Publications

 

 

Journal Papers (since 2000)

  1. K. Boyd Fackler, Megan Karalus, Igor Novosselov, John Kramlich, and Philip Malte. NOx Behavior for Lean-Premixed Combustion of Alternative Gaseous Fuels, Accepted to Journal of Engineering for Gas Turbines and Power, January 2015.
  2. Igor V. Novosselov, Peter C. Ariessohn, Rectangular Slit Atmospheric Pressure Aerodynamic Lens Aerosol Concentrator, Aero Sci and Techn, Vol. 48, Iss. 2, 2014
  3. R. Chakrabarty, I. Novosselov, N. Beres, H. Moosmuller, C M Sorenson, and C. Stipe. Gravity-induced Trapping and Aerogelation of Nanoparticles in Hydrocarbon Flames”, Appl. Phys. Lett. 104, 243103 (2014)
  4. Novosselov I, Gorder R; Van Amberg, J; Ariessohn, Peter; Design and Performance of a Low-cost Micro-channel Aerosol Collector, Aero Sci Tech, Vol. 48, Iss. 8, pp. 822-830, 2014
  5. Ryan Keedy, Evan Dengler, Peter Ariessohn, Igor Novosselov, Alberto Aliseda,  Removal Rates of Explosive Particles from Surfaces by Impingement of a Gas Jet, Aerosol Science and Technology, v 46, n 2, p 148-155, 2012.
  6.  Fackler, K.B., Karalus, M.F., Novosselov, I.V., Kramlich, J.C., Malte, P.C., “Experimental and Numerical Study of NOx Formation From the Lean Premixed Combustion of CH4 Mixed With CO2 and N2,” Journal of Engineering for Gas Turbines Power, December 2011, Volume 133,  Issue 12. (Link)
  7. Polagye, B. and Malte, P.C., “Far-field Dynamics of Tidal Energy Extraction in Channel Networks,” Renewable Energy, January 2011, Volume 36, Issue 1. (Link)
  8. Polagye, B., Kawase, M., and Malte, P.C., “In-stream tidal energy potential of Puget Sound, Washington,” Proceedings of the Institute of Mechanical Engineers, Part A: Journal of Power and Energy, Volume 223, Issue 5, August 2009. (Link)
  9. Novosselov, I.V. and Malte, P.C., “Development and Application of an Eight-Step Global Mechanism for CFD and CRN Simulations of Lean-Premixed Combustors,” Journal of Engineering for Gas Turbines and Power, March 2008, Volume 130, Issue 2. (Link)
  10. Polagye, B., Malte, P., Kawase, M. and Durran, D., “Effect of Large-scale Kinetic Power Extraction on Time-Dependent Estuaries”, Proceedings of the Institute of Mechanical Engineers, Part A: Journal of Power and Energy, Vol. 222, Issue 5, August 2008. (Link)
  11. Rutar, T., Lee, J.C.Y., Dagaut, P., Malte, P.C., and Byrne, A.A., “NOx Formation Pathways in Lean-Premixed-Prevapourized Combustion of Fuels with Carbon-to-Hydrogen Ratio Between 0.25 and 0.88″, Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy, Vol. 221, Issue 3, May 2007. (Link)
  12. Polagye, B.L., Hodgson, K.T., and Malte, P.C., “An Economic Analysis of Bio-Energy Options Using Thinnings from Overstocked Forests”, Biomass and Bioenergy, Vol. 31, Issues 2-3, Feb-March 2007. (Link)
  13. Martin, S.M., Kramlich, J.C., Kosaly, G., and Riley, J.J., “The Premixed Conditional Moment Closure Method Applied to Idealized Lean Premixed Gas Turbine Combustors,” Journal of Engineering for Gas Turbines and Power, October 2003, Volume 125, Issue 4. (Link)
  14. J.C.Y. Lee, P.C. Malte, and M.A. Benjamin, “Low NOx Combustion for Liquid Fuels: Atmospheric Pressure Experiments Using a Staged Prevaporizer-Premixer,” Journal of Engineering for Gas Turbines and Power, October 2003, Volume 125, Issue 4. (Link)
  15. Rutar, T and Malte, P.C., “NOx Formation in High-Pressure Jet-Stirred Reactors With Significance to Lean-Premixed Combustion Turbines,” Journal of Engineering for Gas Turbines and Power, October 2002, Volume 124, Issue 3. (Link)
  16. Bond, T.C., Covert, D.S., Kramlich, J.C., Larson, T.V., Charlson, R.J., , Primary particle emissions from residential coal burning: Optical properties and size distributions,” Journal of Geophysical Research, Volume 107(D21), 2002. (Link)
  17. T. Rutar, P.C. Malte, and J.C. Kramlich: “Investigation of NOx and CO Formation in Lean-Premixed, Methane/Air, High-Intensity, Confined Flames at Elevated Pressures,” Proceedings of the Combustion Institute, Volume 28, Issue 2, 2000, Pages 2435–2441. (Link)
  18. Cha, C.M. and Kramlich, J.C., “Modeling finite-rate mixing effects in reburning using a simple mixing model,” Combustion and Flame, Volume 122, Issues 1–2, July 2000. (Link)
  19. Sliger, R.N., Kramlich, J.C., and Marinov, N.M., “Towards the development of a chemical kinetic model for the homogeneous oxidation of mercury by chlorine species,” Fuel Processing Technology, Volumes 65–66, June 2000. (Link)

