Progress of Biomass Gasification Technology in China

[1] Y. Guo, S.Z. Wang, D.H. Xu, Y.M. Gong, H.H. Ma, X. Y. Tang: Renew. Sust. Energ. Rev. Vol. 14 (2010), p.334.

Google Scholar

[2] Dmitri A. Bulushev, Julian R.H. Ross: Catalysis Today, Vol. 171 (2011), p.1.

Google Scholar

[3] BP: Statistical review of world energy. 2011, http: /www. bp. com/assets/bp_internet/globalbp/ globalbp_uk_english/reports_and_publications/statistical_energy_review_2011/STAGING/local_assets/pdf/statistical_review_of_world_energy_full_report_2011. pdfS[accessed on30. 05. 2012].

DOI: 10.1177/014459878900700615

Google Scholar

[4] M. Asadullah: Renew. Sust. Energ. Rev., Vol. 29(2014), p.201.

Google Scholar

[5] K. Maniatis. In: Bridgewater V, editor: London: Blackwell Science, 2001, pp.1-31.

Google Scholar

[6] J.A. Ruiz, M. C. Juaárez, M. P. Morales, P. Munõz, M. A. Mendívil: Renew. Sust. Energ. Rev., Vol. 18 (2013), p.174.

Google Scholar

[7] P. Basu: Biomass Gasification Design Handbook. Boston: Academic Press; http: /dx. doi. org/ 10. 1016/B978- 0-12–374988-8. 00005-2 117–165.

Google Scholar

[8] P. McKendry: Bioresour Technol, Vol. 83(2002), p.37–46.

Google Scholar

[9] V. V. N Kishore, editor. Renewable energy engineering & technology: a knowledge compendium. New Delhi: TERI Press; (2008).

Google Scholar

[10] S.P. Babu: Gasification of Biomass for Power and Fuels[R]. 2008：Tokyo.

Google Scholar

[11] L. X. Liu: China Water Transport, Vol. 13(2013), p.74.

Google Scholar

[12] L. H. Zhang, C. B. Xu, P. Champagne: Energy Convers. Manage. Vol. 51(2010), p.969.

Google Scholar

[13] Y. G. Leung, X. L. Yin, C. Z. Wu: Renew. Sust. Energ. Rev., Vol. 8(2004), p.565.

Google Scholar

[14] H. Y. Wang: Technical and economical analysis of straw gasification engineering for central gas supply [D]. Chinese Academy of Agricultural Sciences Dissertation, (2012).

Google Scholar

[15] Z. Q. Zhou, X. L. Yin, J. Xu, L. L. Ma: Energy Policy, Vol. 51(2012), p.52.

Google Scholar

[16] S. Krister, W. Lars , M. Michael, J. Ulf, G. Lennart: Biomass IGCC at Värnamo. GCEP Energy Workshop, Sweden—Past and future, (2004).

Google Scholar

[17] J. C. Jiang: Biomass Chemical Engineering, Vol. 41(2007), p.59.

Google Scholar

[18] P. M. Lv, J. Chang, Y. Fu: Acta Energiae Solaris Sinica, Vol. 25(2004), p.769.

Google Scholar

[19] P. M. Lv, Z. H. Yuan, C. Z. Wu: Chemical Engineering(China), Vol. 35(2007), p.25.

Google Scholar

[20] P. M. Lv, Z. H. Yuan, L. L. M: Techniques and Equipment for Environmental Pollution Control, Vol. 7(2006), p.35.

Google Scholar

[21] Y. R. Xie, J. Xiao, L. H. Shen: Acta Energiae Solaris Sinica, Vol. 29(2008), p.888.

Google Scholar

[22] Y. R. Xie, L. H. Shen, J. Xiao: Xi'an Jiaotong University Xuebao, Vol. 42(2008), p.634.

Google Scholar

[23] G. F. Meng, B. F. Zhao, X. D. Zhang: Acta Energiae Solaris Sinica, Vol. 30(2009), p.837.

Google Scholar

[24] G. Y. Chen, P. P. Yan, J. N. Jia: Acta Energiae Solaris Sinica, Vol. 29(2008), p.360.

Google Scholar

[25] L. F. Zhu, L. Du, X. B. Li: J Environ Sci (China), Vol. 19(2007), p.628.

Google Scholar

[26] Biomass energy research center [EB/OL]. http: /www. giec. cas. cn/jgsz/kybm/swznyjzx/ 200907/t20090714_2078308. html.

Google Scholar

[27] B. A. Li, J. H. Qin: Science Mosaic, Vol. 6(2009), p.94.

Google Scholar

[28] S. Q. Tian, L. K. Zhang, F. L. Yang, X. H. Zhang, J. Fan: Journal of Anhui Agri. Sci., Vol. 39(2011), p.1645.

Google Scholar