SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3160443154> ?p ?o ?g. }

Showing items 1 to 67 of 67 with 100 items per page.

W3160443154 abstract "Cryogenics, a thermodynamics study on fluids at temperatures less than 120 K, has many applications in a variety of fields. However, the problem of the high temperature difference between ambient air and temperature of the cryogenic liquid in the transfer line, is a limiting factor. Thus, temperature leakage for heat gain in the transfer line is of utmost concern. Experimental works can be rather costly and dedicated Computational Fluid Dynamics (CFD) for cryogenics are limited and require many supporting peripherals. The aim of this study is to simulate velocity and temperature profiles of line liquid nitrogen using common CFD package (FLUENT) for fast tracking of flow characteristics of liquid nitrogen (LN2). In addition, this study numerically investigates the thermal and hydrodynamic performance of the Vacuum Insulated Pipe (VIP) and Polyurethane (PU) foam insulations by using an experimentally validated finite volume method (FVM) model. The continuum, momentum and energy equations are solved in the cryogenic temperature range. The LN2 is assumed as a homogenous liquid and incompressible at 4 bar operating pressure. The geometry and physics of the liquid nitrogen flow are axisymmetric for the horizontal transfer line. The simulation model in this study is solved using the commercially available CFD computational code. This study numerically investigates single phase heat transfer of LN2 pipe flow for the inlet volume flow range of 250 to 2000 litre per hour (LPH) at 4 bar operating pressure and 300 K ambient temperature under steady state conditions. A three-dimensional LN2 pipe flow with k-epsilon (k-e) turbulence simulation model has been conducted using CFD ANSYS FLUENT. Both insulator and jacket pipe layers are created as shell layers where the shell conduction model predicts the thermal resistance incurred in the presence of multilayers. The axisymmetric velocity results from the investigation are within the range of 0.44 to 3.39 m/s for inlet volume flow rates of 250 to 2000 LPH. The temperature distributions resulting from the LN2 pipe flow simulation with VIP are within the range of 77.0 K to 82.1 K for inlet volume flow rates of 250 to 2000 LPH. The wall heat flux for VIP used for the present study shows the relatively high heat transfer at the wall as compared to PU foam. In conclusion, the simulation model of LN2 pipe flow successfully developed and shown an optimum combination of multilayer insulation (MLI) with 20 layers and high vacuum provides the wall heat flux less than 1 W/m2. The simulation results provide useful insights on the flow field ofthe cryogenic transfer line." @default.
W3160443154 created "2021-05-24" @default.
W3160443154 creator A5048030005 @default.
W3160443154 date "2019-11-01" @default.
W3160443154 modified "2023-09-24" @default.
W3160443154 title "Cryogenic pipe flow simulation for liquid nitrogen under steady state conditions" @default.
W3160443154 hasPublicationYear "2019" @default.
W3160443154 type Work @default.
W3160443154 sameAs 3160443154 @default.
W3160443154 citedByCount "0" @default.
W3160443154 crossrefType "dissertation" @default.
W3160443154 hasAuthorship W3160443154A5048030005 @default.
W3160443154 hasConcept C108939769 @default.
W3160443154 hasConcept C121332964 @default.
W3160443154 hasConcept C127413603 @default.
W3160443154 hasConcept C1633027 @default.
W3160443154 hasConcept C179725390 @default.
W3160443154 hasConcept C192562407 @default.
W3160443154 hasConcept C196558001 @default.
W3160443154 hasConcept C2781029164 @default.
W3160443154 hasConcept C50478463 @default.
W3160443154 hasConcept C50517652 @default.
W3160443154 hasConcept C57879066 @default.
W3160443154 hasConcept C62520636 @default.
W3160443154 hasConcept C78519656 @default.
W3160443154 hasConcept C97355855 @default.
W3160443154 hasConceptScore W3160443154C108939769 @default.
W3160443154 hasConceptScore W3160443154C121332964 @default.
W3160443154 hasConceptScore W3160443154C127413603 @default.
W3160443154 hasConceptScore W3160443154C1633027 @default.
W3160443154 hasConceptScore W3160443154C179725390 @default.
W3160443154 hasConceptScore W3160443154C192562407 @default.
W3160443154 hasConceptScore W3160443154C196558001 @default.
W3160443154 hasConceptScore W3160443154C2781029164 @default.
W3160443154 hasConceptScore W3160443154C50478463 @default.
W3160443154 hasConceptScore W3160443154C50517652 @default.
W3160443154 hasConceptScore W3160443154C57879066 @default.
W3160443154 hasConceptScore W3160443154C62520636 @default.
W3160443154 hasConceptScore W3160443154C78519656 @default.
W3160443154 hasConceptScore W3160443154C97355855 @default.
W3160443154 hasLocation W31604431541 @default.
W3160443154 hasOpenAccess W3160443154 @default.
W3160443154 hasPrimaryLocation W31604431541 @default.
W3160443154 hasRelatedWork W1639284795 @default.
W3160443154 hasRelatedWork W1663266345 @default.
W3160443154 hasRelatedWork W1978491781 @default.
W3160443154 hasRelatedWork W1979511733 @default.
W3160443154 hasRelatedWork W2048102223 @default.
W3160443154 hasRelatedWork W2056093904 @default.
W3160443154 hasRelatedWork W2063110583 @default.
W3160443154 hasRelatedWork W2075528958 @default.
W3160443154 hasRelatedWork W2085125897 @default.
W3160443154 hasRelatedWork W2130908035 @default.
W3160443154 hasRelatedWork W2239192771 @default.
W3160443154 hasRelatedWork W2249989506 @default.
W3160443154 hasRelatedWork W2349511162 @default.
W3160443154 hasRelatedWork W2383655231 @default.
W3160443154 hasRelatedWork W2387490831 @default.
W3160443154 hasRelatedWork W2395634307 @default.
W3160443154 hasRelatedWork W2547076539 @default.
W3160443154 hasRelatedWork W3117382569 @default.
W3160443154 hasRelatedWork W3184533456 @default.
W3160443154 hasRelatedWork W72247770 @default.
W3160443154 isParatext "false" @default.
W3160443154 isRetracted "false" @default.
W3160443154 magId "3160443154" @default.
W3160443154 workType "dissertation" @default.