Textbooks

  1. Bergman, T.L., Lavine, A.S., Incropera, F.P., and DeWitt, D.P., 2011, Fundamentals of Heat and Mass Transfer, John Wiley & Sons, Hoboken, NJ.
  2. Bergman, T.L., Lavine, A.S., Incropera, F.P., and DeWitt, D.P., 2011, Introduction to Heat Transfer, John Wiley & Sons, Hoboken, NJ.

Journal papers

  1. Tse, L. A., Ganapathi, G. B., Wirz, R. E., and Lavine, A. S., 2014, "Spatial and temporal modeling of sub-and supercritical thermal energy storage," Solar Energy, 103, 402-410.
  2. Lakeh, R. B., Lavine, A.S., Kavehpour, H. P., Ganapathi, G. B., and Wirz, R. E., 2013, “The effect of laminar and turbulent natural convection on supercritical thermal storage,” Numerical Heat Transfer – Part A, accepted.
  3. Bulgrin, K.E., Ju, Y.S., Carman, G.P, and Lavine, A.S., 2011, “An Investigation of a Tunable Magnetomechanical Thermal Switch,” J Heat Transfer, Vol. 133, No. 10, Article No. 101401.
  4. Sasa, L.A., Yearley, E.J., Jablin, M.S., Gilbertson, R.D., Lavine, A.S., Majewski, J., and Hjelm, R.P., 2011, “Shear-induced metastable states of end-grafted polystyrene,” Phys Rev E, Vol. 84, Article No. 021803.
  5. Lavine, A.S. and Bergman, T.L., 2008, “Small and large time solutions for surface temperature, surface heat flux, and energy input in transient, one-dimensional conduction,” J Heat Transfer, Vol. 130, No. 10, Article No. 101302.
  6. Demetriou, M.D., Ghoniem, N.M., and Lavine, A.S., 2002, “Effects of Nucleation Transience on Crystallization Kinetics under Strongly Nonequilibrium Conditions,” J Chem Physics, Vol. 117, pp. 10739-10743.
  7. Demetriou, M.D., Ghoniem, N.M., and Lavine, A.S., 2002, “Modeling of Graphitization Kinetics during Peritectic Melting of Tungsten Carbide,” Acta Materialia, Vol. 50, pp. 4995-5004.
  8. Demetriou, M.D., Ghoniem, N.M., and Lavine, A.S., 2002, “Kinetic Modeling of Phase Selection during Non-Equilibrium Solidification of a Tungsten-Carbon System,” Acta Materialia, Vol. 50, pp. 1421-1432.
  9. Demetriou, M.D., Ghoniem, N.M., and Lavine, A.S., 2002, “Computation of Metastable Phases in Tungsten-Carbon System,” J Phase Equilib, Vol. 23, No. 4, pp. 305-309.
  10. Demetriou, M.D., Lavine, A.S., and Ghoniem, N.M., 2002, “Feasibility of Plasma Spraying in Developing MMC Coating,” J Manuf Sci and Eng, Vol. 124, pp. 58-64.
  11. Lavine, A.S. and Carman, G.P., 2000, “Thermomechanical Modeling of Thin Film Shape Memory Alloy Devices,” Thermal Sci and Engin, Vol. 8, pp. 13-23.
  12. Lavine, A.S., 2000, “An Exact Solution for Surface Temperature in Down Grinding,” Int J Heat Mass Transfer, Vol. 43, pp. 4447-4456.
  13. Demetriou, M.D. and Lavine, A.S., 2000, “Thermal Aspects of Grinding: The Case of Upgrinding,” J Manuf Sci and Eng, Vol. 122, pp. 605-611.
  14. Cooper, W.L. and Lavine, A.S., 2000, “Grinding Process Size Effect and Kinematics Numerical Analysis,” J Manuf Sci and Eng, Vol. 122, pp. 59-69.
  15. Tari, M.J., Imbert, J.-P., Lin, M.Y., Lavine, A.S., and Hahn, H.T., 1998, “Analysis of Resin Transfer Molding with High Permeability Layers,” J Manuf Sci and Eng, Vol. 120, pp. 609-616.
  16. Stephenson, D.A., Jen, T.-C., and Lavine, A.S., 1997, “Cutting Tool Temperatures in Contour Turning: Transient Analysis and Experimental Verification,” J Manuf Sci and Eng, Vol. 119, pp. 494-501.
