FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1966816504> ?p ?o ?g. }

• W1966816504 abstract "ABSTRACT Development of deep water oil and gas reserves require pipeline installation using J-Lay methods, limiting the number of working stations to 1 with the pipe axis vertical. This program researched the welding technology for J-Lay pipeline welding. It was found, with minor modifications, the narrow gap welding technology used for conventional offshore construction could be used effectively for J-Lay pipeline welding. Welding procedures were developed, mechanical properties tested and a simulated field trial performed successfully. INTRODUCTION Conventional offshore pipeline installation is done with the pipe axis in the horizontal position (5G) on the lay barge. The lay barge typically have a series of tensioners to hold the pipe into an S bend. This technology is not suitable for deep water. The maximum effective depth for S-Lay is dependent on the pipe diameter and lay vessel characteristics. For pipelines in water depths beyond S-Lay capabilities, the J-Lay technique must be used. The J-lay technique places the pipe axis in the vertical position (2G) on the lay barge with a continuous radius to the sea bottom. Generally, this technique reduces the tension required and makes it possible for much smaller vessels to perform the pipelay operation. The major limitation of the J-Lay technique is the number of working stations. A conventional lay barge will have 5 to 10 working stations. The work of welding, inspection, repair, and field coating is divided over these stations to maximize production. In the case of J-Lay construction all these functions must be performed in one station making the cycle time of adding one pipe length much longer than on a conventional barge. This group sponsored program was organized to research the application of high productivity, narrow gap, welding technology normally used for conventional pipeline welding for 2G pipeline construction. The sponsors of the program were:AMOCO Corporation BP ExplorationChevron Corporation Conoco, Inc.Exxon Production Research Kawasaki Steel Corp.Shell DevelopmentSumitomo Metal America, Inc.The program was carried out in 8 separate phases. They were:Phase 1- Equipment ModificationPhase II - Process EvaluationPhase Ill - Joint Design EvaluationPhase IV - Welding Position EvaluationPhase V - Welding Consumable EvaluationPhase VI - Pinal Procedure EvaluationPhase Vll - Cooling rate MeasurementPhase Vlll - Mechanical Property Testing MATERIALS The pipes used in this investigation were:24-inch-diameter, O.810-inch-wall, double-submerged-arc welded (DSAW), API 5LX-60 grade, and16-inch-diameter, 0.740-inch-wall, seamless, API 5LX-60 grade. The 24-inch-diameter pipe was controlled-rolled, accelerated-cooled (TMCP). The 16-inch- diameter pipe was quenched-and-tempered. The chemical compositions of these pipes are shown in Table 1. Both metal-core and solid filler wires were evaluated during Part II, Process Evaluation. The metal-core electrode was 0.035-inch-diameter, Alloy Rods, Coreweld 70 of the AWS E 70 T-1 classification. Solid wires of 0.035,0.040 and 0.045-inch-diameter of the four alloy groups, C-Mn, C-Mn-Ni, C-Mn-Ti, and C-Mn-Ti-B were used. The chemical composition of these solid, filler wires is shown in Table 2." @default.
• W1966816504 created "2016-06-24" @default.
• W1966816504 creator A5047954655 @default.
• W1966816504 creator A5067279118 @default.
• W1966816504 date "1991-05-06" @default.
• W1966816504 modified "2023-10-14" @default.
• W1966816504 title "J-Lay Pipeline Welding" @default.
• W1966816504 doi "https://doi.org/10.4043/6731-ms" @default.
• W1966816504 hasPublicationYear "1991" @default.
• W1966816504 type Work @default.
• W1966816504 sameAs 1966816504 @default.
• W1966816504 citedByCount "0" @default.
• W1966816504 crossrefType "proceedings-article" @default.
• W1966816504 hasAuthorship W1966816504A5047954655 @default.
• W1966816504 hasAuthorship W1966816504A5067279118 @default.
• W1966816504 hasConcept C10138342 @default.
• W1966816504 hasConcept C127413603 @default.
• W1966816504 hasConcept C162284963 @default.
• W1966816504 hasConcept C162324750 @default.
• W1966816504 hasConcept C175309249 @default.
• W1966816504 hasConcept C187320778 @default.
• W1966816504 hasConcept C18762648 @default.
• W1966816504 hasConcept C188198153 @default.
• W1966816504 hasConcept C19474535 @default.
• W1966816504 hasConcept C198082294 @default.
• W1966816504 hasConcept C199104240 @default.
• W1966816504 hasConcept C2776011996 @default.
• W1966816504 hasConcept C43521106 @default.
• W1966816504 hasConcept C78519656 @default.
• W1966816504 hasConcept C78762247 @default.
• W1966816504 hasConceptScore W1966816504C10138342 @default.
• W1966816504 hasConceptScore W1966816504C127413603 @default.
• W1966816504 hasConceptScore W1966816504C162284963 @default.
• W1966816504 hasConceptScore W1966816504C162324750 @default.
• W1966816504 hasConceptScore W1966816504C175309249 @default.
• W1966816504 hasConceptScore W1966816504C187320778 @default.
• W1966816504 hasConceptScore W1966816504C18762648 @default.
• W1966816504 hasConceptScore W1966816504C188198153 @default.
• W1966816504 hasConceptScore W1966816504C19474535 @default.
• W1966816504 hasConceptScore W1966816504C198082294 @default.
• W1966816504 hasConceptScore W1966816504C199104240 @default.
• W1966816504 hasConceptScore W1966816504C2776011996 @default.
• W1966816504 hasConceptScore W1966816504C43521106 @default.
• W1966816504 hasConceptScore W1966816504C78519656 @default.
• W1966816504 hasConceptScore W1966816504C78762247 @default.
• W1966816504 hasLocation W19668165041 @default.
• W1966816504 hasOpenAccess W1966816504 @default.
• W1966816504 hasPrimaryLocation W19668165041 @default.
• W1966816504 hasRelatedWork W11575662 @default.
• W1966816504 hasRelatedWork W1997683804 @default.
• W1966816504 hasRelatedWork W2034201017 @default.
• W1966816504 hasRelatedWork W2056926904 @default.
• W1966816504 hasRelatedWork W2067244444 @default.
• W1966816504 hasRelatedWork W2071131859 @default.
• W1966816504 hasRelatedWork W2078484072 @default.
• W1966816504 hasRelatedWork W2335484762 @default.
• W1966816504 hasRelatedWork W2353203422 @default.
• W1966816504 hasRelatedWork W17525212 @default.
• W1966816504 isParatext "false" @default.
• W1966816504 isRetracted "false" @default.
• W1966816504 magId "1966816504" @default.
• W1966816504 workType "article" @default.