Discussion on the Structure of Low-Temperature Radiant Heater of Gate Station

Shun Li Gao; Hong Yu Li; Yong Zheng Shi; Dan Ping Yan; Rong Liu

doi:10.4028/www.scientific.net/AMM.700.660

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 700Discussion on the Structure of Low-Temperature...

Discussion on the Structure of Low-Temperature Radiant Heater of Gate Station

Abstract:

As the city develops radiady, the natural gas is widely used nealy in every filed of people’s lives. During the pressure regulation, the phenomenon of ice jam, which can affect the normal utilization, happens. Heater can be regarded as one of the most important measures that prevents pipe from freezing occurring due to temperature drop caused by pressure regulation. Low-temperature radiant heater with tight structure is specifically designed for gad gate station. The heat transfer process of the gate station is analyzed. In the meantime, the mathematical model of radiant heater, which could be fitted for the gate station, is erected. At the same time, the influence of heat exchange size, radiant panel size and radiant efficiency, brought by tube are discussed. The result shows that the tube type of radiant heater has a greatest performance. Considering the tubes with compact structure, taking tube type of radiant heater as the heater used in gate station is the optimal decision. The analysis combined in this paper is the foundation to choose the heater of gate station.

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Periodical:

Applied Mechanics and Materials (Volume 700)

Pages:

660-666

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.700.660

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Online since:

December 2014

Authors:

Shun Li Gao, Hong Yu Li, Yong Zheng Shi*, Dan Ping Yan, Rong Liu

Keywords:

Gas Gate Station, Heat Transfer Model, Low-Temperature Radiant Heater, Structure Optimization

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* - Corresponding Author

References

[1] Yan Mingqing. Natural gas engineering design manual [M]. China architecture and industry press, 2009. in Chinese.

Google Scholar

[2] Wen Dong, Ma Hongjun. Electric heat tracing system in the application of the west-east gas pipeline project[J]. , Energy Conservation and Environmental Protection, 2004(12): 41-43. in Chinese.

Google Scholar

[3] liu Huafang, Based on the analysis of the way to prevent gas regulator icy[J]. China Petroleum and Chemical Standard and Quality, 2013(13): 77. in Chinese.

Google Scholar

[4] Hou Zhiyun, Thermal effect of infrared radiation and matter [J]. Infrared Technology, 2002, 24(5): 46-48. in Chinese.

Google Scholar

[5] Zhao Liying, Study on the synthesis and properties of high emissivity infrared radiation energy-savingcoating [J]. Paint & Coatings Industry, 2013, 43(10): 7-10. in Chinese.

Google Scholar

[6] Wang Leshan. The status and effect of radiation heating method in thermal structural testing [J]. Structure & Environment Engineering, 2010, 37(5): 58-64. in Chinese.

Google Scholar

[7] Cai Jiamin, Analysis of infrared radiation heating process [J]. Journal of university of science and technology Beijing, 1997, 19(3): 312-315. in Chinese.

Google Scholar

[8] Zhang Suihuai. Harbin long distance natural gas pipeline design[D]. Daqing petroleum institute. 2009. in Chinese.

Google Scholar

[9] Zhang Ximin. Heat transfer[M]. China architecture and industry press, 2005. 3-200. in Chinese.

Google Scholar

[10] Zang Tiejun, Zang Tianhong. The choice of long-distance pipeline tube[J]. Oil & gas storage and Transportation, 1996, 4: 28-29. in Chinese.

Google Scholar

[11] CJJ94-2009. Urban Indoor Gas Engineering Construction and project quality [S]. in Chinese.

Google Scholar