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On-line Access: 2024-08-27

Received: 2023-10-17

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Journal of Zhejiang University SCIENCE A 2009 Vol.10 No.11 P.1589-1594

http://doi.org/10.1631/jzus.A0820763


Experimental and thermal stress investigation on side wall deformation at the pendent convective pass in a utility boiler


Author(s):  Li-ping PANG, Bao-min SUN, Tong LIU

Affiliation(s):  MOE, Key Laboratory of Condition Monitoring and Control for Power Plant Equipment, North China Electric Power University, Beijng 102206, China

Corresponding email(s):   liping_pang@163.com

Key Words:  Utility boiler, Horizontal flue gas side wall in pendant convective pass (PCP), Deformation, Temperature measurement, Thermal stress analysis


Li-ping PANG, Bao-min SUN, Tong LIU. Experimental and thermal stress investigation on side wall deformation at the pendent convective pass in a utility boiler[J]. Journal of Zhejiang University Science A, 2009, 10(11): 1589-1594.

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%T Experimental and thermal stress investigation on side wall deformation at the pendent convective pass in a utility boiler
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%DOI 10.1631/jzus.A0820763

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T1 - Experimental and thermal stress investigation on side wall deformation at the pendent convective pass in a utility boiler
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A1 - Tong LIU
J0 - Journal of Zhejiang University Science A
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PB - Zhejiang University Press & Springer
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DOI - 10.1631/jzus.A0820763


Abstract: 
An experimental investigation is performed on side wall deformation at the pendant convective pass (PCP) in a 300 MW and a 600 MW utility boiler. The temperature distributions are measured on the side wall areas of the water-cooled wall, the PCP and the horizontal convective pass (HCP) in the two utility boilers. These experiments show that there are great temperature differences in the side wall areas during the startup process in both utility boilers. These temperature differences can reach 80~150 (C with the side wall temperature in the PCP area higher than those in the water-cooled wall and the HCP. The highest temperature in the PCP is close to the flue gas side temperature at the same position in the horizontal flue gas pass. Thermal stress analyses are conducted in the side wall areas in the water-cooled wall, the PCP and the HCP with the software ANSYS. The results show that, at great temperature differences, the PCP side wall undergoes negative thermal stresses that exceed the yield strength causing deformation in the PCP side wall.

Darkslateblue:Affiliate; Royal Blue:Author; Turquoise:Article

Reference

[1] ANSYS Inc., 2000a. Advanced Analysis Techniques Guide. Canonsburg, PA, p.158-230.

[2] ANSYS Inc., 2000b. Structural Analysis Guide. Canonsburg, PA, p.245-278.

[3] Bao, Y., Lu, H., 1988. Hydraulics and Inside Equipment in Utility Boiler. Harbin Industry University Publishing House, Harbin, p.127-145 (in Chinese).

[4] Huang, C., 1982. Hydraulics and Inside Equipment in Utility Boiler. Harbin Industry University Publishing House, Harbin, p.145-160 (in Chinese).

[5] Li, G., Li, J., Pang, J., 1998. Analysis on leakage of wall superheater of Unit 1 at Dalate power plant. Inner Mongolia Electric Power, 10(1):57-60 (in Chinese).

[6] Liu, T., Xu, G., Pang, L., Liang, Z., 2004. Creep analysis and lifetime calculation on pressured parts in utility boiler. Power Engineering, 24(5):631-635 (in Chinese).

[7] Pan, Z., 2004. Finite Element Analysis and Application. Tsinghua University Publishing House, Beijing, p.205-234 (in Chinese).

[8] Ray, A.K., Sahay, S.K., Goswami, B., 2003. Assessment of service exposure boiler tubes. Engineering Failure Analysis, 10(6):645-654.

[9] Shi, D., Zhang, J., 2000. Analysis on frequent leakage of front side wall superheater of Unit 1 at Huaneng Yueyang power plant. Hunan Electric Power, 20(5):46-47 (in Chinese).

[10] Sun, B.M., Pang, L.P., Liu, T., 2007. Theoretical and Experimental Study on Side Wall Flow Distribution at Pendant Convective Pass (PCP) in RBC Utility Boilers. Technical Report, CE2006-04, North China Electric Power University, China (in Chinese).

[11] Xu, Z., 2005. Elastic Mechanics. Higher Education Publishing House, Beijing, p.112-127 (in Chinese).

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