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## Summary
When returning `Expression.Skip` and `Constriant.Skip`, users should be able to attach an exception, or at least exception text to explain why that node is being skipped.
### Rational…
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We offer GG 0.6 GG 0.7 GG 0.8 GG1.0 and B5 insulation bricks, and also other thermal insulation bricks. These thermal insulation bricks are made from different raw materials such as diatomite, clay,…
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In the future, I plan to separate the running of the simulation from the analysis so that the analysis could be performed separately with many different parameters. This will free the config files fro…
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1. material models for prediction some material parameters:
temperature dependent viscosity,
temperature dependent surface tension,
temperature dependent thermal conductivity,
temperature depend…
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The current upper-bound limitation for the calculation of thermodynamic and transport properties is 100 atm (10 MPa). For the simulation of higher total pressure rocket nozzles, coefficients for enth…
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The rotational energy must also be included for systems with rotational degrees of freedom.
See the notes of this reference entry for more details:
http://localhost/index.php/outputplugins#thermalcond…
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You can add missing items below.
Note that best to include an image that can be used as a template to create a vector.
- [ ] E. coli cell
- [ ] flow cytometry
- [ ] FACS machine
- [ ] Roboti…
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Right now we assume constant thermal conductivity and constant heat capacity. For water-ice, these vary significantly between the solid and liquid phases.
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Hello, I would like to ask how to use ALAMODE to calculate the thermal conductivity of superlattices with defects or impurities?
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For some examples I'm running, if I use too large a time step or too high a thermal conductivity, the nekRS-MOOSE thermal solution diverges - the flux and temperature on the shared surface between the…