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Gore Research

Publications

Gore research group has contributed in diverse fields ranging from turbulent combustion and radiation heat transfer, radiant burners to biofuels and biomedical flows. Publications are classified in different categories and listed below, 

Latest Publications

  •  Luke Dillard, Mehmed S. Ulcay, and Jay P. Gore "Effects of Pressure on Minimum Hot Surface Ignition Temperatures (MHSIT) in Hot Air Cross-Flows," AIAA Science and Technology Forum, Exposition Music City Center, Nashville, TN, 11-15 January, 2021.
  •  Rathziel Roncancio, Jupyoung Kim, Aly El Gamal, and Jay P. Gore “Data-driven Analysis of Turbulent Flame Images,” AIAA Science and Technology Forum, Exposition Music City Center, Nashville, TN, 11-15 January, 2021.        
  •  M. S. Ulcay, L. N. Dillard, J. P. Gore, P. C. Sweeney, "Machine Learning based Calculations of Minimum Hot Surface Fluid Ignition Temperature," 2020 Spring Technical  Meeting Central States Section of the Combustion Institute, Huntsville, AL, May 2020. 
  • V. R. Hasti, R. P. Lucht, and J. P. Gore, “Large eddy simulation of hydrogen piloted CH4/air premixed combustion with CO2 dilution,”J. Energy Inst., vol. 93, no. 3, pp. 1099–1109, Jun. 2020.
  • J. Kim, A. Satija, R. P. Lucht, and J. P. Gore, “Effects of turbulent flow regime on perforated plate stabilized piloted lean premixed flames,”  Combust. Flame, vol. 211, pp. 158–172, 2020 
  •  R. Roncancio, M. S. Ulcay, J. E. Arango, and J. P. Gore, “Experimental study of CO2 corn stover char gasification using iron nitrate as a catalyst under a high-pressure environment,” Fuel, vol. 267, p. 117237, May 2020.

Journals

Turbulent Combustion and Radiation Heat Transfer

 1.     V. R. Hasti, R. P. Lucht, and J. P. Gore, “Large eddy simulation of hydrogen piloted CH4/air premixed combustion with CO2 dilution,”
          J. Energy Inst., vol. 93, no. 3, pp. 1099–1109, Jun. 2020.
 
 2.    J. Kim, A. Satija, R. P. Lucht, and J. P. Gore, “Effects of turbulent flow regime on perforated plate stabilized piloted lean premixed flames,”   
         Combust. Flame, vol. 211, pp. 158–172, 2020.
 
 3.     M. E. Feyz, M. R. Nalim, V. R. Hasti, and J. P. Gore, “Modeling and analytical solution of near-field entrainment in suddenly started   
          turbulent jets,” AIAA J., 2019.
 
 4.     M. E. Feyz, V. R. Hasti, J. P. Gore, and M. R. Nalim, “Large eddy simulation of hot jet ignition in moderate and high-reactivity mixtures,”
          Comput. Fluids, 2019.  
 

 5.     D. Han, A. Satija, J. P. Gore, and R. P. Lucht, “Experimental study of CO2 diluted, piloted, turbulent CH4/air premixed flames using

         high-repetition-rate OH PLIF,” Combust. Flame, vol. 193, pp. 145–156, (2018). 

  6.     D. Han, A. Satija, J. Kim, Y. Weng, J. P. Gore, and R. P. Lucht, “Dual-pump vibrational CARS measurements of temperature and species

            concentrations in turbulent premixed flames with CO2 addition,” Combust. Flame, vol. 181, pp. 239–250, (2017).

  7.     Kapaku R. K., Rankin B. A. and Gore J. P., “Quantitative imaging of radiation from soot and carbon dioxide in a turbulent ethylene

            jet diffusion flame,” Combustion and Flame, (2015).

  8.     Rankin, B. A., Ihme, M. and Gore, J. P. “Quantitative model-based imaging of mid infrared radiation from a turbulent nonpremixed

            jet flame and plume,” Combustion and Flame, (2014).

  9.     Rankin, B. A., Magnotti, G., Barlow R. S., and Gore, J. P. “Radiation Intensity Imaging Measurements of Methane and Dimethyl

            Ether Turbulent Nonpremixed and Partially Premixed Jet Flames,” Combustion and Flame, 161, (2014), pp. 2849-2859

  10.     Harley Jacob, L., Rankin Brent A., Blunck David L., Gore Jay P., and Gross Kevin C., “Imaging Fourier-transform spectrometer

            measurements of a turbulent nonpremixed jet flame,” Optics Letters, Vol. 39,  (2014), pp. 2350-2054.

11.     Rankin, B., Blunck D. L., Monfort, J., Kiel B. V., and Gore J. P., "Infrared Radiation and Acoustic Characteristics of Combustion

          Instabilities in Turbulent Premixed Flames," AIAA J. Propulsion and Power, (2012).

12.     Rankin, B., Blunck D. L., Katta, V., Stouffer S., and Gore J. P., "Infrared Imaging, Computations, and Tomography of Bluff Body

          Stabilized Laminar Diffusion Flames," AIAA J. Propulsion and Power, (2011).

13.     Krishnan, S. S., Saini, M. K., Zheng, Y., and Gore J. P., "Radiation Properties of Oxygen Enhanced Normal and Inverse Diffusion

           Flames," ASME Journal of Heat Transfer, (2011).

14.     Blunck, D. L., Harvazinski M., Rankin, B., Merkle C., and Gore J. P., "Turbulent Radiation Statistics of Exhaust Plumes Exiting form

          a Subsonic Axisymmetric Nozzle," AIAA Journal of Thermophysics and Heat Transfer, 2011.

15.     Blunck D. L. and J. P. Gore, "A Study of Narrow Band Radiation Intensity Measurements from Subsonic Exhaust Plumes," AIAA

          Journal of Propulsion and Power, Vol. 27, No. 1, 2011, 227-235.

16.     Blunck, D. L. S. Basu, Y. Zheng, V. Katta, and J. Gore, "Simultaneous water vapor concentration and temperature measurements in

           unsteady hydrogen flames," Proceedings of the Combustion Institute, 32 (2009), 2527- 2534.

17.     Singh, K. K., Mongeau, L., Frankel, S. H., and Gore J. P., "Effect of Co- and Counter-Swirl on Noise Emissions from Swirling Non-reacting

           Flows and Flames," AIAA J., 45 (3):651-661 (2007).