  17. Chen, S.S., and Lavine, A.S., 1996, “Laminar, Buoyancy Induced Flow Structures in a Bottom Heated, Aspect Ratio Two Duct with Throughflow,” Int J Heat Mass Transfer, Vol. 39, pp. 1-11.
  18. Mardini, J.A., Lavine, A.S., and Dhir, V.K., 1996, “Heat and Mass Transfer in Wooden Dowels During a Simulated Fire - An Experimental and Analytical Study,” Int J Heat Mass Transfer, Vol. 39, pp. 2641-2651.
  19. Jen, T.C., and Lavine, A.S., 1996, “A Variable Heat Flux Model of Heat Transfer in Grinding with Boiling,” J Heat Transfer, Vol. 118, pp. 463-470.
  20. Bai, C. and Lavine, A.S., 1995, “On Hyperbolic Heat Conduction and the Second Law of Thermodynamics,” J Heat Transfer, Vol. 117, pp. 256-263.
  21. Jen, T.C. and Lavine, A.S., 1995, “A Variable Heat Flux Model of Heat Transfer in Grinding: Model Development,” J Heat Transfer, Vol. 117, pp. 473-478.
  22. Lavine, A.S. and Bai, C., 1994, “Hyperbolic Heat Conduction in Thin Domains,” Thermal Sci and Engin, Vol. 2, No. 1, pp. 185-190.
  23. Lavine, A.S., 1993, “On the Linear Stability of Mixed and Free Convection Between Inclined Parallel Plates with Fixed Heat Flux Boundary Conditions,” Int J Heat Mass Transfer, Vol. 36, pp. 1373-1381.
  24. Jen, T.C. and Lavine, A.S., 1992, “Laminar Heat Transfer and Fluid Flow in the Entrance Region of a Rotating Duct with Rectangular Cross-Section - The Effect of Aspect Ratio,” J Heat Transfer, Vol. 114, pp. 574-581.
  25. Jen, T.C., Lavine, A.S., and Hwang, G.J., 1992, “Simultaneously Developing Laminar Convection in Rotating Isothermal Square Channels,” Int J Heat Mass Transfer, Vol. 35, pp. 239-254.
  26. Harris, M.W. and Lavine, A.S., 1991, “Thermal Aspects of Grinding: The Effect of the Wheel Bond on Heat Transfer to an Abrasive Grain,” J Eng Ind, Vol. 113, pp. 395-401.
  27. Lavine, A.S., 1991, “Thermal Aspects of Grinding: The Effect of Heat Generation at the Shear Planes,” CIRP Annals, Vol. 40, pp. 343-345.
  28. Lavine, A.S. and Jen, T.C., 1991, “Thermal Aspects of Grinding: Heat Transfer to Workpiece, Wheel, and Fluid,” J Heat Transfer, Vol. 113, pp. 296-303.
  29. Lavine, A.S. and Jen, T.C., 1991, “Coupled Heat Transfer to Workpiece, Wheel, and Fluid in Grinding, and the Occurrence of Workpiece Burn,” Int J Heat Mass Transfer, Vol. 34, pp. 983-992.
  30. Lavine, A.S. and Bai, C., 1991, “An Analysis of Heat Transfer in Josephson Junction Devices,” J Heat Transfer, Vol. 113, pp. 535-543.
  31. Lavine, A.S. and Malkin, S., 1990, “The Role of Cooling in Creep Feed Grinding,” Int J Adv Manuf Technol, Vol. 5, pp. 97-111.
  32. Lavine, A.S., Malkin, S., and Jen, T.C., 1989, “Thermal Aspects of Grinding with CBN Wheels,” CIRP Annals, Vol. 38, No. 1, pp. 557-560.
  33. Ying, A., Lavine, A.S., and Tillack, M., 1989, “The Effect of Hartmann and Side Layers on Heat Transfer in Magnetohydrodynamic Flow,” Fusion Technology, Vol. 15, pp. 1169-1173.
  34. Picologlu, B.F., Reed, C.B., Hua, T.Q., and Lavine, A.S., 1989, “The Design of a Heat Transfer Liquid Metal MHD Experiment for ALEX,” Fusion Technology, Vol. 15, pp. 1186-1191.
  35. Lavine, A.S., Kim. M.Y., and Shores, C.N., 1989, “Flow Reversal in Opposing Mixed Convection Flow in Inclined Pipes,” J Heat Transfer, Vol. 111, pp. 114-120.
