PUBLICATIONS

Refereed Research Papers

  1. Fan, J Wang, X Zhao, J Pan, Y Zhu. Effects of the jet obstacle on flame acceleration and deflagration-to-detonation transition: A numerical perspectiveL. International Journal of Hydrogen Energy 94, 1236-1246. doi
  2. Colborn, J., J. O’Connor, Nicolas Tricard, Jonathan Denman, Peiyu Zhang, and Xinyu Zhao (2024). Interpreting Measurements of Total and Radiative Heat Flux in a Vitiated Backward-Facing Step Flow. AIAA Journal 62, 2967–2978. doi
  3. GC Fraga, PJ Coelho, X Zhao (2024).  Band-wise assessment of turbulence-radiation interaction in the prediction of mean and filtered radiative quantities. Journal of Quantitative Spectroscopy and Radiative Transfer, 109020. doi
  4. Nicolas Tricard, Guilherme Fraga, and Xinyu Zhao (2024). Optimal parameters of Monte Carlo ray tracing solver with line-by-line spectral database for radiation modeling in fire. Proceedings of the Combustion Institute 40(1), 105293. doi
  5. Patrick A. Meagher and Xinyu Zhao (2024). Grid resolution considerations for simulating non-ideal cellular detonation. Proceedings of the Combustion Institute 40(1), 105412. doi
  6. Dobbins, R. R., J. Tinjero, Joseph Squeo, Xinyu Zhao, R. J. Hall, M. B. Colket, M. B. Long, and M. D. Smooke (2023). A Combined Experimental and Computational Study of Soot Formation in Normal and Microgravity Conditions. Combustion Science and Technology 195(15), 3882–3907. doi
  7. Guilherme C. Fraga, B. Wu, M. Ihme, and X. Zhao (2023). Assessing requirements for modeling radiation in diffusion flames using an analytical, non-local model. Combustion and Flame 255, 112907. doi
  8. Patrick A. Meagher, X. Shi, J. P. Santos, N. K. Muraleedharan, J. Crane, A. Y. Poludnenko, H. Wang, and Xinyu Zhao (2023). Isolating gasdynamic and chemical effects on the detonation cellular structure: A combined experimental and computational study. Proceedings of the Combustion Institute 39(3), 2865–2873. doi
  9. Steinberg, A., P. Hamlington, and Zhao, Xinyu (2021). Structure and dynamics of highly turbulent premixed combustion. Progress in Energy and Combustion Science 85, 100900. doi
  10. Turkeri, H. and Zhao, Xinyu (2021). Large eddy simulation/probability density function simulations of the Cambridge turbulent stratified flame series under swirling condition. Physics of Fluids 33, 025117. doi
  11. Wang, D., Zhao, Xinyu, and X. Chen (2021). New Hammerstein modeling and analysis for controlling melt pool width in powder bed fusion additive manufacturing. ASME Letters in Dynamic Systems and Control 1, 031012. doi
  12. Wu, B., M. Ihme, and Zhao, Xinyu (July 2021). Assessment of the flamelet assumptions for modeling a small-scale turbulent pool fire. Combustion and Flame 227, 346–358. doi
  13. Zhang, P., Meagher, P. A., and Zhao, Xinyu (2021). Multiplicity for idealized rotational detonation waves. Physics of Fluids 33, 106102. Krisman, A., Meagher, P., X. Zhao, J.-W. Park, T. Lu, and J. H. Chen (2020). A direct numerical simulation of Jet A flame kernel quenching. Combustion and Flame 225, 349–363. doi
  14. Oluwole, O. O., A. Gupta, B. Wu, Zhao, Xinyu, K. V. Meredith, and Y. Wang (2020). Nongray models for radiative absorption and anisotropic scattering by water droplets in fire CFD simulations. Fire Safety Journal, 103034. doi
  15. Wu, B., S. Roy, and X. Zhao (2020). Detailed modeling of a small-scale turbulent pool fire. Combustion and Flame 214, 224–237. doi
  16. Wu, B. and X. Zhao (2020). Effects of radiation models on steady and flickering laminar non-premixed flames. Journal of Quantitative Spectroscopy and Radiative Transfer, 107103. doi
  17. Hartl, S., D. Geyer, C. Hasse, Zhao, Xinyu, H. Wang, and R. S. Barlow (2019). Assessing an experimental approach for chemical explosive mode and heat release rate using DNS data. Combustion and Flame 209, 214–224. doi
