• F.V. Lundström, P.B. Sunderland., J.G. Quintiere, P. van Hees, J.L de Ris, Study of Ignition and Extinction of Small-Scale Fires in Experiments with an Emulating Gas Burner, Fire Safety Journal 87 (2017) 18-24.
  • J.P. White, E.D. Link, A. Trouvé, P.B Sunderland, A.W. Marshall, A general calorimetry framework for measurement of combustion efficiency in a suppressed turbulent line fire. Fire Safety Journal 92 (2017) 164-176.
  • H. Guo, P.M. Anderson, P.B. Sunderland, Optimized Rate Expressions for Soot Oxidation by OH and O2, Fuel 172 (2016) 248–252.
  • S. Vilfayeau, J.P. White, P.B. Sunderland, A.W. Marshall, A. Trouvé, Large Eddy Simulation of Flame Extinction in a Turbulent Line Fire Exposed to Air-Nitrogen Co-Flow, Fire Safety Journal 86 (2016) 16–31.
  • Y. Zhang, M. Kim, P.B. Sunderland, J.G. Quintiere, J. de Ris, A Burner to Emulate Condensed Phase Fuels, Experimental Thermal and Fluid Science 73 (2016) 87-93.
  • H. Guo, P.M. Anderson, P.B. Sunderland, A Ternary Flame System for Soot Oxidation Studies, Combustion Science and Technology 187 (2015) 1836-1840.
  • J.L. Pagliaro, G.T. Linteris, P.B. Sunderland, P.T. Baker, Combustion Inhibition and Enhancement of Premixed Methane-Air Flames by Halon Replacements, Combustion and Flame 162 (2015) 41-49.
  • J.P. White, E.D. Link, A.C. Trouvé, P.B. Sunderland, A.W. Marshall, J.A. Sheffel, M.L. Corn, M.B. Colket, M. Chaos, H.-Z. Yu, Radiative Emissions Measurements from a Buoyant, Turbulent Line Flame under Oxidizer-Dilution Quenching Conditions, Fire Safety Journal 76 (2015) 74-84.
  • Y. Zhang, M. Kim, H. Guo, P.B. Sunderland, J.G. Quintiere, J. deRis, D.P. Stocker, Emulation of Condensed Fuel Flames with Gases in Microgravity, Combustion and Flame 162 (2015) 3449-3455.
  • Y. Zhang, P.B. Sunderland, Quenching Limits of Inverse Diffusion Flames with Enriched Oxygen, Combustion and Flame 162 (2015) 2743–2745.
  • Y. Zhang, M.J. Bustamante, M.J. Gollner, P.B. Sunderland, J.G. Quintiere, Burning on Flat Wicks at Various Orientations, Journal of Fire Sciences 32 (2014) 52-71.
  • D. An, P.B. Sunderland, D.P. Lathrop, Suppression of Sodium Fires with Liquid Nitrogen, Fire Safety Journal 58 (2013) 204-207.
  • H. Guo, J.A. Castillo, P.B. Sunderland, Digital Camera Measurements of Soot Temperature and Soot Volume Fraction in Axisymmetric Flames, Applied Optics 52 (2013) 8040-8047.
  • V.R. Lecoustre, P.B. Sunderland, B.H. Chao, R.L. Axelbaum, Modeled Quenching Limits of Spherical Hydrogen Diffusion Flames, Proceedings of the Combustion Institute 34 (2013) 887-894.
  • L. Li, P.B. Sunderland, Smoke Points of Fuel-Fuel and Fuel-Inert Mixtures, Fire Safety Journal 61 (2013) 226-231.
  • G.T. Linteris, V.I. Babushok, P.B. Sunderland, F. Takahashi, V.R. Katta, O. Meier, Unwanted Combustion Enhancement by C6F12O Fire Suppressant, Proceedings of the Combustion Institute 34 (2013) 2683-2690.
