Natural Gas Transmission Pipeline Temperature Drop Calculation
Abstract
The numerical computation of natural gas pipeline temperature drop will provide the reference data for the design of gas pipeline, the judgement of hydrate formation, the normal production and operation. On the basis of Suhuofu formula, considering the effect of the Joule-Thomson, according to the natural gas flowing through a pipe heat conduction basic theory, combined with engineering thermodynamics, heat transfer and fluid mechanics knowledge, establishing gas transmission pipeline temperature drop model, adopt iterative method, the natural gas temperature along the pipe is calculated, comparing some kind of factors such as gas composition, the pipeline operational factor, the heat preservation situation, and analysis how the factors influent the temperature drop, providing the theory basis for how to reduce the temperature drop in the gas line, the heating power and the heating furnace heating temperature calculation, and energy conservation and optimization.
Key words: Natural gas; Temperature drop calculation; Gas line
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[1] Yao, L., Zhang, L. N., & Zhao, Y. (2004). Present situation and development trend of the natural gas storage and transportation technology. Natural Gas Economy, (5), 63-66.
[2] Shen, W. D., Jiang, Z. M., & Dong, J. D. (2001). Engineering thermodynamics (3rd ed.). Beijing, China: Higher Education Press.
[3] Wang, S. L., Zhao, Z. Y., & Wang, S. H. (1999). Temperature drop calculation method of oil gas gathering and transportation pipelines. Oilfield Surface Engineering, 18(2), 22-25.
[4] Yang, S. M. (2006). Heat transfer (4th ed.) (pp.4-6). Beijing, China: Higher Education Press.
[5] Tao, W. S. (2000). Recent progress in computational heat transfer (pp.1-16, 33-37). Beijing, China: Science Press.
[6] Liu, J. L., Liu, J., & Ren, H. (2010). Discussion on natural gas hydrate sampling height. Oil Field Equipment, 39(10), 12-15.
[7] Li, W. C., Wang, F. J., Li, Y. M., & Hong, H. Y. (2006). The analysis and evaluation of the total heat transfer coefficient of long distance pipeline. Oilfield Surface Engineering, 25(10), 20-21.
[8] Li, C. J. (2000). Pipeline transportation of natural gas (pp.86-94). Beijing, China: Petroleum Industry Press.
[9] Liu, D. S., Gong, J., & Wu, H. H. (2010). The experimental research progress of the 3rd phase flow. Oil Field Machinery and Oil Gas Water Level Tube, 39(4), 9-16.
[10] Li, J., Wang, P., & Wang, H. X. (2009). Drop law. Journal of Higher School of Petrochemical Pipeline Temperature Exposed, 22(1), 73-75.
DOI: http://dx.doi.org/10.3968/5798
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