Current Research and Prospect of Biomass Pyrolysis Reactor

Ge Song, Xin Wang

Article ID: 1161
Vol 1, Issue 4, 2018

VIEWS - 528 (Abstract) 376 (PDF)

Abstract


Energy shortages and environmental damage have become serious problems facing the society today. Biomass can be a renewable energy source, which large-scale development and utilization are of great significance to industry and social life. Biomass pyrolysis technology can achieve effective utilization of biomass energy. It is necessary to optimize the pyrolysis reaction technology and device for realize the industrialization and large-scale production of biomass energy.


Keywords


Biomass; Pyrolysis Reaction; Pyrolysis Device

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References


1. Zhang Z, Zhu M, Zhang D. A Thermogravimetric study of the characteristics of pyrolysis of cellulose isolated from selected biomass. Applied Energy 2018, 220: 87-93.

2. Stankovikj F, Mcdonald AG, Helms GL, et al. Characterization of woody biomass pyrolysis oils’ water soluble fraction. Energy & Fuels 2017, 31(2).

3. Xu X, Jiang E, Wang M, et al. Dry and steam reforming of biomass pyrolysis gas for rich hydrogen gas. Biomass and Bioenergy 2015, 78: 6-16.

4. Chen Y, Zhang X, Chen W, et al. The structure evolution of biochar from biomass pyrolysis and its correlation with gas pollutant adsorption performance. Bioresource Technology 2017, 246.

5. Han P. Study on fractional condensation characteristics of volatile compounds from biomass continuous pyrolysis. Northeast Agricultural University 2017.

6. Zhang C. Study on pyrolysis characteristics of biomass briquette fuel. Anhui University of Technology 2017.

7. Liu R. Design and simulation of control system for fluidized bed pyrolysis device. Tianjin University of Science and Technology 2017.

8. Barisano D, Canneto G, Nanna F, et al. Steam/oxygen biomass gasification at pilot scale in an internally circulating bubbling fluidized bed reactor. Fuel Processing Technology 201; 141: 74-81.

9. Liu B. Study on spiral pyrolysis of biomass and product characteristics. Dalian University of Technology 2016.

10. Fotovat F, Chaouki J, Bergthorson J. Distribution of large biomass particles in a sand‐biomass fluidized bed: Experiments and modeling. AIChE Journal 2014; 60(3).

11. Shen F. Comparative study on volatile characteristics of biomass pyrolysis. Shandong University of Technology 2010.

12. Lu Q. Study on selective pyrolysis and liquefaction of biomass. China University of Science and Technology 2010.

13. Wang W, Wu G, Zhang Z. Research progress of biomass pyrolysis. contemporary Chemical Industry 2017; 46(11): 2300-2302+2315.

14. Mao Y. Extension and application of micro-fluidized bed reaction analyzer in biomass pyrolysis. Shandong University 2016.

15. Wang S, Fan S, Zhao Y, et al. Carbonation condition and modeling studies of calcium-based sorbent in the fixed-bed reactor. Industrial & Engineering Chemistry Research 2014, 53(25): 10457–10464.

16. Huang H. Study on biomass pyrolysis technologies and key parameters of reaction device based on infrared heating. Northeastern University 2015.

17. Lv Z. Experimental study on the characteristics and kinetic analysis of gas evolution during pyrolysis of biomass in a fluidized bed. Shandong University 2015.

18. Zhang X. Experimental study on the fast pyrolysis of the biomass for producing bio-oil. Zhengzhou University 2014.

19. Su X. Research on critical components of biomass continual pyrolysis reactor. Northeast Agricultural University 2013.

20. Jiang E, Su X, Wang M, et al. Design of variable pitch spiral conveyor for biomass continual pyrolysis reactor. Transactions of the Chinese Society for Agricultural Machinery 2013;44(02): 121-124.

21. Liao Y. Study on bio-oils from fast pyrolysis of bamboo shoot shell in the fluidized bed. Fujian Agriculture and Forestry University 2010.

22. Gao X. Research on biomass pyrolysis and equipment improvement. Zhengzhou University 2009.




DOI: https://doi.org/10.24294/tse.v1i4.1161

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