  36. Lavine, A.S., 1988, “A Simple Model for Convective Cooling During the Grinding Process,” J Eng Ind, Vol. 110, pp. 1-6.
  37. Lavine, A.S., 1988, “Analysis of Fully Developed Opposing Mixed Convection Between Inclined Parallel Plates,” Warme- und Stoffubertragung, Vol. 23, pp. 249-257.
  38. Lavine, A.S., Greif, R., and Humphrey, J.A.C., 1987, “A Three-Dimensional Analysis of Natural Convection in a Toroidal Loop - the Effect of Grashof Number,” Int J Heat Mass Transfer, 30:251-262.
  39. Lavine, A.S., Greif, R., and Humphrey, J.A.C., 1986, “Three-Dimensional Analysis of Natural Convection in a Toroidal Loop: Effect of Tilt Angle,” J Heat Transfer, Vol. 108, pp. 796-805.
  40. Mertol, A., Lavine, A., and Greif, R., 1984, “A Study of the Variation of the Pressure in a Natural Circulation Loop,” Int J Heat Mass Transfer, Vol. 27, pp. 626-630.
  41. Wilkes, K.E., Godfrey, R.D., and Lavine, A.G., 1982, “Wall Massiveness - What is Known Today About Annual Energy Requirements,” ASHRAE J, pp. 21-23.
  42. Godfrey, R.D., Wilkes, K.E., and Lavine, A.G., 1980, “A Technical Review of the ‘M’ Factor Concept,” ASHRAE J, pp. 47-50.

Conference papers

  1. Lavine, A.S., Lovegrove, K. M., Jordan, J., Bran-Anleu, G., Chen, C., Aryafar, H., Sepulveda A., 2015, “Thermochemical Energy Storage with Ammonia: Aiming for the SunShot Cost Target,” 21st SolarPACES Conference, Cape Town, South Africa, 2015, (October 2015).
  2. Chen, C., Aryafar, H., Warrier G., Lovegrove, K. M., Lavine, A.S., 2015, “Ammonia Synthesis for Producing Supercritical Steam in the Context of Solar Thermochemical Energy Storage,” 21st SolarPACES Conference, Cape Town, South Africa, 2015.
  3. Chen, C., Lovegrove, K., Kavehpour, H.P. and Lavine, A.S., 2015, “Design of an Ammonia Synthesis System for Producing Supercritical Steam in the Context of Thermochemical Energy Storage,” ASME 2015 Power Conference collocated with the ASME 2015 9th International Conference on Energy Sustainability, the ASME 2015 13th International Conference on Fuel Cell Science, Engineering and Technology, and the ASME 2015 Nuclear Forum.
  4. LChao, I.H., Pan, L., Sun, C., Zhang, X., and Lavine, A.S., 2013, “A Coupled Electromagnetic and Thermal Model for Picosecond and Nanometer Scale Plasmonic Lithography Process,” ASME 2013 International Mechanical Engineering Congress and Exposition IMECE2013, San Diego, CA, USA.
  5. Lakeh, R.B., Kavehpour, H.P., Lavine, A.S., Ganapathi, G.B., and Wirz, R.E., 2013, “Study of turbulent natural convection in vertical storage tubes for supercritical thermal storage system,” ASME 2013 International Mechanical Engineering Congress and Exposition IMECE2013, San Diego, CA, USA.
  6. Bran-Anleu, G., Kavehpour, H.P., Lavine, A.S., Lakeh R.B., and Wirz, R.E., 2013, “An Algorithm to Determine the Optimized Data Range in Transient Hotwire Thermal Property Measurement,” ASME 2013 International Mechanical Engineering Congress and Exposition IMECE2013, San Diego, CA, USA.
  7. Furst, B., Lavine, A.S., Lakeh, R.B., and Wirz, R.E., 2013, “Isobaric, Isochoric and Supercritical Thermal Energy Storage in R134a,” ASME 2013 International Mechanical Engineering Congress and Exposition IMECE2013, San Diego, CA, USA.
  8. Lakeh R. B., Lavine, A.S., Kavehpour, H.P., Ganapathi, G.B., and Wirz, R.E, 2013, “Effect of natural convection on thermal energy storage using supercritical fluids,” Proc. ASME 7th International Conference on Energy Sustainability, Minneapolis, MN, USA.
