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Hydraulic Design of Natural Gas Transmission Pipeline in the Artic Area
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 Title & Authors
Hydraulic Design of Natural Gas Transmission Pipeline in the Artic Area
Kim, Young-Pyo; Kim, Ho-Yeon; Kim, Woo-Sik;
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 Abstract
Hydraulic analysis of the natural gas transmission pipeline is to determine whether adequate flow can be sustained throughout the design life of pipeline under all expected flow conditions. Many factors have to be considered in the hydraulic design of long-distance pipelines, including the nature, volume, temperature and pressure of fluid to be transported, the length and elevation of pipeline and the environment of terrain traversed. This study reviewed the available gas operation data provided by pipeline construction project in the arctic area and discussed the gas properties such as viscosity and compressibility factor that influence gas flow through a pipeline. Pipeline inside diameter was calculated using several flow equations and pipeline wall thickness was calculated from Barlow`s equation applying a safety factor and including the yield strength of the pipe material. The AGA flow equation was used to calculate the pressure drop due to friction, gas temperature and pipeline elevation along the pipeline. The hydraulic design in this study was compared with the report of Alaska Pipeline Project.
 Keywords
natural gas transmission pipeline;hydraulic design;flow equation;pressure drop;
 Language
Korean
 Cited by
 References
1.
Ramesh, S., Arctic Pipeline Planning, Elsevier, (2013)

2.
Joe, Z., Gordon, C., Beez, H. and James D. H., "An Integrated Engineering Model for Prediction of Strain Demands in Pipelines Subject to Frost Heave", Proceedings of IPC2006, Calgary, Alberta, Canada, (2006)

3.
Nixon, J. F., Sortland, K. A. and James, D. A., "Geotechnical Aspects of Northern Gas Pipeline Design", Proceedings of the Sixth Canadian Permafrost Conference, (1992)

4.
TransCanada, Application For License, (2007)

5.
TransCanada, and ExonMobil, Alaska Pipeline Project, Draft Resource Report 1 - Rev 0, General Project Description, (2011)

6.
BLACK & VEACH, Alaska Pipeline Project: Gas Off-take Study, (2011)

7.
Joint Review Panel for the Mackenzie Gas Project, Foundation for a Sustainable Northern Future, (2009)

8.
Canada National Energy Board, Mackenzie Gas Project - Reasons for Decision, (2011)

9.
Shashi, M. E., Gas Pipeline Hydraulics, Taylor & Francis Group, (2005)

10.
Payki, M. C., and Carlos P., "Considerations About Equation for Steady State Flow in Natural Gas Pipelines", J. of the Braz. Soc. Mech. Sci. & Eng, 29(3), 262-273, (2007) crossref(new window)

11.
LMNO Engineering, Research and Software, LTD, Gas Viscosity Calculator.

12.
ASME B31.8, Gas Transmission and Distribution Piping Systems, The American Society of Mechanical Engineers, (2010)

13.
Petroskills, Gas Conditioning and Processing, (2014)