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All issues Volume 53 (2018) E3S Web Conf., 53 (2018) 01030 References
Open Access
Issue
E3S Web Conf.
Volume 53, 2018
2018 3rd International Conference on Advances in Energy and Environment Research (ICAEER 2018)
Article Number 01030
Number of page(s) 5
Section Energy Engineering, Materials and Technology
DOI https://doi.org/10.1051/e3sconf/20185301030
Published online 14 September 2018
  1. Guo CP. Study on the technological parameters of dry fermentation of rice straw to produce biogas. Zhengzhou: henan agricultural university, 2012. [Google Scholar]
  2. Yang H, Yin F, Zhang WD, etc. Experimental study on the potential of biogas production from rose straw. Hubei agricultural science, 2013, 52 (17): 4086-4089. [Google Scholar]
  3. Liu JH, Zhang WD, Yin F, etc. Experimental study on biogas potential of artemisia argyi. Hubei agricultural science, 2014, 53 (21): 5148-5150. [Google Scholar]
  4. Li RF, Lan CL, Long SS, etc. Comparative study on biogas produced by fermentation of six kinds of weed materials. China biogas, 2013, 31 (1): 16-19. [Google Scholar]
  5. Li YC, Zhu HG, Peng TJ, etc. Study on the applicability of waste fresh leaves of flue-cured tobacco as raw materials for biogas fermentation. Hunan agricultural science, 2014, 344 (17): 45-47+52. [Google Scholar]
  6. Liu WW, Ma H, Yang ZL, etc. Experimental study on biogas fermentation of rotten apples and pears. China agricultural science bulletin, 2014, 30 (26): 134-138. [Google Scholar]
  7. Zhu HC, Liu SQ, Yin F, etc. Experimental study on biogas fermentation of banana peel. Agriculture and technology, 2007, 159 (4): 74-79. [Google Scholar]
  8. Bai N, Fu ZG, Mei ZL, etc. Study on biogas fermentation potential of tea residue. China biogas, 2011, 29 (3): 20-23. [Google Scholar]
  9. Song XH, Jiang XY, Zhao MJ. Water purification and resource utilization of aquatic plants in wetland. Environmental protection and circular economy, 2011, 31 (11): 59-62. [Google Scholar]
  10. Zhong XR. A new way of biogas fermentation raw materials-and the management of water hyacinth in lijiang river basin. Guangxi forestry, 2008, 150 (1): 26-27. [Google Scholar]
  11. Gao CY, Liu H, Ye NH, etc. Study on the technology of large seaweed fermentation to produce methane. Chinese and foreign energy, 2011, 11 (4): 27-35. [Google Scholar]
  12. Chen Y, Hu W and Zhang PD. The future development trend of rural biogas in China. Jiangsu agricultural science, 2012, 40 (11): 8-10. [Google Scholar]
  13. Song L, Deng LW, Yin Y, etc. Anaerobic digestion of faeces from sheep, ducks and rabbits yields biogas potential and characteristics. Journal of agricultural engineering, 2010, (10): 277-282. [Google Scholar]
  14. Ji XY, Lin WD, Zhang WD, etc. Experimental study on the potential of biogas production by warm fermentation in pigeon droppings. China biogas, 2015, 33 (3): 51-55. [Google Scholar]
  15. O. hijazi, S. munro, B. zerhusen, et al. Review of Life Cycle Assessment for Biogas Production in Europe. Renewable and Sustainable Energy Reviews,. 2016, 54: 1291-1300. [CrossRef] [Google Scholar]
  16. Weng XC, Fang W, Chen YF. Study on waste water treatment technology and energy saving in food industry. Resource conservation and environmental protection, 2015, (2): 63-65. [Google Scholar]
  17. Elaiyaraju P, Partha N. Biogas Production From Sago (tapioca) Wastewater Using Anaerobic Batch Reactor. Energy & Environment, 2012, 23, (4): 631~646. [CrossRef] [Google Scholar]
  18. Zheng C. Experimental study on biogas fermentation in cellulosic ethanol wastewater. Zhengzhou: zhengzhou university, 2013. [Google Scholar]
  19. Li SL, Mei ZL, Yang HN. Feasibility study on biogas treatment of wood processing wastewater. China biogas, 2016, 34(1): 43~45. [Google Scholar]
  20. Liao JL. Study on the effects of anaerobic fermentation on biogas production in kitchen wastewater. Wuxi: jiangnan university, 2013. [Google Scholar]
  21. Santos IFSD, Barros RM, Filho GLT. Electricity Generation From Biogas of Anaerobic Wastewater Treatment Plants in Brazil; an Assessment of Feasibility and Potential. Journal of Cleaner Production,. 2016, 126: 504-514. [CrossRef] [Google Scholar]
  22. Guo YJ, Chen B. CDM project analysis of high concentration organic wastewater treatment. Environmental science and management, 2011, 36 (4): 94-97. [Google Scholar]
  23. Nanning has made a breakthrough in the industrialization research of methane purification natural gas. Coal power and heat, 2011, 31 (8): 32. [Google Scholar]
  24. ernández Jorge-E. Treatment of Biogas Produced in Anaerobic Reactors for Domestic Wastewater: Odor Control and Energy/Resource Recovery. Reviews in Environmental Science and Bio/Technology, 2006, 5(1): 93-114. [CrossRef] [Google Scholar]
  25. Wang JL, Jiao J, Zhang J, etc. Study on anaerobic fermentation technology of sugarcane leaves by dry method. Journal of agricultural machinery, 2011, 42 (3): 109-114. [Google Scholar]
  26. Wan S, Sun L, Sun J, et al. Biogas Production and Microbial Community Change During the Codigestion of Food Waste with Chinese Silver Grass in a Single-stage Anaerobic Reactor. Biotechnology and Bioprocess Engineering, 2013, 5(18): 1022-1030. [CrossRef] [Google Scholar]
  27. Zhao YF, Liu XL, Li SZ, etc. Characteristics of kitchen waste and sludge high solids combined with anaerobic production of biogas. Journal of agricultural engineering, 2011, 27 (10): 255-260. [Google Scholar]
  28. Yan B, Fu S. Study on biogas materials produced by mixed fermentation. Environmental health engineering, 2015, 23 (5): 22-25. [Google Scholar]

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