18.     Zhu X. L. and J. P. Gore, "Radiation effects on combustion and pollutant emissions of high pressure opposed flow methane/air diffusion

           flames," Combustion and Flame, 141 (2005) 118-130.

19.    Zheng Y. and J. P. Gore, "Measurements and inverse calculations of spectral radiation intensities of a turbulent ethylene/air jet flame,"

          Proceedings of Combustion Institute 30 (2005) 727-734.

20.     Lim, J. M., Y. R. Sivathanu, J. Ji, and J. P. Gore, "Estimating scalars from spectral radiation measurements in a homogeneous hot gas

           layer," Combustion and Flame, 137 (2004), 222-229.

21.     Kim, O. J., J. P. Gore, R. Viskanta, and X. L. Zhu, "Prediction of Self-Absorption in Opposed Flow Diffusion and Partially Premixed

           Flames Using a Weighted Sum of Gray Gases Model (WSGGM)- Based Spectral Model," Numerical Heat Transfer, Part A, 44: 335-353,

           2003.

22.     Zheng, Y., Barlow, R. S., and Gore, J. P., "Spectral Radiation Properties of Partially Premixed Turbulent Flames," ASME Journal of

           Heat Transfer, 125(6): 1065-1073, 2003.

23.     Zheng, Y., Barlow, R. S., and Gore, J. P., "Measurements and Calculations of Spectral Radiation Intensities for Turbulent Non-premixed

          and Partially Premixed Flames," ASME Journal of Heat Transfer,  125 (4): 678-686, 2003.

 24.    Zhu, X. L., Takeno, T., and Gore J. P., "A study of the effects of chemical mechanisms on the computed structure of a radiation sensitive

           opposed flow partially premixed flame," Combustion and Flame, 135 (2003) 351-355.

 25     X. L. Zhu, J. P. Gore, A. Karpetis, and R. Barlow, The effects of self-absorption of radiation on an opposed flow partially premixed flame,

          Combustion and Flame, Vol. 129, pp. 342-345, 2002.

 26.    Zheng, Y., Sivathanu Y. R., and Gore J. P., "Measurements and Stochastic Time and Space Series Simulations of Spectral Radiation in a

          Turbulent Non-premixed Flame," Proceedings of the Combustion Institute, Vol. 29, pp.1957-1965, 2002.

27.     M. W. Renfro, J. P. Gore, and N. M. Laurendeau, "Scalar Time-Series Simulations for Turbulent Nonpremixed Flames Using Flamelet

          State Relationships," Combustion and Flame, Vol. 129, pp. 120-135, 2002.

28.     S. S. Hwang and J. P. Gore, "Combustion and Radiation Characteristics of Oxygen-Enhanced Inverse Diffusion Flame," KSME

          International Journal, Vol. 16, pp. 1156-1165, 2002.

29.     S. S. Hwang and J. P. Gore, "Characteristics of combustion and radiation heat transfer of an oxygen-enhanced flame burner," J. Power

           and Energy, Vol. 216, pp. 379-386, 2002.

30.     J. Ji, Y. R. Sivathanu, and J. P. Gore, "Thermal Radiation Properties of Turbulent Lean Premixed Methane Air Flames," Proceedings of

           the International Combustion Institute, Vol. 28, The Combustion Institute, Pittsburgh, PA, pp. 391-398, 2001.

31.     J. M. Lim, J. P. Gore, and R. Viskanta, "A Study of the Effects of Air-Preheat on the Structure of Methane-Air Counterflow Diffusion

           Flames," Combustion and Flame, Vol. 121(1-2), pp. 262-274, 2000.

32.     M. W. Renfro, J. P. Gore, G. B. King, and N. M. Laurendeau, "Self Similarity of Measured Hydroxyl- concentration Temporal Statistics in

           Turbulent Nonpremixed Jet Flames," AIAA J., Vol. 38, No. 7, pp. 1230-1236, 2000

33.     M. W. Renfro, Y. R. Sivathanu, J. P. Gore, G. B. King, and N. M. Laurendeau, "Time Series Analysis and Measurements of Intermediate

           Species Concentration Spectra in Turbulent Nonpremixed Flames," Proceedings of the International Combustion Institute, Vol. 27, The

           Combustion Institute, Pittsburgh, PA, pp. 1015-1022, 1998.

34.     Y. R. Sivathanu and J. P. Gore, "Effects of Gas-Band Radiation on Soot Kinetics in Laminar Methane/Air Diffusion Flames,"

          Combustion and Flame, Vol. 110, pp. 256-263, 1997.

35.     Hamins, S. Fischer, T. Kashiwagi, M. Klassen, and J. P. Gore, "Heat Feedback to Fuel Surface in Pool Fires," Comb. Sci. Tech., Vol. 97,

          pp. 37-62, 1994

36.    Y.R. Sivathanu and J.P. Gore, "A Discrete Probability Function Method for the Equation of Radiative Transfer," J. Quant. Spectrosc. and

          Radiat. Transfer, Vol. 49, pp. 269-280, 1993.

37.     Y.R. Sivathanu and J.P. Gore, "Total Radiative Heat Loss in Jet Flames From Single Point Radiative Flux Measurements, Comb. Flame,

           Vol. 94, pp. 265-270, 1993.

38.     M. Klassen, J.P. Gore, Y.R. Sivathanu, A. Hamins and T. Kashiwagi, "Radiative Heat Feedback in a Toluene Pool Fire," Proceedings of

           the Combustion Institute, Vol.  24, pp. 1713-1719, 1992.

39.     J.P. Gore and J.H. Jang, "Transient Radiation Properties of a Subgrid Scale Eddy," ASME J. Heat Transfer, Vol. 114, pp. 234-242, 1992.

40.     J.P. Gore, D.D. Evans and B.J. McCaffrey, "Temperature and Radiation of Diffusion Flames with Suppression," Comb. Sci. Tech., Vol. 77,

           pp. 189-202, 1991.

41.     Y.R. Sivathanu and J.P. Gore, "Simultaneous Multiline Emission Absorption Measurements in Optically Thick Turbulent Flames," Comb.

          Sci. Tech., Vol. 80, pp. 1-21, 1991.

42.     M.E. Kounalakis, J.P. Gore and G.M. Faeth, "Mean and Fluctuating Radiation Properties of Nonpremixed Turbulent Carbon Monoxide/Air

           Flames," ASME J. Heat Transfer, Vol. 111, pp. 1021-1030, 1989.