  9. Tse, L., Ganapathi, G., Wirz, R., and Lavine, A., 2012, “System Modeling for a Supercritical Thermal Energy Storage System,” Proc. ASME 2012 6th International Conference on Energy Sustainability, Paper No. 2012-91011, July 23-26, 2012, San Diego, CA.
  10. Bulgrin, K.E., Lavine, A.S., and Ju, Y.S., 2009, “Magnetomechanical Thermal Diode with Tunable Switching Temperatures,” Proc. 9th Int’l Workshop on Micro & Nanotechnology for Power Generation & Energy Conversion Applications.
  11. Bulgrin, K.E., Ju, Y.S., Carman, G.P., and Lavine, A.S., 2009, “A Coupled Thermal and Mechanical Model of a Thermal Energy Harvesting Device,” Proceedings of ASME International Mechanical Engineering Congress & Exposition, IMECE2009-13040.
  12. Bulgrin, K.E, Ju, Y.S., Carman, G.P., Lavine, A.S., 2009, “A Tunable Magnetomechanical Thermal Switch for Thermal Management Purposes,” Proceedings of ASME Summer Heat Transfer Conference, HT2009-88571.
  13. Bulgrin, K.E., Lavine, A.S., Carman, G.P., and Ju, Y.S., 2008, “A Multi-Physics Model of a Novel Two-Step Thermal Energy Harvesting Device,” MRS 2008 Spring Meeting.
  14. Noffz, G.K., Lavine, A.S., Hamory, P.J., 2003, “Experimental Evaluation of Hot Films on Ceramic Substrates for Skin Friction Measurement,” Proc. 6th ASME-JSME Thermal Engineering Joint Conference.
  15. Demetriou, M.D., Lavine, A.S., and Ghoniem, N.M., 1999, “Modeling of Heating of Composite Powder Particles in Plasma Spray Processing,” Proc. of the ISAPS ’99 Advances in Applied Plasma Science, Vol. 2, pp. 431-438.
  16. Favelukis, J.E., Lavine, A.S., and Carman, G.P., 1999, “An Experimentally Validated Thermal Model of Thin Film NiTi,” Proceedings of SPIE, Smart Structures and Materials 1999: Smart Structures and Integrated Systems, Vol. 3668-56, pp. 617-629.
  17. Demetriou, M.D., Lavine, A.S., and Ghoniem, N.M., 1999, “Numerical Simulation of Plasma Heating of a Composite Powder Particle,” Proc. of the 5th ASME/JSME Joint Thermal Engineering Conference, Paper No. AJTE99-6158.
  18. Noffz, G.K. and Lavine, A.S., 1999, “Finite Element Studies of Hot-Films for Skin Friction Measurement,” Proc. of the 5th ASME/JSME Joint Thermal Engineering Conference, Paper No. AJTE99-6147.
  19. Lavine, A.S. and Malkin, S., 1999, “Reducing the Use of Environmentally Hazardous Fluids in Grinding: Grinding Power and Energy Partition for a Selection of Fluids,” Proc. of NSF Design and Manufacturing Conference.
  20. Demetriou, M.D. and Lavine, A.S., 1998, “Reducing the Use of Environmentally Hazardous Fluids in Grinding: Evaluation of Liquid Nitrogen Cooling,” Proc. of NSF Design and Manufacturing Conference.
  21. Demetriou, M.D., Lavine, A.S., and Ghoniem, N.M., 1997, “Numerical Simulation of Plasma Heating of Powder Particles,” Proc. of the First International Symposium on Applied Plasma Science, pp. 75-82.
  22. Demetriou, M.D. and Lavine, A.S., 1997, “Thermal Aspects of Grinding: The Case of Upgrinding,” Proc. of the ASME National Heat Transfer Conference, Vol. 9, HTD-Vol. 347, pp. 251-259.
  23. Lavine, A.S. and Demetriou, M.D., 1997, “Reducing the Use of Environmentally Hazardous Fluids in Grinding: A Thermal Model for Upgrinding,” Proc. of NSF Design and Manufacturing Grantees Conference, pp. 371-372.
  24. Cooper, W.L. and Lavine, A.S., 1996, “Grinding Process Size Effect and Kinematics Numerical Analysis,” Proc. of the 1996 ASME International Mechanical Engineering Congress and Exhibition, Materials Issues in Machining - III and The Physics of Machining Processes - III, pp. 97-114.
