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Explore low-temperature data for magnet materials like Cu, NbTi, and insulation, covering specific heat, thermal conductivity, and resistivity. Dive into the MQY studies on heat conduction and convection of helium, along with computational fluid dynamics applications across various industries. Discover the HePAC program for calculating helium properties and the importance of updating old DOS programs for accurate data analysis.

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  1. G.A.Kirby Content of Presentation • Low temperature data for magnet-materials (Cu, NbTi,Insulation) Specific heat, thermal conductivity, resistivity ……. • 4.5K Thermosyphon and 1.9K conduction • HEPAC Old DOs program calculates: helium properties at different temp and pressures • \\Srv2_div\cryo\TOOLS\CRYODATA\HEPAK3.4 • Computational Fluid Dynamics. https://edms.cern.ch/document/624664/1 . • MQY study. Heat Conduction through coil with a simple annular heating. (study completed) • MQY study. Convection of helium through MQY structure. (study in progress)

  2. ** Hunt for data ** Materials NbTi Cupper Kapton Epoxy Stainless Steel Iron Cryogenic Material Properties Cp Resistivity Conductivity ……..

  3. 4.5K thermosyphon and 1.9K conduction >10^5 its turbulent Van Sciver, “Helium Cryogenics”, pp. 143 - 144

  4. HePAC HEPAK is a computer program for calculating the thermophysical properties of helium from fundamental state equations. The state equations are valid from 0.8 Kelvin or the melting line to 1500 Kelvin, including the superfluid range, the lambda line, and liquid vapor mixtures; as a function of pressure they are valid up to 1000 bars, except between 80 and 300 Kelvin where they are valid to 20,000 bars. HEPAK also includes thermal transport properties in both normal and superfluid, the dielectric constant, refractive index, and fluid surface tension. The user of HEPAK and this manual should be familiar with thermophysical concepts as applied to fluid properties Old Dos Program that give Helium many properties. BUT needed updating to new system before Dos disappears or changes ! \\Srv2_div\cryo\TOOLS\CRYODATA\HEPAK3.4

  5. Computational Fluid Dynamics TS/CV/Detector Cooling - CFD Team • Computational Fluid Dynamics (CFD) is an analysis of fluid flow, heat transfer and associated phenomena in physical systems using numerical methods. • The basis of computational fluid dynamics is the reduction of the continuum differential equations describing the dynamics of the fluid (Navier-Stokes + mass and energy conservation equations) into a system of algebraic equations at a finite number of "grid" points, and the solving of the equations at these limited number of points only.

  6. A wide range of application fields Aerospace Automotive Biomedical Buildings Chemical Environment Marine Power gen. Turbo-machinery

  7. Steel Fiberglass Epoxy 4.2 K Kapton NbTi Cu Heat source MQY study. Heat Conduction through coil with a simple annular heating at inner radii.

  8. Conduction heat distribution results 6.9 K 5.7 K Heating 50 mW/mm^3 Into 2mm annulus Heating 100 mW/cm^3 Into 2mm annulus

  9. Heat load

  10. Convection heat transfer through MQY at 4.5K

  11. Future tests Quench heaters

  12. The end

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