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CFD-based design of 3D pyrolysis reactors: RANS vs. LES

David Van Cauwenberge (UGent) , Carl Schietekat (UGent) , Jens Floré, Kevin Van Geem (UGent) and Guy Marin (UGent)
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Keywords
LARGE-EDDY SIMULATIONS, DIRECT NUMERICAL-SIMULATION, TURBULENT PIPE-FLOW, SUBGRID-SCALE-MODEL, STEAM CRACKING, HEAT-TRANSFER, COKE FORMATION, PRESSURE-DROP, TEMPERATURE, HYDROCARBONS, Reactor design, CFD, Large eddy simulation, Heat transfer, Pipe flow, Steam cracking

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Citation

Please use this url to cite or link to this publication:

MLA
Van Cauwenberge, David et al. “CFD-based Design of 3D Pyrolysis Reactors: RANS Vs. LES.” CHEMICAL ENGINEERING JOURNAL 282 (2015): 66–76. Print.
APA
Van Cauwenberge, D., Schietekat, C., Floré, J., Van Geem, K., & Marin, G. (2015). CFD-based design of 3D pyrolysis reactors: RANS vs. LES. CHEMICAL ENGINEERING JOURNAL, 282, 66–76.
Chicago author-date
Van Cauwenberge, David, Carl Schietekat, Jens Floré, Kevin Van Geem, and Guy Marin. 2015. “CFD-based Design of 3D Pyrolysis Reactors: RANS Vs. LES.” Chemical Engineering Journal 282: 66–76.
Chicago author-date (all authors)
Van Cauwenberge, David, Carl Schietekat, Jens Floré, Kevin Van Geem, and Guy Marin. 2015. “CFD-based Design of 3D Pyrolysis Reactors: RANS Vs. LES.” Chemical Engineering Journal 282: 66–76.
Vancouver
1.
Van Cauwenberge D, Schietekat C, Floré J, Van Geem K, Marin G. CFD-based design of 3D pyrolysis reactors: RANS vs. LES. CHEMICAL ENGINEERING JOURNAL. 2015;282:66–76.
IEEE
[1]
D. Van Cauwenberge, C. Schietekat, J. Floré, K. Van Geem, and G. Marin, “CFD-based design of 3D pyrolysis reactors: RANS vs. LES,” CHEMICAL ENGINEERING JOURNAL, vol. 282, pp. 66–76, 2015.
@article{7016828,
  author       = {Van Cauwenberge, David and Schietekat, Carl and Floré, Jens and Van Geem, Kevin and Marin, Guy},
  issn         = {1385-8947},
  journal      = {CHEMICAL ENGINEERING JOURNAL},
  keywords     = {LARGE-EDDY SIMULATIONS,DIRECT NUMERICAL-SIMULATION,TURBULENT PIPE-FLOW,SUBGRID-SCALE-MODEL,STEAM CRACKING,HEAT-TRANSFER,COKE FORMATION,PRESSURE-DROP,TEMPERATURE,HYDROCARBONS,Reactor design,CFD,Large eddy simulation,Heat transfer,Pipe flow,Steam cracking},
  language     = {eng},
  pages        = {66--76},
  title        = {CFD-based design of 3D pyrolysis reactors: RANS vs. LES},
  url          = {http://dx.doi.org/10.1016/j.cej.2015.03.020},
  volume       = {282},
  year         = {2015},
}

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