  25. Bai, C., Chung, M., and Lavine, A.S., 1995, “Transient Heat Transfer in Thin Films,” Proc. of the 1995 ASME/JSME Thermal Engineering Joint Conference, Vol. 1, pp. 511-517.
  26. Jen, T.C. and Lavine, A.S., 1995, “Laminar Mixed Convection in the Entrance Region of a Horizontal Fully Porous Channel,” Proc. of the 1995 ASME International Mechanical Engineering Congress and Exposition, Paper No. 95-WA/HT-14.
  27. Cooper, W.C. and Lavine, A.S., 1995, “Kinematic and Thermal Modeling of Industrial Camshaft Grinding,” Proc. of NSF Design and Manufacturing Conference.
  28. Stephenson, D.A., Jen, T.C., and Lavine, A.S., 1995, “Cutting Tool Temperatures in Contour Turning: Transient Analysis and Experimental Verification,” Proc. of the 1995 National Heat Transfer Conference, ASME HTD-Vol. 306, pp. 191-199.
  29. Lavine, A.S., 1994, “Thermal Aspects of Grinding and Transient Machining,” Proc. of NSF Design and Manufacturing Systems Conference.
  30. Jen, T.C. and Lavine, A.S., 1994, “Prediction of Tool Temperatures in Cutting,” Proc. of 7th Int’l. Symposium on Transport Phenomena in Manufacturing Processes, pp. 211-216.
  31. Jen, T.C. and Lavine, A.S., 1994, “A Comparison Between Two Approaches for Calculating Temperatures of Surfaces Exposed to Discrete Moving Heat Sources,” Proc. of the 6th AIAA/ASME Thermophysics and Heat Transfer Conference, Transport Phenomena in Manufacturing and Materials Processing, ASME HTD-Vol. 280, pp. 13-17.
  32. Lavine, A.S. and Bai, C., 1993, “Hyperbolic Heat Conduction in Thin Domains,” The Japan-US Seminar on Molecular and Microscale Transport Phenomena, Kanazawa, Japan.
  33. Lavine, A.S., 1993, “Thermal Aspects of Grinding: I. Flow Boiling and II. Temperature Matching,” Proc. of NSF Design and Manufacturing Systems Conference, Vol. 1, pp. 209-212.
  34. Bai, C. and Lavine, A.S., 1993, “Thermal Boundary Conditions for Hyperbolic Heat Conduction,” Proc. of the ASME National Heat Transfer Conference, Heat Transfer on the Microscale, ASME HTD-Vol. 253, pp. 37-44.
  35. Mardini, J.A. Lavine, A.S., and Dhir, V.K., 1993, “On the Effects of the Governing Parameters on the Time to Ignition and Weight Loss of a Simulated Fuel Element During a Fire,” Proc. of ASME Winter Annual Meeting, Paper No. 93-WA/HT-45.
  36. Mardini, J.A., Lavine, A.S., and Dhir, V.K., 1993, “Experimental and Analytical Study of Heat and Mass Transfer in a Simulated Fuel Element During Fires,” Proc. of the ASME National Heat Transfer Conference, Heat Transfer in Fire and Combustion Systems, ASME HTD-Vol. 250, pp. 1-10.
  37. Lavine, A.S., 1992, “Thermal Aspects of Grinding and Honing,” Proc. of NSF Design and Manufacturing Systems Conference.
  38. Jen, T.C. and Lavine, A.S., 1992, “Thermal Aspects of Grinding: The Effect of Flow Boiling,” Proc. of the 1992 ASME National Heat Transfer Conference, Transport Phenomena in Materials Processing and Manufacturing, ASME HTD Vol. 196, pp. 91-98.
  39. Bai, C. and Lavine, A.S., 1992, “Non-Equilibrium Hyperbolic Type Heat Conduction Equation,” Proc. of the 1992 ASME National Heat Transfer Conference, Heat Transfer on the Microscale, ASME HTD Vol. 200, pp. 79-87.
  40. Chen, S.S. and Lavine, A.S., 1992, “Buoyancy Induced Flow Structures in the Low Reynolds Number Regime of Horizontal, Moderate Aspect Ratio Ducts,” Proc. of the 1992 ASME National Heat Transfer Conference, General Papers in Heat Transfer, ASME HTD Vol. 204, pp. 115-124.
  41. Jen, T.C. and Lavine, A.S., 1992, “Thermal Aspects of Grinding: An Improved Model of Heat Transfer to Workpiece, Wheel, and Fluid,” Proc. of the 1992 ASME Winter Annual Meeting, Heat Transfer in Materials Processing, ASME HTD-Vol. 224, pp. 1-8.
