. . . "Krylov Model Order Reduction of a Thermal Subsea Model" . . . "World Academy of Science, engineering and Technology" . . "Olsen Jelstad, T." . . "Krylov Model Order Reduction of a Thermal Subsea Model"@en . . "US - Spojen\u00E9 st\u00E1ty americk\u00E9" . "21220" . . "83827" . "2010-376X" . "8"^^ . . "Krylov Model Order Reduction of a Thermal Subsea Model"@en . "A subsea hydrocarbon production system can undergo planned and unplanned shutdowns during the life of the field. The thermal FEA is used to simulate the cool down to verify the insulation design of the subsea equipment, but it is also used to derive an acceptable insulation design for the cold spots. The driving factors of subsea analyses require fast responding and accurate models of the equipment cool down. This paper presents cool down analysis carried out by a Krylov subspace reduction method, and compares this approach to the commonly used FEA solvers. The model considered represents a typical component of a subsea production system, a closed valve on a dead leg. The results from the Krylov reduction method exhibits the least error and requires the shortest computational time to reach the solution. These findings make the Krylov model order reduction method very suitable for the above mentioned subsea applications."@en . "RIV/68407700:21220/13:00226087!RIV15-MSM-21220___" . . "B\u00E1rta, P." . "1"^^ . "4"^^ . "Model order reduction; Krylov subspace; subsea production system; finite element"@en . "[DBC09076C7BE]" . . . "77" . "Suleng, A." . "RIV/68407700:21220/13:00226087" . "Krylov Model Order Reduction of a Thermal Subsea Model" . . "A subsea hydrocarbon production system can undergo planned and unplanned shutdowns during the life of the field. The thermal FEA is used to simulate the cool down to verify the insulation design of the subsea equipment, but it is also used to derive an acceptable insulation design for the cold spots. The driving factors of subsea analyses require fast responding and accurate models of the equipment cool down. This paper presents cool down analysis carried out by a Krylov subspace reduction method, and compares this approach to the commonly used FEA solvers. The model considered represents a typical component of a subsea production system, a closed valve on a dead leg. The results from the Krylov reduction method exhibits the least error and requires the shortest computational time to reach the solution. These findings make the Krylov model order reduction method very suitable for the above mentioned subsea applications." . "I" . . "\u0160indler, Jaroslav" .