Мақаланы E-mail арқылы жіберу A Numerical Algorithm for Studying Subsonic Chemically Reacting Flow in the Presence of Laser Radiation
- Авторлар: Peskova E.E.1, Yazovtseva O.S.1, Mustaykin M.S.1
-
Мекемелер:
- National Research Mordovia State University
- Шығарылым: Том 27, № 2 (2025)
- Беттер: 243-254
- Бөлім: Mathematical modeling and computer science
- ##submission.dateSubmitted##: 10.10.2025
- ##submission.dateAccepted##: 10.10.2025
- ##submission.datePublished##: 28.03.2025
- URL: https://journals.rcsi.science/2079-6900/article/view/324417
- ID: 324417
Дәйексөз келтіру
Толық мәтін
Аннотация
The article presents a numerical algorithm for studying subsonic viscous chemically active flows in the presence of laser radiation. The process model is described in the Navier – Stokes approximation adjusted for the subsonic flow regime, with addition of source terms corresponding to chemical transformations. An additional ordinary differential equation describing the propagation of laser radiation along the length of the region under study is introduced as well. The computational algorithm is based on splitting by physical processes. This makes it possible to calculate separately changes in concentrations during chemical transformations, convective fluxes, dissipative terms, dynamic pressure deviation and propagation of laser radiation. To account for the dissipative terms (diffusion, viscosity, and thermal conductivity), the local iteration method based on Chebyshev polynomials’ ordering. Due to the possible use of a larger total calculation time step, the software implementation of the constructed algorithm reveals shorter calculation times using the local iteration method for calculating dissipative terms in comparison with the algorithm calculating them based on a scheme with central differences.
The algorithm was verified using the example of methane conversion by comparing it with the calculation of the stoichiometric balance of the brutto-reaction, as well as by studying the convergence of the solution on a sequence of thickening grids. Based on the developed algorithm, a numerical study of non-oxidative conversion of methane under the influence of laser radiation in a circular tube was carried out, and graphs of the distribution of the main characteristics of the mixture were obtained.
Авторлар туралы
Elizaveta Peskova
National Research Mordovia State University
Email: e.e.peskova@math.mrsu.ru
ORCID iD: 0000-0003-2618-1674
Ph.D. (Phys. and Math.), Associate professor, Senior Researcher, Department of Applied Mathematics
Ресей, 68/1 Bolshevistskaya St., Saransk 430005, RussiaOlga Yazovtseva
National Research Mordovia State University
Email: yaos@math.mrsu.ru
ORCID iD: 0000-0001-8075-4491
Ph.D. (Phys. and Math.), Senior Researcher, Department of Applied Mathematics
Ресей, 68/1 Bolshevistskaya St., Saransk 430005, RussiaMaxim Mustaykin
National Research Mordovia State University
Хат алмасуға жауапты Автор.
Email: maksimmustajkin@mail.ru
ORCID iD: 0009-0000-8690-0787
Ресей, 68/1 Bolshevistskaya str., Saransk, 430005, Russia
Әдебиет тізімі
- E. A. Lashina, E. E. Peskova, V. N. Snytnikov, "Mathematical Modeling of the Dynamics of Thermal Conversion of Methane-Ethane Mixtures in a Wide Temperature Range", Chemistry for Sustainable Development, 31:3 (2023), 278–286. doi: 10.15372/KhUR2023467
- V. I. Bezyaev, N. K. Sadekov, "On Hemodynamics Problems on Graphs", Journal of Mathematical Sciences, 239:6 (2019), 725–738. doi: 10.1007/S10958-019-04322-W
- A. I. Sukhinov, A. E. Chistyakov, Yu. V. Belova, I. Yu. Kuznetsova, "Analytical and numerical study of the problem of plankton population dyncrossrefamics in the presence of microplastics", Matematicheskoe modelirovanie, 36:3 (2024), 95–114 (In Russ.). doi: 10.20948/mm-2024-03-07
- A. Majda, J. Sethian, "The derivation and numerical solution of the equations for zero Mach number combustion", Combustion Science and Technology, 42 (1986), 185–205. doi: 10.1080/00102208508960376
- R. G. Rehm, H. R. Baum, "The equation of motion for thermally driven, buoyant flows", Journal of Research of the National Bureau of Standards, 83:3 (1978), 297–308. doi: 10.6028/jres.083.019
- E. E. Peskova, V. N. Snytnikov, R. V. Zhalnin, "The computational algorithm for studying internal laminar flows of a multicomponent gas with different-scale chemical processes", Computer research and modeling, 15:5 (2023), 1169–1187. doi: 10.1080/00102208508960376
- M. S. Day, J. B. Bell, "Numerical simulation of laminar reacting flows with complex chemistry", Combustion Theory and Modelling, 4:4 (2000), 535–556. doi: 10.1088/1364-7830/4/4/309
- F. V. Bunkin, N. A. Kirichenko, B. S. Luk'yanchuk, "Thermochemical action of laser radiation", Uspekhi fizicheskih nauk, 138:1 (1982), 45–94 (In Russ.). doi: 10.3367/UFNr.0138.198209b.0045
- R. T. Hall, G. C. Pimentel, "Isomerization of Nitrous Acid: An Infrared Photochemical Reaction", The Journal of Chemical Physics, 38:8 (1963), 1889–1897. doi: 10.1063/1.1733892
- N. G. Basov, E. P. Markin, A. N. Oraevsky, A. V. Pankratov, "Photochemical action of infrared radiation", Doklady Akademii Nauk SSSR, 198:5 (1971), 1043–1045 (In Russ.).
- A. P. Torbin, P. A. Mikheyev, V. N. Azyazov, "Heterogeneous reactions of iodine atoms in the laser medium O₂ (¹Δ ) - I", Izvestiya Samarskogo Nauchnogo Tsentra, 15:4 (2013), 133–135 (In Russ.).
- Vl. N. Snytnikov, V.N. Snytnikov, N. S. Masyuk, T. V. Markelova, "The Absorption of CO2 Laser Radiation by Ethylene in Mixtures with Methane", Journal of Quantitative Spectroscopy and Radiative Transfer, 253:107119 (2020). DOI: 107119.-10.1016/j.jqsrt.2020.107119
- E. E. Peskova, V. N. Snytnikov, "Numerical Study of Methane Mixtures' Conversion Under the Influence of Laser Radiation", Middle Volga Mathematical Society Journal, 25:3 (2023), 159–173. doi: 10.15507/2079-6900.25.202303.159-173
- G. I. Marchuk, Splitting methods, Nauka, Moscow, 1988, 264 p.
- V. T. Zhukov, O. B. Feodoritova, N. D. Novikova, A. P. Duben, "Explicit-Iterative Scheme for the Time Integration of a System of Navier–Stokes Equations", Mathematical Models and Computer Simulations, 12:6 (2020), 958–968. doi: 10.1134/S2070048220060174
- E. Hairer, G. Wanner, Solving Ordinary Differential Equations II, Springer-Verlag, 1996 doi: 10.1007/978-3-662-09947-6.
Қосымша файлдар