  18. Turkeri, H., Zhao, Xinyu, S. B. Pope, and M. Muradoglu (2019). Large eddy simulation/probability density function simulations of the Cambridge turbulent stratified flame series. Combustion and Flame 199, 24–45. doi
  19. Wang, Q., Zhao, Xinyu, and M. Ihme (2019). Large eddy simulation of turbulent spray flame using regularized deconvolution method. Combustion and Flame 207, 89–100. doi
  20. Wu, B., Zhao, Xinyu, B. R. Chowdhury, B. Cetegen, C. Xu, and T. Lu (2019). A numerical investigation of the flame structure and blowoff characteristics of a bluff-body stabilized turbulent premixed flame. Combustion and Flame 202, 376–393. doi
  21. Xu, C., A. Y. Poludnenko, Zhao, Xinyu, H. Wang, and T. Lu (2019). Structure of strongly turbulent premixed n-dodecane–air flames: direct numerical simulations and chemical explosive mode analysis. Combustion and Flame 209, 27–40. doi
  22. Zhao, Xinyu, Y. Tao, H. Wang, and T. Lu (2019). Sensitivities of direct numerical simulations to chemical kinetic uncertainties: spherical flame kernel evolution of a real jet fuel. Combustion and Flame 209, 117–132.  doi
  23. Ren, Z., M. Kuron, Zhao, Xinyu, T. Lu, E. Hawkes, H. Kolla, and J. H. Chen (2018). Micromixing models for PDF simulations of turbulent premixed flames. Combustion Science and Technology 191(8), 1430–1455. doi
  24. Wabel, T., Zhang, P., Zhao, Xinyu, H. Wang, E. Hawkes, and A. Steinberg (2018). Assessment of chemical scalars for heat release rate measurement in highly turbulent premixed combustion including experimental factors. Combustion and Flame 194, 485–506. doi
  25. Wu, B. and Zhao, Xinyu (2018). Radiation characteristics of water droplets in a fire-inspired environment: a Monte Carlo ray tracing study. Journal of Quantitative Spectroscopy and Radiative Transfer 212, 97–111. doi
  26. Wu, B., S. Roy, Zhao, Xinyu, and M. Modest (2017). Effect of multiphase radiation on coal combustion in a pulverized coal jet flame. Journal of Quantitative Spectroscopy and Radiative Transfer 197, 154–165. doi
  27. Kolla, H., Zhao, Xinyu, J. H. Chen, and N. Swaminathan (2016). Velocity and reactive scalar dissipation spectra in turbulent premixed flames. Combustion Science and Technology 188 (9), 1424–1439. doi
  28. Zhao, Xinyu, A. Bhagatwala, J. H. Chen, D. C. Haworth, and S. B. Pope (Jan. 2016). An a priori DNS study of the shadow-position mixing model. Combustion and Flame 165, 223–245. doi
  29. Jangi, M., Zhao, Xinyu, D. C. Haworth, and X.-S. Bai (Feb. 2015). Stabilization and liftoff length of a nonpremixed methane/air jet flame discharging into a high-temperature environment: An accelerated transported PDF method. Combustion and Flame 162(2), 408–419. doi
  30. Zhao, Xinyu and D. C. Haworth (2014). Transported PDF modeling of pulverized coal jet flames. Combustion and Flame 161(7), 1866–1882. doi
  31. Zhao, Xinyu, D. C. Haworth, T. Ren, and M. F. Modest (2013). A transported probability density function photon Monte Carlo method for high-temperature oxy-natural gas combustion with spectral gas and wall radiation. Combustion Theory and Modelling 17(2), 354–381.  doi
  32. Zhao, Xinyu, D. C. Haworth, and E. D. Huckaby (2012). Transported PDF modeling of nonpremixed turbulent CO/H2 /N2 Jet Flames. Combustion Science and Technology 184(5), 676–693. doi
  33. Zhao, Xinyu, Q. Yao, S. Li, and N. Cai (Oct. 2008). Studies on the carbon reactions in the anode of deposited carbon fuel cells. Journal of Power Sources 185(1), 104–111. doi
  34. Zhao, Xinyu, X. Zhao, and Q. Yao (2007). The modeling of direct carbon fuel cells with solid oxide electrolytes. Journal of Engineering Thermophysics (Suppl. 2), 161–164. doi

Papers in Conference Proceedings

  1. Joseph N. Squeo and Xinyu Zhao (August 2021). Soot Prediction in Flames Using a Data Based Machine Learning Approach. In: International Symposium on Advances in Computational Heat Transfer (ICHMT).