43.     J.P. Gore and G.M. Faeth, "Structure and Radiation Properties of Luminous Turbulent Acetylene/Air Diffusion Flames," ASME J. Heat

           Transfer, Vol. 110, pp. 173-181, 1988.

44.     M.E. Kounalakis, J.P. Gore and G.M. Faeth, "Turbulence/Radiation Interactions in Nonpremixed Hydrogen/Air Flames," Proceedings of

           the Combustion Institute, Vol. 22, pp. 1281-1290, 1988.

45.     J.P. Gore, S.-M. Jeng, and G.M. Faeth, "Spectral and Total Radiation Properties of Turbulent Hydrogen/Air Diffusion Flames," ASME

          J. Heat Transfer, Vol. 109, pp. 165-171, 1987.

46.     J.P. Gore and G.M. Faeth, "Structure and Spectral Radiation Properties of Turbulent Ethylene/Air Diffusion Flames," Proceedings of the

          Combustion Institute, Vol. 21, Combustion Institute, Pittsburgh, PA, pp. 1521-1531, 1986.

47.     J.P. Gore, G.M. Faeth, D. Evans and D.B. Pfenning, "Structure and Radiation Properties of Large-Scale Natural-Gas/Air Diffusion

           Flames," Fire and Materials, Vol. 10, pp. 161-169, 1986.

 

Biofuels

  48.    R. Roncancio, M. S. Ulcay, J. E. Arango, and J. P. Gore, “Experimental study of CO2 corn stover char gasification using iron nitrate

          as a catalyst under a high-pressure environment,” Fuel, vol. 267, p. 117237, May 2020.  

  49.    Sircar, I., Sane A., Wang W., Gore J. P., “A study of high pressure pinewood char gasification with CO2,” Fuel, 134(2014), 554-564.

  50.    Sircar, I., Sane A., Wang W., Gore J. P., “Experimental and modeling study of pinewood char gasification with CO2,” Fuel, 119(2014), 38-46.

  51.    Xu, J., Qiao L., and Gore J., “Multiphysics Well-Stirred Reactor Modeling of Coal Gasification under Intense Thermal Radiation,”

           International Journal of Hydrogen Energy, 1-9 (2013).

  52.    Qiao L., Xu, J., Sane, A., and Gore J., "Multiphysics modeling of carbon gasification processes in a well- stirred reactor with detailed

         gas-phase chemistry," Combustion and Flame, 150(1), (2012).

53.    Yu, H., Wang, Q., Ileleji, K., Yu, C., Luo, Z., Cen K., and Gore J. P., Design and Analysis of Geographic Distribution of Receiving Stations

         and Biomass Power Plant in China. Part 1: Straight-line Transport, Biomass and Bioenergy, submitted, 2010, revised and accepted 2011.

 

Hydrogen Storage

54.      Y. Yang, T. Voskuilen, T. Pourpoint, D. R. Guildenbecher, and J. P. Gore, "Determination of the Thermal Properties of Ammonia Borane and

         its Thermolysis Product (Polyiminoborane) Using Transient Plane Source Technique," International Journal of Hydrogen Energy, (2012).

55.      S. Basu, Y. Zheng, and J. P. Gore, "An Experimental Study of Neat and Ionic-Liquid Aided Ammonia Borane Thermolysis," J. Power

         Sources, PDF, 196 (2011), pp. 734-740

56.      A. Brockman, Y. Zheng and J. P. Gore, "A Study of Catalytic Hydrolysis of Ammonia Borane Solutions," International Journal of Hydrogen

         Energy, 35: pp. 7350-7356 (2011).

57.      S. Basu, Zheng, Y., Varma A., Delgass W. N., and Gore J. P., "Catalytic hydrolysis of ammonia borane: intrinsic parameter estimation and

         validation," J. Power Sources, PDF, 195 (2010), pp. 1957-1963.

58.      S. Basu, A. Brockman, P. Gagare, Y. Zheng, P. V. Ramachandran, W. N. Delgass, and J. P. Gore, "Chemical Kinetics of Ru-catalyzed

         Ammonia Borane Hydrolysis," J. Power Sources, PDF, pp. 238-243, 2009.

59.      Zhang, J. S., Delgass, W. N., Fisher, T. S., and J. P. Gore, "Kinetics of Ru-catalyzed sodium borohydride hydrolysis," J. Power Sources,

         164 (2007) PDF, 772-781.

60.      Zhang, J. S., Zheng, Y., Gore J. P., and Fisher, T. S., "1 kWe Sodium Borohydride Hydrogen Generation System: Part I Experimental

         Study, J. Power Sources, 165 (2007) PDF, 844-853.

61.      Zhang, J. S., Y. Zheng, T. S. Fisher, J. P. Gore, D. Hazra, and P. V. Ramachandran, "Heat of Reaction Measurements of  Sodium

         Borohydride Alcoholysis and Hydrolysis, International Journal of Hydrogen Energy Research, 31 (15): 2292-2298 (2006).

62.      Zhang, J. S., T. S. Fisher, P. V. Ramachandran, J. P. Gore, and I. Mudawar, "A review of heat transfer issues in hydrogen storage

         technologies," ASME Journal of Heat Transfer, 127(12), (2005), pp. 1391-1399.

 

Biomedical Reacting Flows

63.    Schuff M., J. P. Gore, and E. Nauman, "A Mixture theory model of fluid and solute transport in the microvasculature of normal and

          malignant tissues- I: Theory" Journal of Biomedical Engineering, 2012.

64.    Schuff M., J. P. Gore, and E. Nauman, "A Mixture theory model of fluid and solute transport in the microvasculature of normal and

          malignant tissues- I: Application" Journal of Biomedical Engineering, 2012. 

65.    Burgula, Y., Khali, D., Kim, S., Krishnan, S. S., Cousin, M. A., Gore, J. P., Reuhs, B. L., and Mauer, L. J., "Review of mid-infrared Fourier

          transform-infrared spectroscopy applications for bacterial detection," J. of Rapid Methods and Automation in Microbiology, 15 (2):146-175

          (2007).

66.    Burgula, Y., Khali, D., Kim, S., Krishnan, S. S., Cousin, M. A., Gore, J. P., Reuhs, B. L., and Mauer, L. J., "Detection of Escherichia coli

          O157:H7 and Salmonela typhimurium using filtration followed by Fourier transform infrared spectroscopy," Journal of Food

          Protection 69 (8): 1777-1784 (2006).

