Thermal solver theory bibliography

The following bibliography lists all sources used to explain how the thermal solver works.

  1. Ainsworth M and Oden JT. "A unified approach to a-posteriori error estimation using element residual methods." Numerische Mathematik (1993) 65: 23–50.
  2. Bassett, M., Pearson, R., Fleming, N., and Winterbone, D., "A Multi-Pipe Junction Model for One-Dimensional Gas-Dynamic Simulations," SAE Technical Paper, 2003.
  3. Chapter, John J. "A Simplification Technique For Thermal Radiation In Gray Enclosures." Journal of Spacecraft and Rockets Vol. 7, No. 12 (1970): pp 1476.
  4. Chapter, John J. et al. "Simplified Radiation Analysis Using Modular Enclosures." Journal of Spacecraft and Rockets Vol. 8, No. 9,(1971): pp 1006.
  5. Crane Co., "Flow of Fluids through Valves, Fittings, and Pipe. Technical Paper No. 410 M." 2009.
  6. Edwards, D.K. and Bertak, I.V. "Imperfect Reflections In Thermal Radiation Heat Transfer", AIAA 5th Thermophysics Conference, LA, California USA. (1970 June 29-July 1). AIAA Paper 70-860.
  7. Ellison, Gordon N. Thermal Computations for Electronic Equipment Van Nostran Reinhold Co. 1984.
  8. Gebhart, B. "Unified Treatment For Thermal Radiation Transfer Processes ‑ Gray, Diffuse Radiators And Absorbers". ASME paper. 1957: Tech Rep 57 ‑ A ‑ 34.
  9. Gratsch, Thomas and Bathe, Klaus-Jurgen "A posteriori error estimation techniques in practical finite element analysis". Computers and Structures, Vol. 83, pp 235–265, 2005.
  10. Hageman, A.L., and Young. D.M. Applied Iterative Methods. Academic Press, 1981.
  11. Hager, W.H., "An Approximate Treatment of Flow in Branches and Bends", Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science,, 1984.
  12. Idel'chik, I.E. Handbook of Hydraulic Resistance ‑ Coefficients of Local Resistance and of Friction. Springfield: NTIS, 1960.
  13. Jasak, H. and Gosman, A.D. "Element residual error estimate for the finite volume method." Computers & Fluids.Vol 32, pp 223–248, 2003 .
  14. Karypis, George and Kumar, Vipin ."A Fast and High Quality Multilevel Scheme for Partitioning Irregular Graphs". SIAM Journal on Scientific Computing. Vol. 20 No. 1 pp. 359-392, 1999.
  15. Kraus, Allan D. Bar‑Cohen, Avram. Thermal Analysis and Control of Electronic Equipment Hemisphere, 1983.
  16. Melcor Thermoelectric Handbook.
  17. Rohsenow, W.M, Hearten, J.P, Ganic, E.N. Handbook of Heat Transfer Fundamentals, 2nd edition. McGraw‑Hill,1985.
  18. Saad, Y. "Preconditioned Krylov Subspace Methods for CFD Applications." Proceedings of the International Workshop on Solution Techniques for Large-Scale Problems, CERCA Centre de Recherche en Calcul Appliqué, Montreal, Quebec, Canada. (1994, Sept. 26-28).
  19. Schapiro, Ascher H. The Dynamics and Thermodynamics of Compressible Fluid Flow. The Ronald Press Co. 1953.
  20. Schornhorst, J. R., and Viskanta, R. "An Experimental Examination Of The Validity Of The Commonly Used Methods Of Radiant Heat Transfer Analysis." Journal Of Heat Transfer (Nov. 1968): pp 429.
  21. Sparrow, E. M. "A New And Simpler Formulation For Radiative Angle Factors. ASME Transactions." Journal Of Heat Transfer Vol. 85,Series C, pp 81, 1963).
  22. Steinberg, Dave. S. Cooling Techniques for Electronic Equipment. Wiley‑Interscience. 1980.
  23. Stevenson, J. A., and Grafton, J. C. "Radiation Heat Transfer Analysis For Space Vehicles", Wright Patterson Air Force Base. Report ASD 61‑119, 1961.
  24. Van der Vorst, H.A. and Sleijpen, G.L.G. "An Introduction to Hybrid Iterative Methods". Proceedings of the International Workshop on Solution Techniques for Large-Scale Problems, CERCA Centre de Recherché en Calcul Appliqué, Montreal, Quebec, Canada, (1994, Sept. 26-28).
  25. Zienkiewicz OC and Zhu JZ. "A simple error estimator and adaptive procedure for practical engineering analysis." International Journal for Numerical Methods in Engineering., 24:337–57, 1987.
  26. Lewis, R. W., Nithiarasu, P., Seetharamu, K. N., "Fundamentals of the finite element method for heat and fluid flow". Wiley, West Sussex, 2004.
  27. Taler, J. and Oclon, P., "Finite element method in steady-state and transient heat conduction". In: Hetnarski R.B. (eds) Encyclopedia of Thermal Stresses. Springer, Dordrecht, 2014.
  28. Hollauer, C., "Modeling of Thermal Oxidation and Stress Effects." Dissertation, Technische Universität Wien, 2007.
  29. Adamowicz, A., “Axisymmetric FE model to analysis of thermal stresses in a brake disk.” Journal of Theoretical and Applied Mechanics, 53, 2, pp. 357-370, Warsaw, 2015.
  30. Nikuradse, J., "Stromung in rauhen Rohren (Flow in Rough Pipes)." VDI-Forschungsheft, 361, pp. 1-56, 1933.
  31. Colebrook, C. F., "Turbulent flow in pipes with rough and smooth walls." Journal of the Institution of Civil Engineers, 11, 4, pp. 133-156, 1939.
  32. Cohen, M. F., Greenberg, D. P., "The hemicube: A radiosity solution for complex environments." ACM SIGGRAPH Computer Graphics, 19, 3, pp. 31-40, 1985.