  2. Patrick A. Meagher, S. S. Dammati, X. Shi, J. Crane, A. Y. Poludnenko, H. Wang, and Xinyu Zhao (19–20 May 2022). Towards a hydrogen detonation combustor: using high-fidelity simulation to quantify wall losses for hydrogen-oxygen and hydrogen-air detonations in narrow ducts. In: C2E2 Clean Energy Symposium (University of Connecticuty, CT, U.S.A.).
  3. Patrick A. Meagher, S. S. Dammati, Xinyu Zhao, A. Y. Poludnenko, X. Shi, J. Crane, and H. Wang (25–26 May 2021). Effects of grid resolution and boundary conditions on 2D simuations of single headed hydrogen detonations. In: 12th United States National Combustion Meeting (Texas A&M University, College Station, TX, U.S.A. (virtual)).
  4. Patrick A. Meagher, Sam Calello III, J.-W. Park, and Xinyu Zhao (8–11 May 2022). Effect of laminar flame properties on the global response of flames subject to extreme turbulence. In: 18th International Confrence on Numerical Combustion (San Diego, CA, U.S.A.).
  5. Patrick A. Meagher, X. Shi, J. Crane, S. S. Dammati, Xinyu Zhao, A. Y. Poludnenko, and H. Wang (12–14 July 2022). Gas phase detonation fundamentals: Microscopic jetting as the origin of the detonation cell cycle. In: National Rotating Detonation Engine Council Meeting (Naval Postgraduate School, Monterey, CA, U.S.A.).
  6. Patrick A. Meagher, X. Shi, A. S. Jayaraman, N. Kateris, Xinyu Zhao, and H. Wang (19–22 March 2023). Microscopic fluid jetting as the origin of the detonation cell. In: 13th United States National Combustion Meeting (Texas A&M University, College Station, TX, U.S.A.).
  7. Shi, X., Meagher, Patrick A., J. P. Santos, N. K. Muraleedharan, J. Crane, A. Y. Poludnenko, Zhao, Xinyu, and H. Wang (21–22 May 2022). Isolating gasdynamic and chemical effects on detonation cellular structure and regularity. In: 2022 Spring Hybrid Meeting of the Western States Section of the Combustion Institute (Stanford University, Stanford, CA, U.S.A.).
  8. Guilherme C Fraga, P. J. Coelho, and Xinyu Zhao (June 2023). Narrow band-wise identification of turbulence-radiation interaction in resolved and subfilter scales. In: Proceedings of the 10th International Symposium on Radiative Transfer, RAD-23. Thessaloniki, Greece: Begell House, Inc.
  9. Patrick A. Meagher, X. Shi, A. S. Jayaraman, N. Kateris, Xinyu Zhao, and H. Wang (2023). The hydrody-namic origin of the detonation cell. In: Proceedings of the 29th ICDERS (SNU Siheung, Korea). Institute for Dynamics of Explosions and Reactive Systems.