67.    L. Hu, A. Gupta, J. P. Gore, and L. X. Xu, "Effect of Forced Convection on the Skin Thermal Expression of Breast Cancer," Journal of

         Biomechanical Engineering, Vol. 126, pp. 204-211, 2004.

68.    A. Tay, R. K. Singh, S. S. Krishnan, and J. P. Gore, "Authentication of Olive Oil Adulterated with Vegetable Oils Using Fourier Transform

          Infrared Spectroscopy," Lebensmittel-Wissenschaft und-Technologie (LWT), Vol. 35: pp. 99-103 (2002).

 

Carbon Nanotubes

69.    Gore J. P. and Sane, A. "Flame Synthesis of Carbon Nanotubes," Ch. 7, Carbon Nanotubes - Synthesis, Characterization, Applications,

          Edited by: Siva Yellampalli, InTech Publishers (2011), pp. 121-146.

70.    Garg, R. K.,  S. Kim, D. B. Hash, J. P. Gore, and T. S. Fisher, "Effects of feed gas composition and catalyst thickness on carbon

          nanotube and nanofiber synthesis by plasma enhanced chemical vapor deposition," Journal of Nanoscience and Nanotechnology,

          Volume 8, 3068-3076 (2008).

71.    Garg, R. K., Anderson, T. N., Lucht R. P., Fisher, T. S., and Gore J. P., "Gas temperature measurements in a microwave plasma by

          optical emission spectroscopy under single-wall carbon nanotube growth conditions,"  J. Phys. D: Appl. Phys. 41 (2008) 095206.

72.    Gopinath P. and Gore, J. P. "Chemical kinetic considerations for post-flame synthesis of carbon nanotubes in premixed flames using a

          support catalyst," Combustion and Flame, PDF, 151 (2007) 542-550.

 

Partially Premixed and Premixed Combustion

  73.     M. E. Feyz, V. R. Hasti, J. P. Gore, A. Chowdhury, and M. R. Nalim, “Scalar predictors of premixed gas ignition by a suddenly-starting

            hot jet,” Int. J. Hydrogen Energy, 2019.   

  74.      Anup Sane, Aman Satija, Robert P. Lucht, and Jay P. Gore, “CO concentration and temperature measurements using tunable diode laser

            absorption spectroscopy near 2.3 µm,” Appl. Phys. B, (Lasers and Optics), 2014, pp. 1-12.

75.     Mathew P. Thariyan, Aizaz H Bhuiyan, Scott E Meyer, Sameer V Naik, Jay P Gore and Robert P Lucht, "Dual-pump coherent anti-Stokes

           Raman scattering system for temperature and species measurements in an optically accessible high-pressure gas turbine combustor

           facility," 2011 Meas. Sci. Technol. 22, pp. 15301-15313, 2011.

76.     Thariyan, M. P., Ananthanarayanan, V., Bhuiyan A. H., Naik, S. V., Gore J. P., and Lucht R. P., "Dual-Pump CARS Temperature and Major

           Species Measurements in Counter-Flow Methane Flames Using Narrowband Pump and Broadband Stokes Lasers," Combustion and

            Flame, 157 (2010) 1390-9.

77.     Filatyev, S. A., Thariyan, M. P., Lucht R. P., and Gore J. P., "Simultaneous stereo particle image velocimetry and double-pulsed planar

           laser-induced fluorescence of turbulent premixed flames," Combustion and Flame, PDF 150 (2007) 201-209.

78.     K. K. Singh, C. Zhang, J. P. Gore, L. Mongeau and S. H. Frankel, "An experimental study of partially premixed flame sound,"

          Proceedings of Combustion Institute 30 (2005) 1707-1715.

79.     J. Ji, J. P. Gore, Y. R. Sivathanu, and J. M. Lim, "Fast infrared array spectrometer with a thermoelectrically cooled 160- element PbSe

          detector," Review of Scientific Instruments, Vol. 75, Issue 2, pp. 333-339, 2004.

80.     P. B. Sunderland, S. S. Krishnan, and J. P. Gore, "Effects of oxygen enhancement and gravity on normal and inverse laminar jet

           diffusion flames," Combustion and Flame, 136 (2004) 254-256.

81.     W. A. Guttenfelder, M. W. Renfro, N. M. Laurendeau, Jun Ji, Galen B. King, and J. P. Gore "Hydroxyl time series and recirculation in

           turbulent swirling flames," Combustion and Flame, PDF, 147(2006) 11-21.

82.     Singh K. K., Frankel, S. H., and Gore, J. P., "Study of Spectral Noise Emissions from Standard Turbulent Nonpremixed Flames,"

           AIAA J., Vol. 42, No. 4, pp. 1-6, 2004.

83.     X. L. Zhu and J. P. Gore, "Study of flame structure and soot formation in heptane/air diffusion flame," AIAA Journal, 42 (7),

          pp 1491-1495 (2004).

84.     Singh, K. K., Frankel, S. H., and Gore, J. P., "Effects of Combustion on the Sound Pressure Generated by Circular Jet Flows, AIAA J.,

           Vol. 41, No. 2, pp. 319-321, 2003.

85.     W. A. Guttenfelder, G. B. King, J. P. Gore, N. M. Laurendeau, and M. W. Renfro, "Hydroxyl time-series measurements and simulations

           of turbulent premixed jet flames in the thickened preheat regime," Combustion and Flame, 135 (2003) 381-404.

86.     M J. Zimberg, S. H. Frankel, J. P. Gore and Y. R. Sivathanu, "A Study of Coupled Turbulent Mixing, Soot Chemistry, and Radiation

           Effects Using the Linear Eddy Model," Combustion and Flame, Vol. 113, pp. 454-469, 1998.

87.     O. J. Kim, J. P. Gore, R. Viskanta, and X. L. Zhu, "Prediction of Self-Absorption in Opposed Flow Diffusion and Partially Premixed

           Flames Using a Weighted Sum of Gray Gases Model (WSGGM)- Based Spectral Model," Numerical Heat Transfer, Part A,

           44: 335-353, 2003.

88.     Ji, J. and Gore J. P., "Flow Structure in Swirling Combustion," Proceedings of the Combustion Institute, Vol. 29, pp. 861-867, 2002.

89.     R. O. S. Prasad, R. N. Paul, Y. R. Sivathanu, and J. P. Gore, "An Evaluation of Combined Flame Surface Density and Mixture Fraction

          Models for Nonisenthalpic Premixed Turbulent Flames," Combustion and Flame, Volume 117(3), pp. 514-528, 1999.

