaic Thermal system. Environmental Progress & Sustainable Energy. https://doi.org/10.1002/ep.13303.
Alayi, R., Kasaeian, A., Najafi, A. and Jamali, E. 2019, Optimization and evaluation of a wind, solar and fuel cell hybrid system in supplying electricity to a remote district in national grid, International Journal of Energy Sector Management. https://doi.org/10.1108/IJESM-04-2019-0019.
Alayi, R., Shamel, A., Kasaeian, A., Harasii, H., & Topchlar, M. A. 2016, The role of biogas to sustainable development (aspects environmental, security and economic). Journal of Chemical and Pharmaceutical Research. 8(4): 112-118.
Caputo, P., Ferla, G., & Ferrari, S. 2019, Evaluation of environmental and energy effects of biomass district heating by a wide survey based on operational conditions in Italy. Energy. 174: 1210-1218.
Deng, J., Li, M., & Wang, Y. 2016, Biomass-derived carbon: synthesis and applications in energy storage and conversion. Green Chemistry. 18(18): 4824-4854.
Gopal, K., & Sathiyagnanam, A. P. 2018, Mathematical correlation of different emission characteristics analysis of DI-diesel engine fueled with lignocellulosic biomass derived n-butanol/diesel blend using response surface methodology. International Journal for Research in Applied Science and Engineering Technology. 6(1): 2592-2608.
Hosseini, S. E., Abdul Wahid, M., Jamil, M. M., Azli, A. A., & Misbah, M. F. 2015, A review on biomass‐based hydrogen production for renewable energy supply. International Journal of Energy Research. 39(12): 1597-1615.
Mousa, E., Wang, C., Riesbeck, J., & Larsson, M. 2016, Biomass applications in iron and steel industry: an overview of challenges and opportunities. Renewable and Sustainable Energy Reviews. 65: 1247-1266.
Owusu, P. A., & Asumadu-Sarkodie, S. 2016, A review of renewable energy sources, sustainability issues and climate change mitigation. Cogent Engineering. 3(1): 1167990.
Saidur, R., Abdelaziz, E. A., Demirbas, A., Hossain, M. S., & Mekhilef, S. 2011, A review on biomass as a fuel for boilers. Renewable and sustainable energy reviews. 15(5): 2262-2289.
Shamel, A., Alayi, R., & Abbaszadeh, L. 2014, The Assessing and Prediction of Biogas Production and Dissemination Rate in Ardebil City Landfills and Chemical Analysis of Obtained Biogas. International Journal of Engineering and Advanced Technology.4(1):84-88.
Tan, R., Guo, K., Hu, G., Xiong, X., Yang, L., & Xue, J. 2018, Thermal characteristics of agricultural biomass in Northwest China. Journal of Northwest A & F University-Natural Science Edition. 46(10): 147-154.
Toklu, E. 2017, Biomass energy potential and utilization in Turkey. Renewable Energy. 107, 235-244.
Udaiyappan, A. F. M., Hasan, H. A., Takriff, M. S., & Abdullah, S. R. S. 2017, A review of the potentials, challenges and current status of microalgae biomass applications in industrial wastewater treatment. Journal of Water Process Engineering. 20: 8-21.
Ullah, K., Sharma, V. K., Dhingra, S., Braccio, G., Ahmad, M., & Sofia, S. 2015, Assessing the lignocellulosic biomass resources potential in developing countries: A critical review. Renewable and Sustainable Energy Reviews. 51: 682-698.
Weldemichael, Y., & Assefa, G. (2016) Assessing the energy production and GHG (greenhouse gas) emissions mitigation potential of biomass resources for Alberta. Journal of Cleaner Production. 112: 4257-4264.
Williams, C. L., Westover, T. L., Emerson, R. M., Tumuluru, J. S., & Li, C. 2016, Sources of biomass feedstock variability and the potential impact on biofuels production. BioEnergy Research. 9(1): 1-14.
Xu, Y., Huang, Y., Wu, B., Zhang, X., & Zhang, S. 2015, Biogas upgrading technologies: Energetic analysis and environmental impact assessment. Chinese Journal of Chemical Engineering. 23(1): 247-254.
Zainalabedini N, Fataei, E. 2016, Surveying the Landfill Methane in Ardabil City Using LandGem Software, 4th International Conference on New Ideas in Agriculture, Environment and Tourism, Ardabil, Ideal Environment Supporters Institute, https : //www.civilica.com/Paper-AETCONF04-AETCONF04_077.html