  10. Tricard, Nicolas and Zhao, Xinyu (June 2023). Acceleration of Monte Carlo Ray Tracing in Participating Media Using Graphics Processing Units and Bounding Volume Hier-archies. In: 10th International Symposium on Radiative Transfer (RAD-23). Thessaloniki, Greece.
  11. Guilherme Crivelli Fraga and Xinyu Zhao (May 2022). Assessment of subfilter-scale turbulence-radiation interaction using stochastic time and space series. In: 18th International Conference on Numerical Combustion. San Diego, CA, USA.
  12. Julian Toumey, Peiyu Zhang, Zhao, Xinyu, J. Colborn, and J. A. O’Connor (Jan. 2022). Assessing the wall effects of backwards-facing step flow in tightly-coupled experiments and simulations. In: AIAA Scitech Forum. San Diego, CA.
  13. Nicolas N. Tricard and Zhao, Xinyu (Jan. 2022). One dimensional modeling of spray detonations considering loss effects. In: AIAA Scitech Forum. San Diego, CA.
  14. Patrick A. Meagher, X. Shi, J. Crane, Xinyu Zhao, S. S. Dammati, A. Y. Poludnenko, and H. Wang (2022a). Cell structure and global heat release in 2D and 3D JP10-air detonations in narrow channels. In: Proceedings of the 28th ICDERS (Napoli,Italy). Institute for Dynamics of Explosions and Reactive Systems.
  15. Patrick A. Meagher, X. Shi, J. Crane, Xinyu Zhao, S. S. Dammati, A. Y. Poludnenko, and H. Wang (2022b). Forward jetting phenomenon in detonations. In: Proceedings of the 28th ICDERS (Napoli,Italy). Institute for Dynamics of Explosions and Reactive Systems.
  16. Calello III, T. Lu, and Zhao, Xinyu (Jan. 2022). An analytical sensitivity analysis method for turbulent reacting flows. In: AIAA Scitech Forum. San Diego, CA.
  17. Shi, X., Patrick A. Meagher, J. Crane, S. S. Dammati, Xinyu Zhao, A. Y. Poludnenko, and H. Wang (2022). On cellular multiplicity of detonation in confined channels. In: Proceedings of the 28th ICDERS (Napoli,Italy). Institute for Dynamics of Explosions and Reactive Systems.
  18. Tricard, Nicolas, A. Ghosh, S. S. Dammati, A. Y. Poludnenko, and Zhao, Xinyu (June 2022). Steady and transient one-dimensional simulations of multiphase dodecane/air detonations. In: International Colloquium on the Dynamics of Explosions and Reactive Systems (ICDERS). Naples, Italy.
  19. Tricard, Nicolas and Zhao, Xinyu (Aug. 2021). Modeling of conjugate heat transfer within thermal barrier coatings for combustion environments. In: ICHMT International Symposium on Advances in Computational Heat Transfer (CHT-21). Rio de Janeiro, Brazil.
  20. Johnson, Andressa, S. Zhang, and Zhao, Xinyu (Aug. 2020). Wide-band models for high-pressure engine conditions. In: AIAA Propulsion&Energy Forum. Virtual Events.
  21. Johnson, Andressa and Zhao, Xinyu (June 2020). Analysis of the heat transfer within combustor liners using a combined Monte Carlo and two-flux method. In: ASME Turbo Expo 2020. GT2020-15690. London, UK.
  22. Meagher, P. and Zhao, Xinyu (Mar. 2020). Direct Numerical Simulation of a Turbulent Premixed Flame Kernel. In: Eastern States Section of the Combustion Institute Spring Technical Meeting. Columbia, SC.
  23. Squeo, J. and Zhao, Xinyu (Mar. 2020). A Data Based Approach for Soot Prediction in a Laminar Diffusion Flame. In: Eastern States Section of the Combustion Institute Spring Technical Meeting. Columbia, SC.
  24. Toumey, J. and Zhao, Xinyu (Mar. 2020). Assessment of turbulence models for simulating confined swirling flows. In: Eastern States Section of the Combustion Institute Spring Technical Meeting. Columbia, SC.