90.     L. Blevins, M. W. Renfro, N. M. Laurendeau, K. H. Lyle, and J. P. Gore "Experimental Study of Temperature and CH Radical Location

           in Partially-Premixed CH4/Air Coflow Flames," Combustion and Flame, Vol. 118(4), pp. 684-696, 1999.

91.     B. J. Alder, K. H. Lyle, J. P. Gore and N. M. Laurendeau, "Effect of Overall Equivalence Ratio on Minimum Nitric Oxide Emission Index

           in Laminar and Turbulent Partially Premixed Flames," Combustion Science and Technology, Vol. 140, pp. 461-468, 1998.

92.     B. J. Alder, L. K. Tseng, N. M. Laurendeau and J. P. Gore, "Effects of Partial Premixing on NOx Emission Indices of Soot-Containing

          Flames," Combustion Science and Technology, Vol. 152, pp. 167-178, 2000.

93.     K. H. Lyle, L. K. Tseng, J. P. Gore and N. M. Laurendeau, "A Study of Pollutant Emission Characteristics of Partially Premixed Turbulent

          Jet Flames," Combustion and Flame, Volume 116, pp. 627-639, 1999.

94.     L. Blevins and J. P. Gore, "The Computed Structure of Low Strain Rate Partially Premixed CH4/Air Counterflow Flames: Implications for

          NO Formation," Combustion and Flame, Volume 116, pp. 546-566, 1999.

95.     R. O. S. Prasad, and J. P. Gore, "An Evaluation of Flame Surface Density and Reaction Progress Variable Models in Predicting

           Turbulent Premixed Jet Flames," Combustion and Flame, Vol. 116 (01-02), pp. 1-14, 1998.

96.     L.K. Tseng, J.P. Gore, I.K. Puri and T. Takeno, "Acetylene and Ethylene Mole Fractions in Methane/Air Partially Premixed Flames,"

           Proceedings of the International Combustion Institute, Vol. 26, The Combustion Institute, Pittsburgh, PA, Vol. 1, pp. 993-999, 1996.

97.     T. K. Kim, B. J. Alder, N. M. Laurendeau and J. P. Gore, "Exhaust and In Situ Measurements of Nitric Oxide for Laminar Partially

           Premixed C2H6-Air Flames: Effect of Premixing Level at Constant Fuel Flowrate," Combustion Science and Technology,

           Vol. 110-111, p. 361-369, 1996.

98.     J. P. Gore and N. J. Zhan, "NOx Emissions and Major Species Concentrations in Partially Premixed Laminar Methane/Air Co-flow

          Jet Flames," Combustion and Flame, Vol. 105, pp. 414-427, 1996.

99.     Y.R. Sivathanu and J.P. Gore, "Coupled Radiation and Soot Kinetics Calculations in Laminar Acetylene/Air Diffusion Flames," Comb.

           Flame, Vol. 97, pp. 161-172, 1994.

100.     Y.R. Sivathanu, J.P. Gore, J. Janssen and D.W. Senser, "A Study of Insitu Specific Absorption Coefficients of Soot Particles in Laminar

           Flat Flames," ASME J. Heat Transfer, Vol. 115, pp. 653-658, 1993.

101.     J.P. Gore U.-S. Ip and Y. R. Sivathanu, "Coupled Structure and Radiation Analysis of Acetylene/Air Flames," ASME J. Heat Transfer,

          Vol. 114, pp. 487-493, 1992.

102.     Y.R. Sivathanu and J.P. Gore, "Transient Structure and Radiation Properties of Strongly Radiating Buoyant Flames," ASME J. Heat

           Transfer, Vol. 114, pp. 659-665, 1992.

103.     Y.R. Sivathanu, J.P. Gore and J. Dolinar, "Transient Scalar Properties of Strongly Radiating Jet Flames," Comb. Sci. Tech.,

           Vol. 76, pp. 45-66. 1991.

 

Radiant Burners

104.     Leonardi, S. A., Viskanta, R., and Gore, J. P., "Analytical and Experimental Study of Combustion and Heat Transfer in Submerged Flame

          Metal Fiber Burners/Heaters," 125(1): 118-125, 2003.

105.     S. A. Leonardi, J. P. Gore, and R. Viskanta, "Radiation and thermal performance measurements of a metal fiber burner," J. Quantitative

           Spectroscopy and Radiative Transfer, Vol. 73 (2-5): 491-501, 2002.

106.     R. Viskanta and J. P. Gore, "Overview of Cellular Ceramic Based Porous Radiant Burners for Supporting Combustion," Environ. Comb.

           Tech., Vol. 1, pp. 167-203, 2000.

107.     X. Fu, R. Viskanta and J. P. Gore, "Idealized Radiation Efficiency Model for a Porous Radiant Burner," ASHRAE Transactions,

          Vol. 105, Part 2, 1999.

108.     X. Fu, R. Viskanta and J. P. Gore, "Prediction of Effective Thermal Conductivity of Cellular Ceramics," Int. Comm. in Heat Mass Transfer,

          Vol. 25, No. 2, pp. 151-160, 1998.

109.     X. Fu, R. Viskanta and J. P. Gore, "Measurements and Correlations of Volumetric Heat Transfer Coefficients of Cellular Ceramics,"

          Experimental Thermal and Fluid Sciences, Vol. 17, pp. 285-293, 1998.

110.     R. Mital, J. P. Gore and R. Viskanta, "A Radiation Efficiency Measurement Procedure for Gas-Fired Radiant Burners,"

           Experimental Heat Transfer, Vol. 11 (1), pp. 3-21, 1998.

111.     X. Fu, R. Viskanta and J. P. Gore, "Modeling of Combustion and Heat Transfer Interaction in a Pore-Scale Refractory Tube Burner,"

           AIAA Journal of Thermophysics and Heat Transfer, Volume 12, No. 2, pp. 164-171, 1998.

112.     R. Mital, J. P. Gore, R. Viskanta and A. C. McIntosh, "An Experimental Evaluation of Asymptotic Analysis of Radiant Burners,"

           Proceedings of the International Combustion Institute, Vol. 27, The Combustion Institute, Pittsburgh, PA, pp. 3163-3171, 1998.

113.     R. Mital, J. P. Gore, and R. Viskanta, "A Study of the Structure of Submerged Reaction Zone in Porous Ceramic Radiant Burners,"

          Combustion and Flame, Vol 111, pp. 175-184, 1997.

