nagimov/cyclotron-cryopanel
Mathematical model of the cryogenic pumping system of TRIUMF cyclotron
MatlabGPL-3.0
Issues
- 12
Make a model for the tank transfer lines
#52 opened by savreline - 8
Simulate the Cool-down Process in Detail
#49 opened by savreline - 9
Make a COMSOL Model of Cryopanels
#51 opened by savreline - 3
Make a SolidWorks Drawings of cryopanels
#50 opened by savreline - 1
Brainstorm Ideas for Experiments to be done
#53 opened by savreline - 4
- 6
Add pressure drop
#11 opened by savreline - 8
Add radiative heat transfer
#28 opened by savreline - 4
Temperature distribution in "wall's tail"
#31 opened by savreline - 5
Add conductive heat transfer to simple 4-flow model
#32 opened by savreline - 5
Add radiation heat transfer to simple 4-flow model
#33 opened by savreline - 3
Link 4-stream model
#34 opened by savreline - 7
Obtain precise values for all cryopanel parameters
#35 opened by savreline - 1
Get Data from XT Pages
#48 opened by savreline - 1
Simulate Simplified Cool-down Process
#47 opened by savreline - 19
Introduce limited heat conductance of the wall
#18 opened by nagimov - 5
wiki discussion
#7 opened by nagimov - 2
- 4
Dynamically compute U from fluid's properties
#30 opened by savreline - 5
Try working with CoolProp
#20 opened by savreline - 8
refprop investigations and approximations
#9 opened by savreline - 2
- 4
memory leak
#29 opened by nagimov - 1
- 26
Remove the one-phase assumption
#8 opened by savreline - 1
Introduce adjustable settings for solving different equations at different time steps
#13 opened by savreline - 9
Convert main code to P-H
#10 opened by savreline - 5
Add wall between HX streams
#12 opened by savreline - 2
Remove assumption that UA is constant
#6 opened by savreline - 13
Get Cp from refprop as a function of T
#5 opened by savreline - 2
integrate REFPROP with MATLAB
#3 opened by nagimov - 5