  42. Lavine, A.S., 1991, “Thermal Aspects of Grinding: The Effect of Heat Generation at the Shear Planes,” presented at the 41st CIRP General Assembly.
  43. Bai, C. and Lavine, A.S., 1991, “Hyperbolic Heat Conduction in a Superconducting Film,” Proc. of the 1991 ASME/JSME Thermal Engineering Joint Conference, Vol. 4, pp. 87-92.
  44. Lavine, A.S., 1991, “Thermal Aspects of Grinding: Theoretical and Experimental Investigations Concerning Heat Transfer to the Wheel,” Proc. of NSF Design and Manufacturing Systems Conference, pp. 255-262.
  45. Harris, M.W. and Lavine, A.S., 1990, “Thermal Aspects of Grinding: The Effect of the Wheel Bond on Heat Transfer to an Abrasive Grain,” Proc. of ASME Winter Annual Meeting, Transport Phenomena in Materials Processing - 1990, HTD-Vol. 146, pp. 9-16.
  46. Chen, S.S., Lavine, A.S., and McDonough, J.M., 1990, “Computations of Three-Dimensional Opposing Mixed Convection Between Inclined Heated Plates,” Proc. of the Ninth International Heat Transfer Conference, Vol. 3, pp. 291-296.
  47. Lavine, A.S., 1990, “Analysis of Thermal Aspects of Grinding: Heat Transfer to Workpiece, Wheel, and Fluid,” Proc. of NSF Design and Manufacturing Systems Conference, Vol. 1, pp. 497-502.
  48. Lavine, A.S. and Jen, T.C., 1989, “Thermal Aspects of Grinding: Heat Transfer to Workpiece, Wheel, and Fluid,” Proc. of ASME Winter Annual Meeting, Collected Papers in Heat Transfer 1989, HTD Vol. 123, pp. 267-274.
  49. Mardini, J., Lavine, A.S., Dhir, V.K., and Anderson, E.B., 1989, “Heat and Mass Transfer in Live Fuel During the Process of Drying, Pyrolysis, and Ignition,” Proc. of the 1989 National Heat Transfer Conf., HTD-106, pp. 367-373.
  50. Lavine, A.S. and Bai, C., 1989, “An Analysis of Heat Transfer in Josephson Junction Devices,” Proc. of ASME Winter Annual Meeting, Superconductivity Advances and Applications - 1989, AES Vol. 9, pp. 33-40.
  51. Lavine, A.S. and Malkin, S., 1988, “The Role of Cooling in Creep Feed Grinding,” SME Paper No. MR88-618, Proc. of 3rd Int’l Grinding Conf..
  52. Lavine, A.S., 1988, “Analysis of Fully Developed Aiding Mixed Convection Between Inclined Parallel Plates,” Proc. of the 1988 National Heat Transfer Conference, HTD-96, Vol. 2, pp. 87-94.
  53. Lavine, A.S., Kim, M.Y., Shores, C.N. 1987, “Flow Reversal in Mixed Convection Flow in Inclined Pipes - Stability Characteristics,” Proc. of the ASME/JSME Thermal Engineering Joint Conference, Vol. 3, pp. 645-652.
  54. Lavine, A.S., 1987, “Analysis of Fully Developed Opposing Mixed Convection Between Inclined Parallel Plates,” in Mixed Convection Heat Transfer - 1987, HTD Vol. 84, pp. 29-35.
  55. Lavine, A.S., 1987, “A Simple Model For Convective Cooling During the Grinding Process,” Proc. of the ASME/JSME Thermal Engineering Joint Conference, Vol. 3, pp. 259-265.
  56. Lavine, A.S., Shores, C.N., Kim, M.Y. 1986, “Flow Reversal in Mixed Convection Flow in Inclined Pipes,” ASME Paper No. 86-WA/HT-79.
  57. Lavine, A.S., Greif, R., Humphrey, J.A.C., 1985, “A Three-Dimensional Analysis of Natural Convection in a Toroidal Loop - The Effect of Tilt Angle,” ASME Paper No. 85-WA/HT-7.
  58. Lavine, A., Rucker, J.L., Wilkes, K.E., 1983, “Flanking Loss Calibration for a Calibrated Hot Box,” American Society for Testing and Materials, STP 789, pp. 234-237.