  25. Wang, D., Zhao, Xinyu, and X. Chen (Oct. 2020). New Hammerstein modeling and analysis for controlling melt pool width in powder bed fusion additive manufacturing. In: Proceedings of the ASME Dynamic Systems and Control Conference 2020. Pittsburgh, PA.
  26. Gruber, A., J. Kruger,¨  H. Turkeri, Zhao, Xinyu, O. Schulz, N. Noiray, B. Cuenot, T. Poinsot, A. Konduri, and J. Chen (May 2019). Large Eddy Simulation of flame stabilization assisted by auto-ignition in a geometrically simplified reheat gas turbine combustor. In: 17th SIAM International Conference on Numerical Combustion. Aachen, Germany.
  27. Turkeri and Zhao, Xinyu (May 2019). LES/PDF simulations of swirling turbulent premixed flames. In: 17th SIAM International Conference on Numerical Combustion. Aachen, Germany.
  28. Turkeri, Zhao, Xinyu, S. B. Pope, and M. Muradoglu (May 2019). LES/PDF simulation of Cambridge/Sandia turbulent stratified flames with differential diffusion. In: 17th SIAM International Conference on Numerical Combustion. Aachen, Germany.
  29. Meagher, P. and Zhao, Xinyu (Nov. 2019). Molecular mixing in highly turbulent premixed flames. In: Bulletin of the American Physical Society. Seattle, WA.
  30. Sikic, I., O. O. Oluwole, J. Wen, S. Dembele, Wu, B., Zhao, Xinyu, K. V. Meredith, and Y. Wang (Mar. 2019). A wide band gas radiation model for fire CFD simulations. In: 11th U. S. National Combustion Meeting. Pasadena, CA.
  31. Towery, C. A., P. E. Hamlington, Zhao, Xinyu, C. Xu, T. Lu, and A. Y. Poludnenko (Jan. 2019). Lagrangian chemical explosive mode analysis of highly turbulent premixed flames. In: AIAA Scitech Forum. San Diego, CA.
  32. Wu, B. and X. Zhao (2019). A detailed numerical investigation of radiative heat transfer in non-premixed laminar flames. In: Proceedings of the 9th International Symposium on Radiative transfer, RAD-19. Athens, Greece.
  33. Wu, B., X. Zhao, and S. Roy (2019). A numerical study of radiation in a small-scale pool fire. In: Proceedings of the 9th International Symposium on Radiative transfer, RAD-19. Athens, Greece.
  34. Wu, B. and Zhao, Xinyu (Mar. 2019b). Detailed modeling of a small-scale turbulent pool fire. In: 11th U. S. National Combustion Meeting. Pasadena, CA.
  35. Wu, B. and Zhao, Xinyu (Nov. 2019c). Diagnosis of turbulence radiation interactions in turbulent premixed flames under high-pressure and high-Ka conditions. In: Bulletin of the American Physical Society. Seattle, WA.
  36. Wu, B., Zhao, Xinyu, C. Xu, and T. Lu (Jan. 2019). Analysis of the chemical states of a bluff-body stabilized premixed flame near blowoff. In: AIAA Scitech Forum. San Diego, CA.
  37. Zhang, S., A. Johnson, and Zhao, Xinyu (Mar. 2019). Radiation modeling for gas turbine relevant conditions. In: 11th U. S. National Combustion Meeting. Pasadena, CA.
  38. Zhao, Xinyu and B. Wu (May 2019). High-fidelity simulation of a small-scale pool fire with soot and thermal radiation. In: 17th SIAM International Conference on Numerical Combustion. Aachen, Germany.
  39. Zhao, Xinyu, H. Kolla, P. Zhang, B. Wu, S. Calello III, and H. Najm (Jan. 2019). A transported probability density function method to propagate chemistry uncertainty in reacting flow CFD. In: AIAA Scitech Forum. San Diego, CA.
  40. Caratenuto, A., Zhang, P., Wu, B., and Zhao, Xinyu (Mar. 2018). Memory optimization of a radiative heat transfer solver for fire simulations. In: Eastern States Section of the Combustion Institute Spring Technical Meeting. State College, PA.
