Ученая степень: кандидат физико-математических наук (2017)

Образование: физический факультет Тюменского государственного университета (2010)
Сфера научных интересов: теплофизика, химическая кинетика, газовые гидраты

Основные публикации:

2024

Madygulov M.Sh., Vlasov V.A. Kinetics of methane hydrate formation from stirred aqueous NaCl solutions // Chemical Engineering Research and Design. 2024. V. 202. P. 267–271.

2023

Madygulov M.Sh., Vlasov V.A. Physical gas absorption into a stirred liquid: a new kinetic model and experimental studies // Heat and Mass Transfer. 2023. V. 59. No. 8. P. 1397–1408.

2021

Vlasov V.A. On a theory of mass transfer during the evaporation of a spherical droplet // International Journal of Heat and Mass Transfer. 2021. V. 178. Article 121597 (4 p.).

Vlasov V.A. Simplified diffusion model of gas hydrate formation from ice // International Journal of Heat and Mass Transfer. 2021. V. 165, Part B. Article 120701 (7 p.).

2020

Vlasov V.A. Diffusion-kinetic model of liquid evaporation from a Stefan tube: a solution to the Stefan diffusion problem // International Journal of Heat and Mass Transfer. 2020. V. 163. Article 120379 (9 p.).

Vlasov V.A. Diffusion model of gas hydrate dissociation into ice and gas that takes into account the ice microstructure // Chemical Engineering Science. 2020. V. 215. Article 115443 (9 p.).

2019

Vlasov V.A. Diffusion-kinetic model of gas hydrate film growth along the gas–water interface // Heat and Mass Transfer. 2019. V. 55. No. 12. P. 3537–3545.

Vlasov V.A. Modeling of evaporation and condensation processes: a chemical kinetics approach// Heat and Mass Transfer. 2019. V. 55. No. 6. P. 1661–1669.

Vlasov V.A. Activated complex theory of nucleation // The European Physical Journal E. 2019. V. 42. No. 3. Article 36 (8 p.).

2015

Madygulov M.Sh., Nesterov A.N., Reshetnikov A.M., Vlasov V.A., Zavodovsky A.G. Study of gas hydrate metastability and its decay for hydrate samples containing unreacted supercooled liquid water below the ice melting point using pulse NMR // Chemical Engineering Science. 2015. V. 137. P. 287–292.