The journal Theoretical Foundations of Chemical Engineering (Teoreticheskie osnovy khimicheskoi tekhnologii) publishes original articles on transport phenomena, chemical hydrodynamics, nonlinear processes in chemistry and chemical engineering, surface phenomena (e.g., the Marangoni effect), self-organization in nonequilibrium systems, synergetics, macrokinetics of chemical reactions, and the theory and methods for calculating chemical reactors. Processes where the separation of mixtures are encountered play the key role in processing industries. Still of current importance are the theory and practice of diffusion processes (distillation, gas absorption, adsorption, drying, liquid extraction, dissolution, and crystallization), among which the maximum attention is drawn to integrated reaction-mass-transfer processes and all types of membrane processes. An important field is the intensification of heat and mass transfer processes under the action of various factors such as electric and magnetic fields, ultrasonic waves, vibrations and pulsations, and increased velocities of interacting phases. The journal publishes articles on large-scale chemical engineering systems (energy-closed, resource-saving, economically optimized, etc.) as well as works devoted to automated system design and flexible automated production systems.Topics covered:transport phenomena, chemical hydrodynamics, nonlinear processes in chemistry and chemical engineeringsurface phenomenaself-organization in nonequilibrium systemsmacrokinetics of chemical reactionstheory and methods for the calculating chemical reactionsseparation of mixturesdiffusion processes (distillation, gas absorption, adsorption, drying, liquid extraction, dissolution, crystallization, etc.)integrated reaction - mass-transfer processesmembrane processesintensification of heat and mass transferenergy-closed, resource-saving, economically optimized chemical engineering systemsautomated system design

Журнал включен в списки БД МБД, Springer, WoS, Scopus, CA(core)

Percentile	Scopus ASJC Code	Scopus Sub-Subject Area	Quartile
33	1500	Химическая технология (все науки)	3
32	1600	Химия (все науки)	3

CiteScore	Source ID
1,1	https://scopus.com/sourceid/14357

Web Site	Articles in 2018	Articles in 2019	Articles in 2020
Link	135	133	92

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