  • P. Bhatia, V.R. Katta, S.S. Krishnan, Y. Zheng, P.B. Sunderland, J.P. Gore, Simulations of Normal and Inverse Laminar Diffusion Flames Under Oxygen Enhancement and Gravity Variation, Combustion Theory and Modeling 16 (2012) 774-798.
  • V.R. Lecoustre, P.B. Sunderland, B.H. Chao, R.L. Axelbaum, Numerical Investigation of Spherical Diffusion Flames at their Sooting Limits, Combustion and Flame 159 (2012) 194-199.
  • L. Li, P.B. Sunderland, An Improved Method of Smoke Point Normalization, Combustion Science and Technology 184 (2012) 829-841.
  • K.T. Dotson, P.B. Sunderland, Z.-G. Yuan, D.L. Urban, Laminar Smoke Points of Coflowing Flames in Microgravity, Fire Safety Journal, 46 (2011) 550-555.
  • P.B. Sunderland, J.G. Quintiere, G.A. Tabaka, D. Lian, C.-W. Chiu, Analysis and Measurement of Candle Flame Shapes, Proceedings of the Combustion Institute 33 (2011) 2489-2496.
  • V.R. Lecoustre, P.B. Sunderland, B.H. Chao, R.L. Axelbaum, Extremely Weak Hydrogen Flames, Combustion and Flame 157 (2010) 2209-2210.
  • K.M. Allan, J.R. Kaminski, J.C. Bertrand, J. Head, P.B. Sunderland, Laminar Smoke Points of Wax Candles, Combustion Science and Technology 181 (2009) 800-811.
  • M.S. Butler, C.W. Moran, P.B. Sunderland, R.L. Axelbaum, Limits for Hydrogen Leaks that Can Support Stable Flames, International Journal of Hydrogen Energy 34 (2009) 5174-5182.
  • F.J. Diez, C. Aalburg, P.B. Sunderland, D.L. Urban, Z.-G. Yuan, G.M. Faeth, Soot Properties of Laminar Jet Diffusion Flames in Microgravity, Combustion and Flame 156 (2009) 1514-1524.
  • S.S. Krishnan, J.M. Abshire, P.B. Sunderland, Z.-G. Yuan, J.P. Gore, Analytical Predictions of Shapes of Laminar Diffusion Flames in Microgravity and Earth Gravity, Combustion Theory and Modeling 12 (2008) 605-620.
  • K.B. Lim, B.H. Chao, P.B. Sunderland, R.L. Axelbaum, A Theoretical Study of Spontaneous Ignition of Fuel Jets in an Oxidizing Ambient with Emphasis on Hydrogen Jets, Combustion Theory and Modeling 12 (2008) 1179-1196.
  • P.B. Sunderland, J.E. Haylett, D.L. Urban, V. Nayagam, Lengths of Laminar Jet Diffusion Flames under Elevated Gravity, Combustion and Flame 152 (2008) 60-68.
  • J.D. Maun, P.B. Sunderland, D.L. Urban, Thin-Filament Pyrometry with a Digital Still Camera, Applied Optics 46 (2007) 483-488.
  • K.J. Santa, B.H. Chao, P.B. Sunderland, D.L. Urban, D.P. Stocker, R.L. Axelbaum, Radiative Extinction of Gaseous Spherical Diffusion Flames in Microgravity, Combustion and Flame 151 (2007) 665-675.
  • K.J. Santa, Z. Sun, B.H. Chao, P.B. Sunderland, R.L. Axelbaum, D.L. Urban, D.P. Stocker, Numerical and Experimental Observations of Spherical Diffusion Flames, Combustion Theory and Modeling 11 (2007) 639-652.
  • C. Aalburg, F.J. Diez, G.M. Faeth, P.B. Sunderland, D.L. Urban, Z.-G. Yuan, Shapes of Nonbuoyant Round Hydrocarbon-Fueled Laminar Jet Diffusion Flames in Still Air, Combustion and Flame 142 (2005) 1-16.
