Daniel C. Haworth
Affiliations: | Mechanical and Nuclear Engineering | Pennsylvania State University, State College, PA, United States |
Area:
Energy Systems; Thermal/Fluid SciencesWebsite:
https://www.me.psu.edu/department/directory-detail-g.aspx?q=DCH12Google:
"Daniel Connell Haworth" OR "Daniel C Haworth"Bio:
Parents
Sign in to add mentor| Stephen B. Pope | grad student | 1986 | Cornell (Physics Tree) | |
| (Developments in the Probability Density Function Method for Turbulent Flows) | ||||
Children
Sign in to add trainee| Liangyu Wang | grad student | 2004 | Penn State |
| Kshitij V. Deshmukh | grad student | 2009 | Penn State |
| Ankit Bansal | grad student | 2011 | Penn State |
| Hongfa Huo | grad student | 2011 | Penn State |
| Jaishree Jaishree | grad student | 2011 | Penn State |
| Subhasish Bhattacharjee | grad student | 2012 | Penn State |
| Hedan Zhang | grad student | 2012 | Penn State |
| Vivek R. Raj Mohan | grad student | 2014 | Penn State |
| Somesh P. Roy | grad student | 2014 | Penn State |
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Publications
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| Henrion L, Gross MC, Fernandez SF, et al. (2019) Characterization of radiative heat transfer in a spark-ignition engine through high-speed experiments and simulations Oil & Gas Science and Technology – Revue D’Ifp Energies Nouvelles. 74: 61 |
| Dasgupta A, Gonzalez-Juez E, Haworth DC. (2019) Flame simulations with an open-source code Computer Physics Communications. 237: 219-229 |
| Paul C, Fernandez SF, Haworth DC, et al. (2019) A detailed modeling study of radiative heat transfer in a heavy-duty diesel engine Combustion and Flame. 200: 325-341 |
| Ren T, Modest MF, Haworth DC. (2018) Simulating turbulence–radiation interactions using a presumed probability density function method International Journal of Heat and Mass Transfer. 121: 911-923 |
| Fernandez SF, Paul C, Sircar A, et al. (2018) Soot and spectral radiation modeling for high-pressure turbulent spray flames Combustion and Flame. 190: 402-415 |
| Shekhawat Y, Haworth DC, D'Adamo A, et al. (2017) An Experimental and Simulation Study of Early Flame Development in a Homogeneous-charge Spark-Ignition Engine Oil & Gas Science and Technology-Revue De L Institut Francais Du Petrole. 72: 160164 |
| Roy SP, Haworth DC. (2016) A Systematic Comparison of Detailed Soot Models and Gas-Phase Chemical Mechanisms in Laminar Premixed Flames Combustion Science and Technology. 188: 1021-1053 |
| Imren A, Haworth DC. (2016) On the merits of extrapolation-based stiff ODE solvers for combustion CFD Combustion and Flame. 174: 1-15 |
| Imren A, Haworth DC. (2016) Stiff ODE solvers for detailed chemistry in CFD 2016 Spring Technical Meeting of the Eastern States Section of the Combustion Institute, Essci 2016 |
| Han J, Kalaskar VB, Kang D, et al. (2016) A computational and experimental study of ignition behavior of gasoline surrogate fuels under low-temperature combustion conditions 2016 Spring Technical Meeting of the Eastern States Section of the Combustion Institute, Essci 2016 |