Publications
Scientific publications in journals included in the VAK list and/or included in citation indexes SCOPUS, Web of Science.
Publications in Journals (SCOPUS, Web of Science)
Evaluation of numerical diffusion of finite volume method in surface wave modeling
@article{tyatyushkina2019diffusion,
author = {Тятюшкина, Е.С. and Козелков, А.С. and Куркин, А.А. and Курулин, В.В. and Ефремов, В.Р. and Уткин, Д.А.},
title = {Оценка численной диффузии метода конечных объемов при моделировании поверхностных волн},
journal = {Вычислительные технологии},
volume = {24},
number = {1},
pages = {106--119},
year = {2019},
language = {russian},
doi = {10.25743/ICT.2019.24.1.008},
url = {https://elibrary.ru/item.asp?id=37092578},
note = {English title: Evaluation of numerical diffusion of finite volume method in surface wave modeling}
}@article{tyatyushkina2019diffusion,
author = {Тятюшкина, Е.С. and Козелков, А.С. and Куркин, А.А. and Курулин, В.В. and Ефремов, В.Р. and Уткин, Д.А.},
title = {Оценка численной диффузии метода конечных объемов при моделировании поверхностных волн},
titleaddon = {Evaluation of numerical diffusion of finite volume method in surface wave modeling},
journaltitle = {Вычислительные технологии},
volume = {24},
number = {1},
pages = {106--119},
date = {2019},
langid = {russian},
doi = {10.25743/ICT.2019.24.1.008},
url = {https://elibrary.ru/item.asp?id=37092578}
}The Use of Wall Functions for Simulating the Turbulent Thermal Boundary Layer
@article{efremov2019wall,
author = {Efremov, V.R. and Kurulin, V.V. and Kozelkov, A.S. and Kurkin, A.A. and Utkin, D.A.},
title = {The Use of Wall Functions for Simulating the Turbulent Thermal Boundary Layer},
journal = {Computational Mathematics and Mathematical Physics},
volume = {59},
number = {6},
pages = {1006--1014},
year = {2019},
doi = {10.1134/S0965542519060058},
url = {https://link.springer.com/article/10.1134/S0965542519060058},
note = {English translation of efremov2019wall\_ru}
}@article{efremov2019wall,
author = {Efremov, V.R. and Kurulin, V.V. and Kozelkov, A.S. and Kurkin, A.A. and Utkin, D.A.},
title = {The Use of Wall Functions for Simulating the Turbulent Thermal Boundary Layer},
journaltitle = {Computational Mathematics and Mathematical Physics},
volume = {59},
number = {6},
pages = {1006--1014},
date = {2019},
doi = {10.1134/S0965542519060058},
url = {https://link.springer.com/article/10.1134/S0965542519060058},
related = {efremov2019wall_ru},
relatedtype = {translationof}
}Simulation of Body Motion in Viscous Incompressible Fluid
@article{kozelkov2019body,
author = {Kozelkov, A.S. and Efremov, V.R. and Kurkin, A.A. and Tarasova, N.V. and Utkin, D.A. and Tyatyushkina, E.S.},
title = {Simulation of Body Motion in Viscous Incompressible Fluid},
journal = {Numerical Analysis and Applications},
volume = {12},
number = {3},
pages = {219--233},
year = {2019},
doi = {10.1134/S1995423919030029},
url = {https://link.springer.com/article/10.1134/S1995423919030029},
note = {English translation of kozelkov2019body\_ru}
}@article{kozelkov2019body,
author = {Kozelkov, A.S. and Efremov, V.R. and Kurkin, A.A. and Tarasova, N.V. and Utkin, D.A. and Tyatyushkina, E.S.},
title = {Simulation of Body Motion in Viscous Incompressible Fluid},
journaltitle = {Numerical Analysis and Applications},
volume = {12},
number = {3},
pages = {219--233},
date = {2019},
doi = {10.1134/S1995423919030029},
url = {https://link.springer.com/article/10.1134/S1995423919030029},
related = {kozelkov2019body_ru},
relatedtype = {translationof}
}Technology of 3D Simulation of High-Speed Damping Processes in the Hydraulic Brake Device
@incollection{efremov2018hydraulic,
author = {Efremov, V.R. and Kozelkov, A.S. and Dmitriev, S.M. and Kurkin, A.A. and Kurulin, V.V. and Utkin, D.A.},
title = {Technology of {3D} Simulation of High-Speed Damping Processes in the Hydraulic Brake Device},
booktitle = {Computational Models in Engineering},
editor = {Volkov, Konstantin},
publisher = {IntechOpen},