  • P.B. Sunderland, S.S. Krishnan, J.P. Gore, Effects of Oxygen Enhancement and Gravity on Normal and Inverse Laminar Jet Diffusion Flames, Combustion and Flame 136 (2004) 254-256.
  • P.B. Sunderland, D.L. Urban, D.P. Stocker, B.-H. Chao, R.L. Axelbaum, Sooting Limits of Microgravity Spherical Diffusion Flames in Oxygen-Enriched Air and Diluted Fuel, Combustion Science and Technology 176 (2004) 2143-2164.
  • P.B. Sunderland, R.L. Axelbaum, D.L. Urban, B.H. Chao, S. Liu, Effects of Structure and Hydrodynamics on the Sooting Behavior of Spherical Microgravity Diffusion Flames, Combustion and Flame 132 (2003) 25-33.
  • D.L. Urban, Z.–G. Yuan, P.B. Sunderland, K.–C. Lin, Z. Dai, G.M. Faeth, Smoke-Point Properties of Nonbuoyant Round Laminar Jet Diffusion Flames, Proceedings of the Combustion Institute 28 (2000) 1965-1972.
  • K.–C. Lin, G.M. Faeth, P.B. Sunderland, D.L. Urban, Z.–G. Yuan, Shapes of Nonbuoyant Round Luminous Hydrocarbon/Air Laminar Jet Diffusion Flames, Combustion and Flame 116 (1999) 415-431.
  • P.B. Sunderland, B.J. Mendelson, Z.–G. Yuan, D.L. Urban, Shapes of Buoyant and Nonbuoyant Laminar Jet Diffusion Flames, Combustion and Flame 116 (1999) 376-386.
  • D.L. Urban, Z.–G. Yuan, P.B. Sunderland, G.T. Linteris, J.E. Voss, K.–C. Lin, Z. Dai, K. Sun, G.M. Faeth, Structure and Soot Properties of Nonbuoyant Ethylene/Air Laminar Jet Diffusion Flames, AIAA Journal 36 (1998) 1346-1360.
  • F. Xu, P.B. Sunderland, G.M. Faeth, Soot Formation in Laminar Premixed Ethylene/Air Flames at Atmospheric Pressure, Combustion and Flame 108 (1997) 471-493.
  • K.–C. Lin, P.B. Sunderland, G.M. Faeth, Soot Nucleation and Growth in Acetylene Air Laminar Coflowing Jet Diffusion Flames, Combustion and Flame 104 (1996) 369-375.
  • P.B. Sunderland, G.M. Faeth, Soot Formation in Hydrocarbon/Air Laminar Jet Diffusion Flames, Combustion and Flame 105 (1996) 132-146.
  • P.B. Sunderland, Ü.Ö. Köylü, G.M. Faeth, Soot Formation in Weakly-Buoyant Acetylene-Fueled Laminar Jet Diffusion Flames Burning in Air, Combustion and Flame 100 (1995) 310-322, also in Proceedings of the Combustion Institute, Volume 25.
  • P.B. Sunderland, S. Mortazavi, G.M. Faeth, D.L. Urban, Laminar Smoke Points of Nonbuoyant Jet Diffusion Flames, Combustion and Flame 96 (1994) 97-103.
  • T.R. Blake, H. Webb, P.B. Sunderland, The Nondimensionalization of Equations Describing Fluidization with Application to the Correlation of Jet Penetration Height, Chemical Engineering Science 45 (1990) 365-371.

Theses

  • P.B. Sunderland, Soot Formation in Laminar Jet Diffusion Flames, Ph.D. Dissertation, University of Michigan (1995) 114 pp. Advisor: Gerard M. Faeth.
  • P.B. Sunderland, A Dimensional Analysis of Fluidized Bed Dynamics with Application to Jet Penetration Measurements, M.S. Thesis, University of Massachusetts (1986) 78 pp. Advisor: Thomas R. Blake.

 


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