114.     Y. R. Sivathanu and J. P. Gore, "Effects of Surface Properties on Radiative Transfer in a Cylindrical Tube with a Non-Participating

           Medium," ASME J. Heat Transfer, Vol. 119, pp. 495-501, 1997.

115.    X. Fu, R. Viskanta and J. P. Gore, "A Model for the Volumetric Radiation Characteristics of Cellular Ceramics," Int. Comm. in Heat Mass

           Transfer, Vol. 24, No. 8, pp. 1069-1082, 1997.

116.   R. Mital, J. P. Gore and R. Viskanta "Measurements of Extinction Coefficients and Single Scattering Albedo of Reticulated Porous

           Ceramic at High Temperatures," AIAA Journal of Thermophysics and Heat Transfer, Vol. 10, No. 1, pp. 1-6, 1996.

117.   L.G. Blevins and J. P. Gore, "Radiative Efficiency of a Quartz Radiant Heating Tube," Combustion Science and Technology,

           Vol. 112, pp. 369-373, 1996.

118.   L.G. Blevins, Y.R. Sivathanu, J.P. Gore and M.A. Shahien, "Radiometric Measurements of Wall Temperatures in the 800 K to 1150 K

           Range for a Quartz Radiant Heating Tube," ASME J. Heat Transfer, Vol. 117, pp. 795-797, 1995.

119.   L.G. Blevins and J. P. Gore, "A Study of Radiant Tube Flame Structure and NOx Emissions," Combustion Science and Technology,

           Vol. 109, pp. 255-263, 1995.

120.   L. K. Tseng, K. Abhishek and J. P. Gore, "An Experimental Realization of Premixed Methane/Air Cylindrical Flames," Combustion and

           Flame, Vol. 102, pp. 519-522, 1995. 

 

Fire Research

   121.   Newale A. S., Rankin B. A., Lalit H. U., Gore J. P. and McDermott R. J., “Quantitative Infrared Imaging of Impinging Turbulent Buoyant

            Diffusion Flames,” Proceedings of the Combustion Institute, 35 (2014)

122.   Xin, Y., Filatyev, S. A., Biswas K., Gore J. P., Rehm R. G. and Baum H. R., "Fire dynamics simulations of a one-meter diameter methane

           fire," Combustion and Flame, PDF, Volume 153, Issue 4, 2008, Pages 499-509.

123.   K. Biswas, Y. Zheng, C. H. Kim, and J. P. Gore, "Stochastic Time Series Analysis of Pulsating Buoyant Pool Fires," Proceedings of the

          Combustion Institute 31 (2007) 2581-2588.

124.   A. Chaturvedi, A. Mellema, S. Filatyev, and J. P. Gore, "DDDAS for Fire and Agent Evacuation Modeling of the Rhode Island Nightclub

          Fire," Lecture Notes in Computer Science, (2006) 433-439.

125.   K. Biswas and J. P. Gore, "Fire Dynamics Simulations of Buoyant Diffusion Flames Stabilized on a Slot Burner," Combustion and Flame,

           Vol. 144 (2006) 850-853.

126.   Weng C. S. and Gore, J. P., "A numerical study of two- and three- dimensional detonation dynamics of pulse detonation engine by CE/SE

           method," Acta Mechanica Sinica, 21 (1): 32-39 (2005).

127.   Y. Xin and J. P. Gore, "Two-dimensional soot distributions in buoyant turbulent fires," Proceedings of the Combustion Institute, 30 (2005)

           719-726. Fire Research (Continued)

128.   Y. Xin, J. P. Gore, K. B. McGrattan, R. G. Rehm and H. R. Baum, "Fire dynamics simulation of a turbulent buoyant flame using a mixture

           fraction based combustion model," Combustion and Flame, 141(2005) 329-335.

129.   Chaturvedi A. R., Filatyev, S. A., Gore J. P., Hanna, A., Means J., Mellema A. K., "Integrating fire, structure and agent models,"

          Computational Science - ICCS 2005, PT 2 Lecture Notes in Computer Science 3515: 695-702 (2005).

130.   Y. Xin, J. P. Gore, H. R. Baum, K. McGrattan, and R. G. Rehm, "Large Eddy Simulations of Buoyant Turbulent Pool Fires," Proceedings of

          the Combustion Institute, Vol. 29, pp. 259-266, 2002.

131.   X. C. Zhou and J. P. Gore, "Experimental Estimation of Thermal Expansion and Vorticity Distribution in a Buoyant Diffusion Flame,"

          Proceedings of the International Combustion Institute, Vol. 27, The Combustion Institute, Pittsburgh, PA, pp. 2767-2773, 1998.

132.   X.C. Zhou, J.P. Gore and H.R. Baum, "Measurements and Predictions of Air Entrainment Rates of Pool Fires," Proceedings of

          the International Combustion Institute, Vol. 26, The Combustion Institute, Pittsburgh, PA, Vol. 1, pp.1453-1459, 1996.

133.   X.C. Zhou and J.P. Gore, "Air Entrainment Flow Field Induced by a Pool Fire," Comb. Flame- Special Twenty-Fifth Symposium

           (International) on Combustion Issue, Vol. 100, pp. 52-60, 1995.

134.   M. Klassen and J.P. Gore, "Temperature and Soot Volume Fraction Statistics in Toluene Fired Pool Fires," Comb. Flame,

           Vol. 93, pp. 270-278, 1993.

135.   J.P. Gore and C.Q. Jian, "Analytical Solution to the Flame Trajectory Based on the Analysis of 'Scaling of Buoyant Turbulent Jet Diffusion

          Flames' by N. Peters and J. Gottgens," Comb. Flame, Vol. 93, pp. 336-337(Brief Communication), 1993.

136.   M. Klassen, Y.R. Sivathanu and J.P. Gore, "Simultaneous Emission Absorption Measurements in Toluene- Fueled Pool Flames: Mean

          and RMS Properties," Comb. Flame, Vol 90, pp. 34-44, 1992.

137.   A. Hamins, M. Klassen, J.P. Gore and T. Kashiwagi, "Estimate of Flame Radiance via a Single Location Measurement in Liquid Pool

           Fires," Comb. Flame, Vol. 86, pp. 223-228, 1991.

138.   J.P. Gore and S.M. Skinner, "Mixing Rules for State Relationships of Methane and Acetylene/Air Diffusion Flames," Comb. Flame,

           Vol. 87, pp. 357-364, 1991.

