Conference Proceedings

Suntz, Rainer, and Henning Bockhorn. 2006. Laser-induced incandescence: Quantitative Interpretation, Modelling, Applications. Rainer Suntz and Bockhorn, Henning. Proc. 2nd Intl. Discussion Meeting and Workshop. Bad Herrenalb, Germany: CEUR Workshop Proceedings. WebsiteAbstract
  1. Complete Proceedings
Papers
  1. Theoretical considerations in modeling LII at low pressuresF. Liu, K. J. Daun, G. J. Smallwood
  2. Inverse analysis of time-resolved LII dataK. J. Daun, F. Liu, G. J. Smallwood, B. J. Stagg, and D. R. Snelling
  3. Heat conduction from spherical nano-particlesF. Liu, K. J. Daun, G. J. Smallwood, and D. R. Snelling
  4. Absorption correction of two-color LII-signalsF. Migliorini, S. De Iuliis, F. Cignoli, G. Zizak
  5. Longer laser pulses for practical LIIJ. D. Black
  6. TR-LII and PMS particle sizing applied to soot particles synthesized in a low-pressure flame reactorB. Tribalet, B.F. Kock, P. Ifeacho, P. Roth, C. Schulz
  7. Time-resolved LII in comparison with mass spectrometry measurements in a premixed ethylene/air flameR. Stirn, K.P. Geigle, W. Meier, T. Gonzalez-Baquet, H.H. Grotheer, M. Aigner
  8. Temperature measurements for LII evaluation in non-premixed flames – comparison between emission spectroscopy and CARSM. Wendler, G. Guevara, M.C. Weikl, R. Sommer, F. Beyrau, T. Seeger and A. Leipertz
  9. Pressure effects on LII-signalsA. Boiarciuc, F. Foucher, C. Mounaïm-Rousselle
  10. Effect of pressure on thermal accommodation coefficientB.J. Stagg
  11. Laser-induced incandescence for measuring soot particle emission from aero-gas turbinesJ. Delhay, P. Desgroux, E. Therssen, John Black
  12. Two-color time-resolved LII study of iron oxide nanoparticle formation in a premixed flat low pressure flameH. Dörr, H. Bockhorn, and R. Suntz
Posters
  1. In-cylinder particulate sizing with combined TR-LII/2C pyrometryB. Bougie, L.C. Ganippa, A.P. van Vliet, W.L. Meerts, N.J. Dam, J.J. ter Meulen
  2. Measuring accommodation coefficients using laser-induced incandescenceK. J. Daun, G. J. Smallwood, F. Liu, and D. R. Snelling
  3. Comparison of TR-LII sizing for pure carbon and hydrogen-containing carbon particlesA. Eremin, M. Falchenko, E. Gurentsov, B. Kock, R. Starke, C. Schulz
  4. LII in a high vacuum and up date and LII in carbon black from a particle generatorV. Beyer and D. A. Greenhalgh, D. Clavel, K. Daun, F. Liu, B. Sawchuck, G. Smallwood, D. Snelling and K. Thomson
  5. Particle size measurements with two color TIRE-LIIR. Hadef, R. Stirn, KP. Geigle, M. Aigner
  6. A web-based interface for modeling laser-induced incandescence (LIISim)M. Hofmann, B.F. Kock, C. Schulz
  7. Effects of soot absorption and scattering on LII intensities in a laminar coflow ethylene/air diffusion flameF. Liu, K. A. Thomson, G. J. Smallwood
  8. Time-resolved laser-induced incandescence (TIRE-LII) coupled with spectral emission measurements for particle sizing in high-pressure diesel combustion environmentsR. Ryser, T. Gerber, T. Dreier
  9. Absolute intensity calibration of LII detectorsK. A. Thomson, D. R. Snelling, G. J. Smallwood
Schulz, Christof. 2005. Laser-induced incandescence: Quantitative Interpretation, Modelling, Application. Christof Schulz. Proc. Intl. Bunsen Discussion Meeting and Workshop. Duisburg, Germany: CEUR Workshop Proceedings. WebsiteAbstract
Papers
  1. Heat conduction issues in laser-induced incandescenceS.-A. Kuhlmann, J. Reimann, S. Will
