|Table of Contents|

[1] Xiao Jun, Zhang Mingyao, Zheng Puyan(Key Laboratory of Clean Coal Power Generation and Combustion Technology of Ministry of Education, Southeast University, et al. Thermal performance analysis of advancedpartial gasification combined cycle [J]. Journal of Southeast University (English Edition), 2004, 20 (2): 200-204. [doi:10.3969/j.issn.1003-7985.2004.02.015]
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Thermal performance analysis of advancedpartial gasification combined cycle()
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Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]

Volumn:
20
Issue:
2004 2
Page:
200-204
Research Field:
Energy and Power Engineering
Publishing date:
2004-06-30

Info

Title:
Thermal performance analysis of advancedpartial gasification combined cycle
Author(s):
Xiao Jun1 Zhang Mingyao1 Zheng Puyan2(1Key Laboratory of Clean Coal Power Generation and Combustion Technology of Ministry of Education Southeast University Nanjing 210096 China)
2Department of Power Engineering, Shanghai University of Electric Power, Shanghai 200090, China
Keywords:
partial gasification thermal performance combined cycle advanced pressurized fluidized bed combustion combined cycle(APFBC-CC)
PACS:
TK11+2
DOI:
10.3969/j.issn.1003-7985.2004.02.015
Abstract:
This paper presents the thermodynamic performance analysis and comparison of four kinds of advanced pressurized fluidized bed combustion combined cycle(APFBC-CC)system schemes, two based on pressurized fluidized bed(PFB)combustion and the other two based on atmospheric circulating fluidized bed(CFB)combustion. The results show that the first scheme avoids high temperature gas filter, but has the lower cycle efficiency and syngas heating value. The second scheme can gain the highest cycle efficiency, however it is better to now lower the filter operating temperature. The third and fourth schemes, based on CFB, have lower efficiencies than the second one. But the fourth one, with preheating air/steam for gasification, can obtain the highest heating value of syngas and gain higher efficiency than the third one.

References:

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[2] Wheeldon J M, Bonsu A K, Footer J P, et al. Commissioning of the circulating PFBC in the foster wheeler advanced PFBC train at the PSDF [A]. In: Proceedings of the 16th International Conference on Fluidized Bed Combustion[C]. Reno, Nevada, USA, 2001. 1466-1485.
[3] Zhang Mingyao, Cai Ningsheng, Xiao Jun, et al. The development and prospect of PFBC-CC power generation technology [A]. In: Proceedings of US-China Clean Energy Technology Forum [C]. Beijing, China, 2001. 1-12.
[4] Jin Baosheng, Zhang Mingyao, Li Daji, et al. Research and development on pressurized fluidized bed combustion/gasification in Southeast University [A]. In: Proceedings of the 8th SCEJ Symposium on Fluidization [C]. Kitakyusyu, Japan, 2002. 30-37.
[5] Lozza G, Chiesa P. Combined-cycle power stations using clean-coal technologies: thermodynamic analysis of full gasification versus fluidized bed combustion with partial gasification [J]. J of Eng for Gas Turbines and Power, Transaction of ASME, 1996, 118(10): 737-748.
[6] Cai N S, Yu T F, Xiao J, et al. Thermal performance study for the coal-fired combined cycle with partial gasification and fluidized bed combustion [J]. Proc Instn Mech Engrs, 2001, 215(A4): 421-427.
[7] Zhang Wenpu, Feng Zhenping. Development and application of gas turbine technology [J]. Gas Urbine Technology, 2002, 15(3): 17-22.(in Chinese)

Memo

Memo:
Biography: Xiao Jun(1968—), female, graduate, associate professor, jxiao@seu.edu.cn.
Last Update: 2004-06-20