139.   H.R. Baum, R.G. Rehm and J.P. Gore, "Transient Combustion in a Turbulent Eddy," Proceedings of the Combustion Institute,

           Vol. 23, pp. 715-722, 1990.

140.   Y.R. Sivathanu, J.P. Gore and G.M. Faeth, "Scalar Properties in the Overfire Region of Sooting Turbulent Diffusion Flames,"

           Comb. Flame, Vol. 73, pp. 315-329, 1988. Spray Combustion

141.   Sovani S. D., Crofts J. D., Sojka P. E., Gore J. P., and Eckereley W. A., 2005, Structure and steady-state spray performance of an

           effervescent diesel injector, Fuel, 84:12-13, 1503-1514.

   142.   Sojka, P. E., Sovani, S. D., Chou E., Gore, J. P., Eckerle, W. A. and Crofts, J. D., 2001, High pressure effervescent atomization:

              effect of ambient pressure on spray cone angle," Fuel, 80, 427-435.

143.   R. A. Wade, J. M. Weerts, P.E. Sojka and J.P. Gore, "Effervescent Atomization at Injections Pressures in the MPa Range,"

          Atomization and Sprays, 9(6), 651-667, 1999.

144.   M. T. Lund, C. Q. Jian, P. E. Sojka, J. P. Gore, and M. V. Panchagnula, "The Influence of Atomizing Gas Molecular Weight on Low Mass

           Flowrate Effervescent Atomizer Performance," ASME Journal of Fluids Engineering, Vol. 120, pp. 750-754, 1998.

 

Spray Combustion

145.   P. Dutta, J. P. Gore, and P. E. Sojka, "Emissions Characteristics of Liquid Fueled Pilot Stabilized Lean Premixed Flames in a Tubular

           Premixer-Combustor," ASME Journal of Engineering for Gas Turbines and Power, Vol. 119(3), pp. 585-590, 1997.

146.   P. Dutta, Y. R. Sivathanu and J. P. Gore, "A Discrete Probability Function Method for the Calculation of Turbulent Particle Dispersion,"

           AIAA Journal, Volume 35, Number 1, pp. 200-202, 1996.

147.   P. Dutta, J.P. Gore, Y.R. Sivathanu and P.E. Sojka, "Global Properties of High Liquid Loading Turbulent Crude Oil + Methane/Air

           Spray Flames," Comb. Flame, Vol. 97, pp. 251-260, 1994.

148.   J.P. Gore, W.-H. Meng and J.-H. Jang, "Droplet Flames in Reactive Environments," Comb. Flame, Vol. 82, pp. 126-141, 1990.

149.   T.W. Lee, J.P. Gore, G.M. Faeth and A. Birk, "Analysis of Combusting High Pressure Monopropellant Sprays," Comb. Sci. Tech.,

            Vol. 57, pp. 95-112, 1988.

 

Conference proceedings(2010-Current*)

1.     M. S. Ulcay, L. N. Dillard, J. P. Gore, P. C. Sweeney, "Machine Learning based Calculations of Minimum Hot Surface Fluid Ignition

       Temperature", 2020 Spring Technical  Meeting Central States Section of the Combustion Institute, Huntsville, AL, May 2020.

2.     M. S. Ulcay, L. N. Dillard, J. P. Gore, P. C. Sweeney, Design of an Experimental Apparatus to Measure Minimum Hot Surface Ignition

        Temperature (MHSIT) of Aviation Fluids, 11th U.S. National Combustion Meeting, Pasadena, CA, 2019.

3.     V. Goyal, R. Roncancio, J. Kim, A. Navarkar, V. Hasti, and J. Gore, “Effect of initial fuel temperature on flame spread rate of alternative
 
        aviation fuels,” in 11th US National Combustion Meeting, 2019.
 
4.     J. Kim, R. Roncancio, A. Satija, R. P. Lucht, and P. Jay, “Correlation between Integral Length Scale and Unburned Pocket Formation
 
        in CH4 / air Premixed Turbulent Flames,” 11th U.S. Natl. Combust. Meet. Pasadena, Calif., pp. 1–10, 2019.
 
5.     R Roncancio, A. Navarkar, V. Hasti, V. Goyal, and J. Gore, “Effect of carbon nanotubes addition on the Flame Spread Rate over a
 
        Jet A pool,” in 11th US National Combustion Meeting, 2019.

6.     M. S. Ulcay, L. N. Dillard, J. P. Gore, Empirical Modeling of Minimum Hot Surface Ignition Temperature (MHSIT) for Aviation Fluids,

        AIAA Propulsion and Energy Forum 2019, Indianapolis, IN, 2019

7.     Goyal, V., Lucht, R., and Gore J., “Flame Spread Measurements of Alternate Aviation Fuels,” AIAA 2017 Science and Technology

        Conference, Dallas, TX.

8.     Goyal, V., Benhidjeb-Carayon, Simmons, R., Meyer, S. and Gore J. P., “Hot Surface Ignition Temperatures of Hydrocarbon Fuels,”

        AIAA 2017 Science and Technology Conference, Dallas, TX.

9.     Bokhart, A., Shin D., Gejji, R., Sojka P., Gore J., and Lucht R., “Spray Measurements at Elevated Pressures and Temperatures

        Using Phase Doppler Anemometry,” AIAA 2017 Science and Technology Conference, Dallas, TX.

10.     Han Dong, Satija, A., Kim J., Lucht R., and Gore J., “Effect of CO2 additions on local flame front structure in turbulent premixed flames,”

        AIAA 2017 Science and Technology Conference, Dallas, TX.

11.     Lalit, H., Wang H. and Gore J., “Assessment of Differential Diffusion Effects on Soot Evolution in Piloted Nonpremixed Turbulent Flames,”

        AIAA 2017 Science and Technology Conference, Dallas, TX.

12.     Lalit, H. U., Kapaku R. K., Rankin B. A., Mueller M. E., and Gore, J. P., “Experimental and Computational Imaging of Mid-Infrared Radiation

        from a Turbulent Ethylene Flame,” AIAA 2016 SciTech Conference, San Diego, CA.

13.     Ma, P. C., Nik, M. B., Carbajal, S. E., Naik, S., Gore J. P., Lucht R. P., and Ihme M., “Large-Eddy Simulations of Fuel Injection and Atomization

        of a Hybrid Air-Blast Atomizer,” AIAA 2016 SciTech Conference, San Diego, CA.

