Transient flow in natural gas pipeline - The effect of pipeline thermal model

Applied Mathematical Modelling

Volumn 34, Issue 4, 2010, Pages 1051-1067

  Chaczykowski, Maciej ^a  

^a WARSAW UNIVERSITY OF TECHNOLOGY   (Poland)

Author keywords

Heat transfer in gas pipeline; Natural gas pipeline; Nonisothermal gas flow model

Indexed keywords

FLOW MODEL; FLUID TRANSIENTS; GAS FLOW MODEL; GAS PARAMETERS; HEAT ACCUMULATION; HIGH PRESSURE GAS; NONISOTHERMAL; PRESSURE AND TEMPERATURE; STEADY-STATE HEAT TRANSFER; TEMPERATURE FLUCTUATION; THERMAL MODEL; TRANSIENT FLOW; UNSTEADY HEAT TRANSFER;

AERODYNAMICS; FLOW OF GASES; FLOW SIMULATION; GAS INDUSTRY; GAS PIPELINES; GASES; HEAT EXCHANGERS; HEAT TRANSFER; NATURAL GAS; NATURAL GAS PIPELINES; NATURAL GAS TRANSPORTATION; PRESSURE EFFECTS; SIMULATORS; THERMOGRAPHY (TEMPERATURE MEASUREMENT);

PIPELINES;

EID: 71849088557     PISSN: 0307904X     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.apm.2009.07.017     Document Type: Article

References (20)

1. Kiuchi T. An implicit method for transient gas flows in pipe networks. Int. J. Heat Fluid Flow 15 5 (1994) 378-383
2. Ke S.L., and Ti H.C. Transient analysis of isothermal gas flow in pipeline network. Chem. Eng. J. 76 (2000) 169-177
3. Herrán-González A., De La Cruz J.M., De Andrés-Toro B., and Risco-Marti{dotless}́n J.L. Modeling and simulation of a gas distribution pipeline network. Appl. Math. Model. 33 (2009) 1584-1600
4. Greyvenstein G.P. An implicit method for the analysis of transient flows in pipe networks. Int. J. Numer. Meth. Eng. 53 (2002) 1127-1143
5. Gato L.M.C., and Henriques J.C.C. Dynamic behaviour of high-pressure natural-gas flow in pipelines. Int. J. Heat Fluid Flow 26 (2005) 817-825
6. Issa R.I., and Spalding D.B. Unsteady one-dimensional compressible frictional flow with heat transfer. J. Mech. Eng. Sci. 14 6 (1972) 365-369
7. Winterbone D.E., and Pearson R.J. A solution of the wave equations using real gases. Int. J. Mech. Sci. 34 12 (1992) 917-932
8. Tenties E., Margaris D., and Papanikas D. Transient gas flow simulation using adaptive method of lines. C.R. Mecanique 331 (2003) 481-487
9. Osiadacz A.J., and Chaczykowski M. Comparison of isothermal and non-isothermal pipeline gas flow models. Chem. Eng. J. 81 (2001) 41-51
10. Oke A., Mahgerefteh H., Economou I., and Rykov Y. A transient outflow model for pipeline puncture. Chem. Eng. Sci. 58 (2003) 4591-4604
11. Abbaspour M., and Chapman K.S. Nonisothermal transient flow in natural gas pipeline. J. Appl. Mech. Trans. ASME 75 3 (2008) 0310181-0310188
12. Thorley A.R.D., and Tiley C.H. Unsteady and transient flow of compressible fluids in pipelines - a review of theoretical and some experimental studies. Int. J. Heat Fluid Flow 8 1 (1987) 3-15
13. Hall K.R., and Iglesias-Silva G.A. Improved equations for the Standing-Katz tables. Hydrocarb. Process. 86 4 (2007) 107-110
14. Gersten K., Papenfuss H.D., Kurschat T., Genillon F., Fernandez P., and Ravell N. Heat transfer in gas pipelines. Oil Gas Eur. Mag. 27 1 (2001) 30-34
15. J. Modisette, Pipeline thermal models, in: Proceedings of the PSIG The 34th Annual Meeting, Portland, 2002.
16. Guo B., Song S., Chacko J., and Ghalambor A. Offshore Pipelines (2005), Elsevier, Burlington
17. Barletta A., Zanchini E., Lazzari S., and Terenzi A. Numerical study of heat transfer from an offshore buried pipeline under steady-periodic thermal boundary conditions. Appl. Therm. Eng. 28 (2008) 1168-1176
18. Gear C.W. Numerical Initial Value Problems in Ordinary Differential Equations (1971), Prentice-Hall, Englewood Cliffs, NJ
19. Chua T.S., and Dew P.M. The design of a variable-step integrator for the simulation of gas transmission networks. Int. J. Numer. Meth. Eng. 20 (1984) 1797-1813
20. Colebrook C.F. Turbulent flow in pipes, with particular reference to the transition region between the smooth and rough pipe laws. J. Inst. Civil Eng. 11 (1939) 133-156