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다국어 초록 (Multilingual Abstract)

The atmosphere under the conditions of a coal combustion reaction in the furnace is the factor that makes the most significant difference during mode transition from traditional air to oxy-fuel combustion. The flue gas is adopted as the primary air and secondary air for pulverized-coal conveying and the support of combustion; it has a high carbon dioxide concentration during the oxy-fuel combustion. The air-leakage reduces CO2 enrichment and leads to thermal NOx production. A control strategy of this shift operation is conducted in a 35MW oxy-fuel combustion power plant boiler by adjusting the furnace pressure, regulating the recirculation rate of the flue gas and amending the oxygen concentration in the inlet stream. The furnace pressure can be changed smoothly and stabilized at a micro-positive level as the pressurized air flow is monitored at a suitable range. The combustion-supporting flue gas is modified by the oxygen content in the furnace outlet, and the circulation rate of the flue gas verifies the regulation process.
Results show that the CO2 concentration in the flue gas can be rapidly increased along with the increment of furnace pressure and oxygen in the inlet stream; then, this procedure gradually becomes flattened. The CO2 content in the flue gas correlates with the recirculation rate of the flue gas and oxygen concentration in the inlet stream. The two operation parameters should be maintained at a high CO2 concentration in a range from 0.6-0.7 and 29.5%-30.5%, respectively.
Sampling analysis shows that SO2 and NOx emissions were 26 (±1.5) mg/MJ and 90 (±11.7) mg/MJ in air condition, 14 (±0.4) mg/MJ and 34 (±1.6) mg/MJ in oxy-fuel combustion; the burnout rate, mechanical losses of incomplete combustion and the unburned carbon rate remained similar at these two stable combustion modes. This mode transition scheme should provide a reference for monitoring and diagnostics, design and operation control of an oxygen-enriched pulverized-coal combustion power plant boiler.

참고문헌 (Reference)

1 T. Fujimori, 34 (34): 2111-, 2013

2 B. Jin, 30 : 97-, 2014

3 K. Kupila, 4 : 1820-, 2011

4 L. Stromberg, 1 (1): 581-, 2009

5 M. Lupion, 37 : 6179-, 2013

6 G. Scheffknecht, 5 (5): S16-, 2011

7 R. C. da Silver, 115 : 507-, 2014

8 B. J. P. Buhre, 31 (31): 283-, 2005

9 T. Wall, 87 (87): 1003-, 2009

10 K. Andersson, 33 (33): 67-, 2008

1 T. Fujimori, 34 (34): 2111-, 2013

2 B. Jin, 30 : 97-, 2014

3 K. Kupila, 4 : 1820-, 2011

4 L. Stromberg, 1 (1): 581-, 2009

5 M. Lupion, 37 : 6179-, 2013

6 G. Scheffknecht, 5 (5): S16-, 2011

7 R. C. da Silver, 115 : 507-, 2014

8 B. J. P. Buhre, 31 (31): 283-, 2005

9 T. Wall, 87 (87): 1003-, 2009

10 K. Andersson, 33 (33): 67-, 2008

11 C. Lupianez, 106 : 587-, 2013

12 B. Leckner, 125 : 308-, 2014

13 Y. Tan, 85 (85): 507-, 2005

14 M. Pottmann, 4 : 951-, 2011

15 F. Normann, 35 (35): 385-, 2009

16 I. Guedea, 4 : 972-, 2011

17 K. J. Kuczynski, 4 : 2541-, 2011

18 P. J. Edge, 101 : 234-, 2012

19 D. Snarheim, "Control Issues in Oxy-fuel Combustion" Norwegian Univ. of Sci. and Technol 2009

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연월일	이력구분	이력상세
2023	평가예정	해외DB학술지평가 신청대상 (해외등재 학술지 평가)
2020-01-01	평가	등재학술지 유지 (해외등재 학술지 평가)
2016-06-21	학술지명변경	한글명 : The Korean Journal of Chemical Engineering -> Korean Journal of Chemical Engineering 외국어명 : The Korean Journal of Chemical Engineering -> Korean Journal of Chemical Engineering
2011-01-01	평가	등재학술지 유지 (등재유지)
2009-01-01	평가	등재학술지 유지 (등재유지)
2007-09-27	학회명변경	영문명 : The Korean Institute Of Chemical Engineers -> The Korean Institute of Chemical Engineers
2007-09-03	학술지명변경	한글명 : The Korean Journal of Chemical Engineeri -> The Korean Journal of Chemical Engineering 외국어명 : The Korean Journal of Chemical Engineeri -> The Korean Journal of Chemical Engineering
2007-01-01	평가	등재학술지 유지 (등재유지)
2005-01-01	평가	등재학술지 유지 (등재유지)
2002-01-01	평가	등재학술지 선정 (등재후보2차)
1999-07-01	평가	등재후보학술지 선정 (신규평가)