  41. Roy, S. P., Wu, B., and Zhao, Xinyu (May 2018). Detailed Soot Modeling of a Heptane Pool Fire. In: FM Global Open Source CFD Fire Modeling Workshop. Norwood, MA.
  42. Turkeri, H. and Zhao, Xinyu (Mar. 2018). Large eddy simulation and probability density function modelling of swirling Cambridge/Sandia turbulent stratified flame series. In: Eastern States Section of the Combustion Institute Spring Technical Meeting. State College, PA.
  43. Wang, Q., M. Ihme, and Zhao, Xinyu (Jan. 2018). Sub-grid scale modeling of turbulent spray flame using regularized deconvolution method. In: AIAA Scitech Forum. https://doi.org/10.2514/6.2018-2082. Kissimmee, FL.
  44. Wu, B., Zhao, Xinyu, and S. P. Roy (May 2018). Radiative heat transfer, soot models, and sufficient chemistry: a road map to DNS of a small-scale pool fire. In: FM Global Open Source CFD Fire Modeling Workshop. Norwood, MA.
  45. Zhang, P., Wu, B., and Zhao, Xinyu (Nov. 2018). Assessment of the thickened flame model for large eddy simulations of turbulent premixed flames near extinction conditions. In: Bulletin of the American Physical Society. Atlanta, GA.
  46. Zhao, Xinyu and Wu, B. (Nov. 2018). A backward photon Monte Carlo solver to understand radiative heat transfer under optically-thick conditions. In: Bulletin of the American Physical Society. Atlanta, GA.
  47. Turkeri, H. and Zhao, Xinyu (Nov. 2017). A Lagrangian mixing frequency model for transported PDF modeling. In: Bulletin of the American Physical Society. Denver, CO.
  48. Turkeri, H., Zhao, Xinyu, and H. Kolla (Apr. 2017). Scalar gradient statistics for regime independent modeling. In: 16th SIAM International Conference on Numerical Combustion. Orlando, FL.
  49. Wang, Q., Zhao, Xinyu, and M. Ihme (Nov. 2017). Assessment of sub-grid scale dispersion closure with regularized deconvolution method in a particle-laden turbulent jet. In: Bulletin of the American Physical Society. Denver, CO.
  50. Wiener, S., Mathioudakis, A., P. Smith, M. Molina, Zhao, Xinyu, and E. Lambert (May 2017). Computerized simulation of fluid dynamic within the renal collecting system and their association with nephrolithiasis. In: National Meeting of the American Urologic Association. Boston, MA.
  51. Wu, B. and Zhao, Xinyu (Apr. 2017). Radiation characteristics of fire-inspired heterogeneous mixtures: a Monte Carlo ray tracing study. In: 10th U. S. National Combustion Meeting. College Park, MD.
  52. Wu, B., Zhao, Xinyu, B. R. Choudhury, and B. Cetegen (Apr. 2017). Large eddy simulations of a bluff-body stabilized flame. In: 16th SIAM International Conference on Numerical Combustion. Orlando, FL.
  53. Zhao, Xinyu, Zhang, P., T. Wabel, A. Steinberg, H. Wang, and E. Hawkes (Nov. 2017). Assessment of PLIF-Based heat release rate markers using DNS of highly turbulent premixed flames. In: Bulletin of the American Physical Society. Denver, CO.
  54. Mathioudakis, A. and Zhao, Xinyu (2016). A priori evaluation of the generalized Langevin models under the influence of flames. In: Eastern States Section of the Combustion Institute Spring Technical Meeting. Princeton, NJ.
  55. Roy, S., Wu, B., M. Modest, and Zhao, Xinyu (Nov. 2016). Monte Carlo modeling of radiative transfer in a pulverized coal jet flame. In: Bulletin of the American Physical Society. Portland, OR.
