| Citation: |
Bi Shuli, Qi Wenzhang, . Nonlinear Analysis Method Can Improve Pipeline Design[J]. Oil & Gas Storage and Transportation, 1997, 16(11): 56-60.
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ASME B31. 3-90: Chemical Plant and Petroleum Refinery Piping.
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| [2] |
ASME B31. 4-92: Liquid Transportation Systems for Hydrocarbons, Liquid Petroleum Gas» Anhydrous Ammonia, and Alcohols.
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| [3] |
ASME B31. 8-92: Gas Transmission and Distribution Piping Systems.
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| [4] |
CSA-Z662-94: Oil & Gas Pipeline Systems.
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| [5] |
BS 8010 Section 2- 8: Code of Practice for Pipelines-Section 2. 8 Steel for Oil and Gas, 1992.
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| [6] |
BS 8010-3 Code of Practice for Pipelines-Part 3: Pipelines Subsea Design, Construction and Installation, 1993.
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SNIP 2. 05- 06-85: Transmission Pipelines.
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| [8] |
ISO TC 67 SC2 Draft of the International Organization for Standardization: Pipeline Transportation Systems for the Petroleum and Natural Gas Industries.
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| [9] |
NEN 3650-1992: Requirements for Steel Pipeline Transportation Systems.
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| [10] |
CEN/TC 234 WG 3-1993 Draft of the European Committee for Standardization; Pipelines for Gas Transmission.
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| [11] |
API SPEC 5 L-1995: Line Pipe.
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| [12] |
Palmer, A; Limit State Design of Pipelines anti Its Inccwrporation in Design Codes, The Society of Naval Architects and Marine Engineers Design. Criteria and Codes Symposium, 1991.
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