1 |
DeGeer, D. and Nessim, M., "Artic Pipeline Design Considerations", Proceedings of the ASME 27th International Conference on Offshore Mechanics and Artic Engineering, OMAE2008, June 15-20, Estoril, Portugal, OMAE2008-57802, (2008)
|
2 |
http://pipelinesinternational.com/news/overcoming _the_challenges_of_artic_pipelines/8037
|
3 |
Mackenzie Gathering System, Application to the National Energy Board for Approval of the Mackenzie Gathering System, Volume 2: Engineering Design ed., August 2004, MGRA2-2, (2004)
|
4 |
Ryden and Erik, B., "Energy Flow to Artic Tundra Surface and Experiences of Induced Disturbances", XX Polar Symposium, Lublin, 429-438, (1993)
|
5 |
Williams, P. J., Pipelines and Permafrost, Physical Geography and Development in the Circumpolar North, Longmans, London, 98, (1979)
|
6 |
Petroskills, Gas Conditioning and Processing, Volume 1: The Basic Principles, (2015)
|
7 |
Liu, Q. and Vasilyev, O.V., "A Brinkman Penalization Method for Compressible Flows in Complex Geometries", JCP, 227, 946-966, (2007).
DOI
|
8 |
Lele, S.A., "Compact Finite Difference Schemes with Spectral-like Resolution", JCP, 103, 16-42, (1992).
DOI
|
9 |
Gaitonde, D.V. and Visbal, M.R., "Pade-type higher-order boundary filters for the navier-stokes equations", AIAA, 38(11), 2103-2112, (2000).
DOI
|