 Conference Papers (since 2000)

  1. Chime, A.H., Malte, P.C, “Hydrokinetic Turbines at High Blockage Ratio.” Proceedings of the 2nd Marine Energy Technology Symposium (METS), Seattle, WA, April 15-18, 2014. (Link)

  2. Karalus, M.F., Fackler, K.B., Novosselov, I.V., Kramlich, J.C., and Malte, P.C., “A Skeletal Mechanism for the Reactive Flow Simulation of Methane Combustion.” GT2013-95904, ASME Turbo Expo 2013, San Antonio, TX, June 2-7, 2013. (Link,Mechanism)

  3. Vijlee, S.Z., Kramlich, J.C., Mescher, A.M., Stouffer, S.D., O’Neil-Abels, A.R., “Characterizing Combustion of Synthetic and Conventional Fuels in a Toroidal Well Stirred Reactor.” GT2013-94944, ASME Turbo Expo 2013, San Antonio, TX, June 2-7, 2013. (Link)

  4. Karalus, M.F., Fackler, K.B., Novosselov, I.V., Kramlich, J.C., and Malte, P.C., “Characterizing the Mechanism of Lean Blowout for a Recirculation-Stabilized Premixed Hydrogen Flame.” GT2012-68060, ASME Turbo Expo 2012, Copenhagen, Denmark, June 11-15, 2012. (Link)

  5. Fackler, K.B., Karalus, M.F., Novosselov, I.V., Kramlich, J.C., Malte, P.C., “Experimental and Numerical Study of NOx Formation From the Lean Premixed Combustion of CH4 Mixed With CO2 and N2,” GT2011-45090, ASME Turbo Expo 2011, Vancouver, BC, Canada, June 6-10, 2011. (Link)

  6. Novosselov, I.V. and Malte, P.C., “Development and Application of an Eight-Step Global Mechanism for CFD and CRN Simulations of Lean-Premixed Combustors,” GT-2007-27990, ASME Turbo Expo 2007, Montreal, Canada, May 14-17, 2007. (Link, Presentation)
  7. P. Malte, R. Edmonds, A.C., Lee, I. Novosselov, B. Polagye, and K.B. Fackler, “NOx from Gaseous and Prevaporized Fuels Burned Lean-Premixed at Atmospheric Pressure in Single-Jet Stirred Reactors,” Paper E-38, Proceedings of US Combustion Meeting, San Diego, CA, March 26-28, 2007. (Paper, Presentation)
  8. I.V. Novosselov, P.C. Malte, S. Yuan, R. Srinivasan, and J.C.Y. Lee, “Chemical Reactor Network Application to Emissions Prediction for Industrial DLE Gas Turbine,” GT-2006-90282, ASME Turbo Expo 2006, Barcelona, Spain, May 8-11, 2006. (Link)
  9. J. Bucher, R.G. Edmonds, R.C. Steele, D.W. Kendrick, B.C. Chenevert, and P.C. Malte, “The Development of a Lean-Premixed Trapped Vortex Combustor,” GT-2003-38236, ASME Turbo Expo 2003, Atlanta, GA, June 16-19, 2003. (Link)
  10. Martin, S.M., Kramlich, J.C., Kosaly, G., and Riley, J.J., “The Premixed Conditional Moment Closure Method Applied to Idealized Lean Premixed Gas Turbine Combustors,”GT-2002-30094, ASME Turbo Expo 2002,  Amsterdam, The Netherlands, June 3-6, 2002. (Link)
  11. J.S. Campbell, Jr., P.C. Malte, S. de Bruyn Kops, I. Novosselov, J.C.Y. Lee, and M.A. Benjamin: “Integrating the Staged Prevaporizer-Premixer into Gas Turbine Cycles,” GT-2002-30081, ASME Turbo Expo 2002, Amsterdam, The Netherlands, June 3–6, 2002, (Link)

 

 

Technical Reports and Mechanisms

Kinetic Mechanisms

  1. A Skeletal Mechanism for the Reactive Flow Simulation of Methane Combustion; Karalus, Fackler, Novosselov, Kramlich, and Malte; 2013 (Chemkin Input).