  56. Wang, Q., Zhao, Xinyu, L. Esclapez, P. Govindaraju, and M. Ihme (Nov. 2016). Evaluation of subgrid dispersion models for LES of spray flames. In: Bulletin of the American Physical Society. Portland, OR.
  57. Wu, B., S. Roy, M. F. Modest, and Zhao, Xinyu (2016). Monte Carlo modeling of radiative transfer in a pulverized coal jet flame. In: Proceedings of the 8th International Symposium on Radiative transfer, RAD-16. Cappadocia, Turkey.
  58. Wu, B., S. P. Roy, Zhao, Xinyu, and M. F. Modest (2016). A computational study of radiative heat transfer in pulverized coal jet flame. In: Eastern States Section of the Combustion Institute Spring Technical Meeting. Princeton, NJ.
  59. Wu, B., Zhao, Xinyu, X. Chao, T. Lu, and J. Chen (Nov. 2016). Real fuel effects on flame extinction and reignition. In: Bulletin of the American Physical Society. Portland, OR.
  60. Cai, J., Zhao, Xinyu, M. F. Modest, and D. C. Haworth (2015). Nongray radiation modelings in EulerianLagrangian methods for pulverized coal flames. In: 1st Thermal and Fluids Engineering Summer Conference: Paper No. TFESC-12950. New York, NY.
  61. Zhao, Xinyu, A. Bhagatwala, J. Chen, D. C. Haworth, and S. B. Pope (May 2015). A priori DNS study of the shadow position mixing model. In: 9th U. S. National Combustion Meeting. Cincinnati, OH.
  62. Zhao, Xinyu and A. Mathioudakis (Nov. 2015). DNS evaluation of Reynolds stress models and generalized Langevin models using velocity-acceleration correlation. In: Bulletin of the American Physical Society. Boston, MA.
  63. Zhao, Xinyu, A. Bhagatwala, J. Chen, D. Haworth, and S. B. Pope (Nov. 2014). A priori DNS evaluation of the shadow-position mixing model in turbulent reactive flows. In: Bulletin of the American Physical Society. San Francisco, CA.
  64. Zhao, Xinyu, A. Bhagatwala, A. M. Steinberg, and J. H. Chen (2014). Principal strain-rate transport in turbulent non-premixed DME flames: a comparative study using DNS and tomographic particle image velocimetry. In: 12th Turbulent Nonpremixed Flame Workshop. poster presentation. Pleasanton, CA.
  65. Zhao, Xinyu and D. Haworth (Apr. 2013). Transported PDF modeling of a pulverized coal jet flame. In: 14th SIAM International Conference on Numerical Combustion. San Antonio, TX.
  66. Zhao, Xinyu and D. C. Haworth (Nov. 2013a). Transported PDF modeling for pulverized coal combustion. In: Bulletin of the American Physical Society. Pittsburgh, PA.
  67. Zhao, Xinyu and D. C. Haworth (May 2013b). Transported PDF modeling of a pulverized coal jet flame. In: 8th National Combustion Meeting. Park City, UT.
  68. Woodside, C. R., Richards, G., Huckaby, E. D., Marzouk, O. A., Haworth, D. C., Celik, I. B., Ochs, T.,Oryshchyn, D., Strakey, P. A., Casleton, K. H., Pepper, J., Escobar-Vargas, J., Zhao, Xinyu (2012). Direct power extraction with oxy-combustion: an overview of magnetohydrodynamic research activities at the NETL-Regional University Alliance (RUA) Authors. In: 29th Annual International Pittsburgh Coal Conference. Pittsburgh, PA.
  69. Zhao, Xinyu, D. Haworth, and A. Gupta (Mar. 2011). PDF-based modeling of nonpremixed turbulent CO/H2/N2 flames. In: 7th U. S. National Combustion Meeting. poster presentation. Atlanta, GA.
  70. Zhao, Xinyu, D. C. Haworth, and E. D. Huckaby (2011). Transported PDF modeling of nonpremixed turbulent syngas flames and 0.8 MW oxy-natural gas furnace. In: Eastern States Section of the Combustion Institute Fall Technical Meeting. Storrs, CT.