14.     D. Han, V. R. Hasti, R. P. Lucht, and J. P. Gore, “An Experimental and a Computational Study of Lean Premixed Flames,” AIAA Propulsion

        and Energy 2015, Orlando, FL, 2015.

15.     J. F. Adams and J. P. Gore, “Minimum Hot Surface Ignition Temperature Diagnostics,” National Combustion Conference of the U. S. Sections,

        Cincinnati, OH, 2015.

16.   Weichao Wang, Anup Sane, Aman Satija, Robert Lucht, Jay Gore, “Simultaneous Flame Temperature and Carbon Monoxide Measurements

        using Wavelength Modulation Spectroscopy, National Combustion Conference of the U. S. Sections, Cincinnati, OH, 2015.

17.   Vikrant Goyal, H. Veeraraghava Raju, and Jay P. Gore, “Detached Eddy simulations of a novel swirl-stabilized combustor,” National

        Combustion Conference of the U. S. Sections, Cincinnati, OH, 2015.

18.   Nitish Kumar, Elizabeth Wachs, Prithviraja Basak and Jay P. Gore, “Role of catalyst in biomass gasification with CO2,” National Combustion

        Conference of the U. S. Sections, Cincinnati, OH, 2015.

19.     B.A. Rankin, D.L. Blunck, B.V. Kiel, J.P. Gore, "Infrared Radiation Characteristics of Combustion Instabilities in Bluff Body Stabilized

       Turbulent Premixed Flames," 50th Aerospace Science Meeting, Nashville, TN, January 2012.

20.     L.B. Whitson, B.A. Rankin, J.P. Gore, "Infrared Radiation Intensity of Rectangular Burner Turbulent Diffusion Flames," 50th Aerospace

        Science Meeting, Nashville, TN, January 2012.

21.     L. Qiao, J. Xu, A. Sane, J. Gore "Multiphysics Modeling of Coal Gasification Processes in a Perfectly stirred Reactor with Detailed

        Gas-Phase Chemistry," 49th AIAA Aerospace Sciences Meeting Including the New Horizons Forum and Aerospace Exposition,

        Orlando, Florida, Jan. 4-7, 2011.

22.     L. Qiao, J. Xu, A. Sane, J. Gore "Multiphysics Modeling of Coal Gasification Processes in a Perfectly stirred Reactor with Detailed

       Gas-Phase  Chemistry," 7th US Joint Combustion Meeting of the Combustion Institute, Georgia Institute of Technology, Georgia, 

        March 20-23, 2011.

23.    Gejji, R., Sane, A., Rankin, B., Sircar, I., Meyer, S., and Gore, J.P., 2011, "An Experimental Study of a H2-O2 Flame based Superheated

       Steam Generator," Proceedings of the 7th US National Combustion Meeting.

24.    D.R. Guildenbecher, B.A. Rankin, J.P. Gore, "Spray and Radiation Properties of Unsteady, Turbulent Multiphase Flames with High Liquid

        Loading," 24th European Conference on Liquid Atomization and Spray Systems, Estoril, Portugal, September 2011.

25.    B.A. Rankin, D.L. Blunck, J.P. Gore, "Infrared Imaging of a Turbulent Non-Premixed Jet Flame and Plume," Paper T06, 7th U.S. National

        Combustion Meeting, Atlanta, GA, March 2011.

26.    Sircar, I., Gejji, R., Sane, A., Blunck, D., Meyer, S. and Gore, J. P., 2011, "Design and Construction of an Optically-Accessible Coal Gasifier

        for CO2 Reduction using Excess H2", 49th AIAA 2011 Aerospace Sciences Meeting.

27.    Sircar, I., Gejji, R., Sane, A., Blunck, D., Meyer, S. and Gore, J. P., 2011, "Design and Testing of a High Pressure and high Temperature,

       Optically Accessible, Entrained Flow Coal Gasifier", Proceedings of the ASME/JSME 2011 8th Thermal Engineering Joint Conference.

28.  Sane, A., Sircar, I., R., G., Rankin, B., Guildenbecher, D., Naik, S., Lucht, R., and Gore, J., 2011, "Tunable Diode Laser Absorption

       Diagnostics and Gas Composition Analysis of Reaction Progress in a Laboratory-Scale Entrained-Flow Gasifier," Int. Pittsburgh Coal

       Conference Pittsburgh, PA.

29.  Thariyan, M. P., Bhuiyan, A. H., Naik, S. V., Gore, J. P., and Lucht, R.P.(2011) "Temperature and CO2 measurements in a high-pressure, lean

       direct injector combustor using dual-pump CARS," 7th Joint Meeting of the U.S. Sections of the Combustion Institute, Atlanta, GA,

       March 20-23.

30.  Satija, A., Panda, P., Wagh, Y., Naik, S. V., Gore, J.P., and Lucht, R. P. (2011) "Characterization of methane air and hydrogen-air flames using

      stereoscopic particle imaging velocimetry (SPIV) and coherent anti-Stokes Raman scattering (CARS)," 7th Joint Meeting of the U.S. Sections

      of the Combustion Institute, Atlanta, GA, March 20-23.

*Approximately 250 prior publications in this category typically involving preliminary versions of the above journal articles and book chapters.

 

Book chapters

1.    J. P. Gore and L. X. Zhu, "Thermal Imaging for Biological and Medical Diagnostics," Biomedical Photonics Handbook, Tuan Vo Dinh, Editor,

      CRC Press, 17.1-17.12, 2002.

2.    J. P. Gore, "Structure and NOx Emission Properties of Partially Premixed Flames," Advances in Chemical Propulsion: Science to

      Technology, Gabriel D. Roy, Editor, Publishers: Taylor & Francis, New York, 2001.

3.    G.M. Faeth, J.P. Gore, S.G. Chuech and S.-M. Jeng, "Radiation from Turbulent Diffusion Flames," Annual Reviews of Numerical Fluid

      Mechanics and Heat Transfer, C.L. Tien and T.C. Chawla, Eds., Hemisphere, New York, Chapter 1, pp. 1-38, 1989

4.    K.K. Kuo, J.P. Gore and M. Summerfield, "Transient Burning of Solid Propellants," Fundamentals of Solid- Propellant Combustion,

       Kenneth K. Kuo and Martin Summerfield, Eds., AIAA Progress in Astronautics and Aeronautics, Vol. 90, Chapter 11, pp. 599-659, 1984.