    • Note: The skeletal mechanism has been developed for the following conditions: pressures from 1 to 30 atm, equivalence ratios from 0.4 to 1.0, and mean PSR residence times from slightly greater than blowout to 3ms. For detailed information on its development, validation, and performance please see ASME GT2013-95904.
  2. Eight-Step Global Kinetic Mechanism for Methane Oxidation and NO Formation; Novosselov and Malte; 2006 (PDF).
    • Note: This mechanism is only valid for lean premixed combustion of methane for pressures between 5 and 20 atm and equivalence ratios between 0.45 and 0.7.

Combustion Systems

  1. RANS Simulation of Methane Combustion in a Low Swirl Burner; M. Neumayer; Thesis at TU Munchen; 2013 (PDF)

  2. Well-Stirred Reactor Test Results and Interpretation: Gaseous Fuel Interchangeability Criteria; K. Fackler, M. Karalus, I. Novosselov, J. Kramlich and P. Malte; Report to the California Energy Commission; 2011

  3. Flame Structure Tests and Interpretation: Gaseous Fuel Interchangeability Criteria; K. Fackler, M. Karalus, I. Novosselov, J. Kramlich and P. Malte; Report to the California Energy Commission; 2011

  4. The Homogeneous Forcing of Mercury Oxidation to Provide Low-Cost Capture; John Kramlich and Linda Castiglone; Report to U.S. Department of Energy; April 2009 (PDF)
  5. Use of Computational Fluid Dynamics to Reduce Particulate Emissions from Wood-Fired Hydronic Furnace; Paul Glanville, Michael Kirby, and John Kramlich; 2008 (PDF)
  6. Simulation and Modeling of Wood Dust Combustion in Cyclone Burners; Stephen M. de Bruyn Kops and Philip Malte; Report to U. S. Department of Energy; January 2004 (PDF)
  7. The Staged Prevaporizing-Premixing Injector: High Pressure Evaluation; Philip Malte, Ryan G. Edmonds, Andrew Campbell Lee, Igor Novosselov, and Stephen de Bruyn Kops; Report to Advanced Gas Turbines Systems Research; December 2002; (PDF)
  8. Advanced Fuel Injector for a Catalytic Micro-Channel Fuel Cell Processor; Philip Malte, Andrew Campbell Lee, Andrew Chong Sung Lee, Igor Novosselov, and Stephen de Bruyn Kops; Report to Washington Technology Center; 2002 (PDF)

 

Renewable Energy Systems

  1. Environmental Effects and the Permitting Processes for a Deep Water Offshore Wind-Wave Hybrid Generator; Gabrielle DeVault; March 2011 (PDF)

National Park Service (NPS) via University-National Park Energy Partnership Program (UNPEPP)

  1. Energy Efficiency and Solar PV for Klondike Gold Rush National Historical Park; K. Boyd Fackler and Philip Malte; January 2010 (PDF)
  2. Renewable Energy Options for Golden Gate National Recreation Area at Alcatraz Island; Mary Hamann, K. Boyd Fackler, and Philip Malte; May 2008 (PDF)
  3. Renewable Solar Energy for Ebey’s Landing National Historical Reserve; Mary Hamann and Philip Malte; May 2007 (PDF)
  4. Renewable Energy Opportunities for Haleakala National Park: Kipahulu District; K. Boyd Fackler and Philip Malte; March 2006 (PDF)
  5. Renewable Energy Systems Analysis: Solar Thermal Conversion for Domestic Hot Water and Space Heating at Hawaii Volcanoes National Park; Brian Polagye and Philip Malte; December 2003 (PDF)
  6. Balancing Energy Options in Stehekin, Washington; Jessica (Kirchkoffer) Raiker and Philip Malte; June 2003 (PDF)
  7. Moving Toward Energy Sustainability at the Marblemount (Skagit) Ranger Station; Bo Vestergaard-Hansen and Philip Malte; June 2001 (PDF)
  8. Photo-voltaic Alternatives for the Rehabilitation of the Watchman Lookout; Craig Connors and Philip Malte;  March 1999 (PDF)

PhD Dissertations (since 2000)

