SU2-NEMO: An Open-Source Framework for High-Mach Nonequilibrium Multi-Species Flows. Maier, W., T., Needels, J., T., Garbacz, C., Morgado, F., Alonso, J., J., & Fossati, M. Aerospace 2021, Vol. 8, Page 193, 8(7):193, Multidisciplinary Digital Publishing Institute, 7, 2021.
SU2-NEMO: An Open-Source Framework for High-Mach Nonequilibrium Multi-Species Flows [link]Website  doi  abstract   bibtex   
SU2-NEMO, a recent extension of the open-source SU2 multiphysics suite’s set of physical models and code architecture, is presented with the aim of introducing its enhanced capabilities in addressing high-enthalpy and high-Mach number flows. This paper discusses the thermal nonequilibrium and finite-rate chemistry models adopted, including a link to the Mutation++ physio-chemical library. Further, the paper discusses how the software architecture has been designed to ensure modularity, incorporating the ability to introduce additional models in an efficient manner. A review of the numerical formulation and the discretization schemes utilized for the convective fluxes is also presented. Several test cases in two- and three-dimensions are examined for validation purposes and to illustrate the performance of the solver in addressing complex nonequilibrium flows.
@article{
 title = {SU2-NEMO: An Open-Source Framework for High-Mach Nonequilibrium Multi-Species Flows},
 type = {article},
 year = {2021},
 keywords = {aerothermodynamics,computational fluid dynamics,high,hypersonic flight,nonequilibrium flows,temperature effects},
 pages = {193},
 volume = {8},
 websites = {https://www.mdpi.com/2226-4310/8/7/193/htm,https://www.mdpi.com/2226-4310/8/7/193},
 month = {7},
 publisher = {Multidisciplinary Digital Publishing Institute},
 day = {16},
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 created = {2022-06-07T20:51:57.911Z},
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 abstract = {SU2-NEMO, a recent extension of the open-source SU2 multiphysics suite’s set of physical models and code architecture, is presented with the aim of introducing its enhanced capabilities in addressing high-enthalpy and high-Mach number flows. This paper discusses the thermal nonequilibrium and finite-rate chemistry models adopted, including a link to the Mutation++ physio-chemical library. Further, the paper discusses how the software architecture has been designed to ensure modularity, incorporating the ability to introduce additional models in an efficient manner. A review of the numerical formulation and the discretization schemes utilized for the convective fluxes is also presented. Several test cases in two- and three-dimensions are examined for validation purposes and to illustrate the performance of the solver in addressing complex nonequilibrium flows.},
 bibtype = {article},
 author = {Maier, Walter T. and Needels, Jacob T. and Garbacz, Catarina and Morgado, Fábio and Alonso, Juan J. and Fossati, Marco},
 doi = {10.3390/AEROSPACE8070193},
 journal = {Aerospace 2021, Vol. 8, Page 193},
 number = {7}
}

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