  2. A detailed experimental and theoretical comparison of spatially-resolved laser-induced incandescence signalsH. Bladh, J. Delhay, Y. Bouvier, E. Therssen, P-E. Bengtsson, P. Desgroux
  3. Investigations of the mechanisms involved in LII particle detectionH. A. Michelsen, M. Y. Gershenzon, P.O. Witze
  4. Influence of polydisperse distributions of both primary particle and aggregate sizes on soot temperature in low-fluence laser-induced incandescenceF. Liu, M. Yang, F. A. Hill, G. J. Smallwood, D. R. Snelling
  5. 2-Color LII measurements of carbon black: Interpretation for quantitative measurement of finenessB.J. Stagg
  6. Wavelength-dependence of refractive index function of soot particle by two-color laser induced incandescenceY. Bouvier, E. Therssen, P. Desgroux
  7. An LII technique independent of ex-situ calibration by detecting absolute light intensityD. R. Snelling, G. J. Smallwood, F. Liu, Ö. L. Gülder, W. D. Bachalo
  8. Laser-induced processes in carbon generated in an argon arcJ.D. Black, M.P. Johnson
  9. An investigation of soot nanoparticulate in a vacuumV. Beyer, D.A. Greenhalgh
  10. Laser-induced incandescence measurements in a laminar co-annular non-premixed methane/air flame at pressures of 0.5 to 4.0 MPaK. A. Thomson, D. R. Snelling, G. J. Smallwood, F. Liu
  11. Laser-induced incandescence and shifted vibrational CARS in laminar premixed flames at atmospheric and elevated pressuresK.P. Geigle, M.S. Tsurikov, W. Meier, V. Krüger, R. Hadef
  12. Laser-induced incandescence and multi-line NO thermometry for soot diagnostics at high pressuresM. Hofmann, H. Kronemayer, B. F. Kock, C. Schulz
  13. Soot particulate size measurements in a heavy duty Diesel engineB. Bougie, L.C. Ganippa, A.P. van Vliet, N.J. Dam, W.L. Meerts, J.J. ter Meulen
  14. Modeling of time-resolved laser-induced incandescence (TIRE-LII) transients for particle sizing in high-pressure spray combustion environmentsT. Dreier, B. Bougie, L. Ganippa, N. Dam, T. Gerber, J.J. ter Meulen
  15. Application of TR-LII for the study of carbon vapor condensation at room temperatureA. Eremin, E. Gurentsov, M. Hofmann, C. Schulz
  16. Planar laser-induced incandescence of iron particles in welding fumesO. Lucas, Z. Alwahabi, V. Linton
  17. Time-resolved laser-induced-incandescence (TR-LII) for iron-particle sizingB. Kock, J. Knipping, H.R. Orthner, C. Kayan, C. Schulz, P. Roth
  18. Laser-induced incandescence of free and surface-adsorbed particlesT. Schittkowski, D. Böker, D. Brüggemann
  19. In-situ determination of gas-to-particle reaction generated nanoscaled particlesM. Charwath, T. Lehre, R. Suntz, H. Bockhorn
  20. Two-dimensional imaging of soot volume fraction and OH in turbulent jet diffusion flames spanning low to high mixing ratesN. H. Qamar, Z.T. Alwahabi, G. J. Nathan, K. D. King
Posters
  1. Peak soot temperature in laser-induced incandescence measurementsS. De Iuliis, F. Cignoli, G. Zizak
  2. Soot volume fractions and primary particle size estimations by means of simultaneous time-resolved and 2D laser-induced incandescenceA. Boiarciuc, F. Foucher, C. Mounaïm-Rousselle
  3. Time-resolved laser-induced incandescence applied to in-cylinder Diesel particle sizingB. F. Kock, C. Schulz, P. Roth
  4. Gas-phase temperature imaging in sooting flames by multi-line NO-LIF thermometryH. Kronemayer, M. Hofmann, K. Omerbegovic, C. Schulz
  5. A critical evaluation of the thermal accommodation coefficient of soot determined by the laser-induced incandescence techniqueF. Liu, D. R. Snelling, G. J. Smallwood