  1. Vijlee, Shazib Z.; Effects of Fuel Composition on Combustion Stability and NOX Emissions for Traditional and Alternative Jet Fuels; 2013 (PDF)
  2. Karalus, Megan F.; An Investigation of Lean Blowout of Gaseous Fuel Alternatives to Natural Gas; 2013 (PDF)
  3. Fackler, K. Boyd; A study of pollutant formation from the lean premixed combustion of gaseous fuel alternatives to natural gas; 2011 (PDF)
  4. Polagye, Brian L.; Hydrodynamic effects of kinetic power extraction by in-stream tidal turbines; 2009 (PDF)
  5. Novosselov, Igor V.; Chemical Reactor Networks for Combustion Systems Modeling; 2006 (PDF)
  6. Martin, Scott; The Conditional Moment Closure Method for Modeling Lean Premixed Turbulent Combustion; 2003
  7. Sliger, Rebecca; Mercury Transformations and Capture by Alkali Aerosol in the Post-Flame Regions of Pulverized Coal Combustion; 2001
  8. Lee, John C.Y.; Reduction of NOx emission for lean prevaporized-premixed combustors; 2000 (PDF)
  9. Rutar-Shuman, Teodora; NOx and CO Formation for Lean-Premixed Methane-Air Combustion in a Jet-stirred Reactor Operated at Elevated Pressure; 2000 (PDF)
  10. Cha, Chong; Application of Finite-Rate Mixing Models to Reburning; 2000

MS Theses (since 2000)

  1. Chime, Arshiya; Analysis of Hydrokinetic Turbines in Open Channel Flows; 2013 (PDF)
  2. Pundle, Anamol; Modeling and Analyzing the Formation of Oxides of Nitrogen and Formaldehyde in Large-Bore, Lean-Burn, Natural Gas Engines; 2013 (PDF)
  3. Arango, Moriel; Resource Assessment and Feasibility Study for Use of Hydrokinetic Turbines in the Tailwaters of the Priest Rapids Project; 2011 (PDF)
  4. Thielmann, Jessica; Power Extraction from Irrigation Laterals and Canals in the Columbia Basin Project; 2009 (PDF)
  5. Karalus, Megan F.; Evaluating a Downdraft Wood Fired Hydronic Furnace: Computational Fluid Dynamics Modeling and Analysis; 2009 (PDF, Presentation)
  6. Barker, James P.; Fatty acid profiles of soxhlet extracted lipids from two microalgae; 2009
  7. Glanville, Paul E.; Reducing Particulate Matter Emission from a Wood-Fired Hydronic Furnace: Computational Fluid Dynamics Modeling and Analysis; 2008 (PDF, Presentation)
  8. Hamann, Mary; Renewable energy options for Golden State National Recreation Area at Alcatraz Island; 2008
  9. Fackler, K. Boyd; Renewable Energy Opportunities for Haleakala National Park: Kipahulu District; 2006
  10. Henson, Anna; Conceptual Design of a Solar-Thermal Heating System with Seasonal Storage for a Vashon Greenhouse; 2006 (PDF)
  11. Jacobson, Eron; Minimizing the Cost of Wind Energy for Vashon Island – a Low Wind Speed Site; 2005 (PDF,Presentation)
  12. Polagye, Brian; Thermochemical Conversion of Forest Thinnings; 2005 (PDF, Presentation)
  13. Heyer, Gwen; Chemical Reactor Modeling of Oxides of Nitrogen in Lean-Premixed, High-Intensity Combustion of Carbon Monoxide-Hydrogen Blends; 2004 (PDF)
  14. Lee, Andrew Campbell; Experimental Investigation of Liquid Fuel Vaporization and Mixing in Steam and Air; 2003 (PDF)
  15. Edmonds, Ryan; Prevaporized Premixed Combustion at Short Residence Times; 2002 (PDF)
  16. Wheeler, Margaret; Modeling and Optimization of Heat Management in a Multi-Staged Solid Oxide Fuel Cell System; 2001
  17. Novosselov, Igor; Eight-Step Global Kinetic Mechanism on Methane Oxidation with Nitric Oxide Formation for Lean-Premixed Combustion Turbines; 2001 (PDF)
  18. O’Keefe, Michael P.; Biofuels and internal combustion engine options for tour boats on Crater Lake; 2000
  19. Connors, Craig N.; Feasibility study of solar photovoltaic energy application in the Pacific Northwest; 2000
  20. Shuman, Brandon; An Experimental Heat Transfer Study of the Rotational Atherectomy Process for Clearing Coronary Arteries; 2000