Technology Trends on Waste and Biomass to Clean and Efficient Energy Reforming
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Gupta, A. K. (2018). Technology Trends on Waste and Biomass to Clean and Efficient Energy Reforming. Applied Science and Engineering Progress, 11(3), 157–158. Retrieved from https://ph02.tci-thaijo.org/index.php/ijast/article/view/211327
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References
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[2] A. Demirbas and G. Arin, “An overview of biomass pyrolysis,” Energy Sources, vol. 24, no. 5, pp. 471–482, 2002.
[3] M. D. Staples, R. Malina, and S. R. H. Barrett, “The limits of bioenergy for mitigating global life-cycle greenhouse gas emissions from fossil fuels,” Nature Energy, vol. 2, pp. 16202, 2017.
[4] S. Chu, Y. Cui, and N. Liu, “The path towards sustainable energy,” Nature Materials, vol. 16, pp. 16–22, 2017.
[5] S. Heidenreich and P. U. Foscolo, “New concepts in biomass gasification,” Progress in Energy and Combustion Science, vol. 46, pp. 72–95, 2015.
[6] N. Mahinpey and A. Gomez, “Review of gasification fundamentals and new findings: Reactors, feedstock, and kinetic studies,” Chemical Engineering Science, vol. 148, pp. 14–31, 2016.
[7] A. Molino, S. Chianese, and D. Musmarra, “Biomass gasification technology: The state of the art overview,” Journal of Energy Chemistry, vol. 25, no. 1, pp. 10–25, 2016.
[8] A. Kumar, D. D. Jones, and M. A. Hanna, “Thermochemical biomass gasification: A review of the current status of the technology,” Energies, vol. 2, no. 3, pp. 556–581, 2009.
[9] M. S. Hussein, K. G. Burra, R. S. Amano, and A. K. Gupta, “Temperature and gasifying media effects on chicken manure pyrolysis and gasification,” Fuel, vol. 202, pp. 36–45, Aug. 2017.
[10] V. Dhyani and T. Bhaskar, “A comprehensive review on the pyrolysis of lignocellulosic biomass,” Renewable Energy, to be published, 2017.
[11] S. Wang, G. Dai, H. Yang, and Z. Luo, “Lignocellulosic biomass pyrolysis mechanism: A state-of-the-art review,” Progress in Energy and Combustion Science, vol. 62, pp. 33–86, 2017.
[12] F. Xu, J. Yu, T. Tesso, F. Dowell, and D. Wang, “Qualitative and quantitative analysis of lignocellulosic biomass using infrared techniques: A mini-review,” Applied Energy, vol. 104, pp. 801–809, Apr. 2013.
[2] A. Demirbas and G. Arin, “An overview of biomass pyrolysis,” Energy Sources, vol. 24, no. 5, pp. 471–482, 2002.
[3] M. D. Staples, R. Malina, and S. R. H. Barrett, “The limits of bioenergy for mitigating global life-cycle greenhouse gas emissions from fossil fuels,” Nature Energy, vol. 2, pp. 16202, 2017.
[4] S. Chu, Y. Cui, and N. Liu, “The path towards sustainable energy,” Nature Materials, vol. 16, pp. 16–22, 2017.
[5] S. Heidenreich and P. U. Foscolo, “New concepts in biomass gasification,” Progress in Energy and Combustion Science, vol. 46, pp. 72–95, 2015.
[6] N. Mahinpey and A. Gomez, “Review of gasification fundamentals and new findings: Reactors, feedstock, and kinetic studies,” Chemical Engineering Science, vol. 148, pp. 14–31, 2016.
[7] A. Molino, S. Chianese, and D. Musmarra, “Biomass gasification technology: The state of the art overview,” Journal of Energy Chemistry, vol. 25, no. 1, pp. 10–25, 2016.
[8] A. Kumar, D. D. Jones, and M. A. Hanna, “Thermochemical biomass gasification: A review of the current status of the technology,” Energies, vol. 2, no. 3, pp. 556–581, 2009.
[9] M. S. Hussein, K. G. Burra, R. S. Amano, and A. K. Gupta, “Temperature and gasifying media effects on chicken manure pyrolysis and gasification,” Fuel, vol. 202, pp. 36–45, Aug. 2017.
[10] V. Dhyani and T. Bhaskar, “A comprehensive review on the pyrolysis of lignocellulosic biomass,” Renewable Energy, to be published, 2017.
[11] S. Wang, G. Dai, H. Yang, and Z. Luo, “Lignocellulosic biomass pyrolysis mechanism: A state-of-the-art review,” Progress in Energy and Combustion Science, vol. 62, pp. 33–86, 2017.
[12] F. Xu, J. Yu, T. Tesso, F. Dowell, and D. Wang, “Qualitative and quantitative analysis of lignocellulosic biomass using infrared techniques: A mini-review,” Applied Energy, vol. 104, pp. 801–809, Apr. 2013.