year = {2018},
month = {December},
doi = {10.5772/intechopen.83358},
url = {https://www.intechopen.com/chapters/65053}
}@incollection{efremov2018hydraulic,
author = {Efremov, V.R. and Kozelkov, A.S. and Dmitriev, S.M. and Kurkin, A.A. and Kurulin, V.V. and Utkin, D.A.},
title = {Technology of {3D} Simulation of High-Speed Damping Processes in the Hydraulic Brake Device},
booktitle = {Computational Models in Engineering},
editor = {Volkov, Konstantin},
publisher = {IntechOpen},
date = {2018-12},
doi = {10.5772/intechopen.83358},
url = {https://www.intechopen.com/chapters/65053}
}An implicit algorithm of solving Navier–Stokes equations to simulate flows in anisotropic porous media
@article{kozelkov2018implicit,
author = {Kozelkov, A.S. and Lashkin, S.V. and Tsibereva, Yu.A. and Tarasova, N.V. and Efremov, V.R. and Volkov, K.N.},
title = {An implicit algorithm of solving {Navier--Stokes} equations to simulate flows in anisotropic porous media},
journal = {Computers \& Fluids},
volume = {160},
pages = {164--174},
year = {2018},
doi = {10.1016/j.compfluid.2017.10.029},
url = {https://www.sciencedirect.com/science/article/abs/pii/S0045793017303948}
}@article{kozelkov2018implicit,
author = {Kozelkov, A.S. and Lashkin, S.V. and Tsibereva, Yu.A. and Tarasova, N.V. and Efremov, V.R. and Volkov, K.N.},
title = {An implicit algorithm of solving {Navier--Stokes} equations to simulate flows in anisotropic porous media},
journaltitle = {Computers \& Fluids},
volume = {160},
pages = {164--174},
date = {2018},
doi = {10.1016/j.compfluid.2017.10.029},
url = {https://www.sciencedirect.com/science/article/abs/pii/S0045793017303948}
}Simulation of Turbulent Convection at High Rayleigh Numbers
@article{dmitriev2018convection,
author = {Dmitriev, S.M. and Kozelkov, A.S. and Kurkin, A.A. and Legchanov, M.A. and Tarasova, N.V. and Kurulin, V.V. and Efremov, V.R. and Shamin, R.V.},
title = {Simulation of Turbulent Convection at High {Rayleigh} Numbers},
journal = {Modelling and Simulation in Engineering},
volume = {2018},
pages = {5781602},
year = {2018},
doi = {10.1155/2018/5781602},
url = {https://elibrary.ru/item.asp?id=35487878}
}@article{dmitriev2018convection,
author = {Dmitriev, S.M. and Kozelkov, A.S. and Kurkin, A.A. and Legchanov, M.A. and Tarasova, N.V. and Kurulin, V.V. and Efremov, V.R. and Shamin, R.V.},
title = {Simulation of Turbulent Convection at High {Rayleigh} Numbers},
journaltitle = {Modelling and Simulation in Engineering},
volume = {2018},
pages = {5781602},
date = {2018},
doi = {10.1155/2018/5781602},
url = {https://elibrary.ru/item.asp?id=35487878}
}Study of specific features of free rise of solid spheres in a viscous fluid at moderate Reynolds numbers
@article{kozelkov2018spheres,
author = {Kozelkov, A.S. and Tarasova, N.V. and Kurkin, A.A. and Dmitriev, S.M. and Pelinovsky, E.N. and Efremov, V.R. and Strelets, D.Yu.},
title = {Study of specific features of free rise of solid spheres in a viscous fluid at moderate {Reynolds} numbers},
journal = {European Journal of Mechanics - B/Fluids},
volume = {72},
pages = {616--623},
year = {2018},
doi = {10.1016/j.euromechflu.2018.08.007},
url = {https://elibrary.ru/item.asp?id=35771352}
}@article{kozelkov2018spheres,
author = {Kozelkov, A.S. and Tarasova, N.V. and Kurkin, A.A. and Dmitriev, S.M. and Pelinovsky, E.N. and Efremov, V.R. and Strelets, D.Yu.},
title = {Study of specific features of free rise of solid spheres in a viscous fluid at moderate {Reynolds} numbers},
journaltitle = {European Journal of Mechanics - B/Fluids},
volume = {72},
pages = {616--623},
date = {2018},
doi = {10.1016/j.euromechflu.2018.08.007},
url = {https://elibrary.ru/item.asp?id=35771352}
}Study of air bubble rising and solid spheres
@article{kozelkov2018bubbles,
author = {Козелков, А.С. and Ефремов, В.Р. and Дмитриев, С.М. and Куркин, А.А. and Пелиновский, Е.Н. and Тарасова, Н.В. and Стрелец, Д.Ю.},
title = {Исследование особенностей всплытия пузырьков воздуха и твердых сфер},
journal = {Фундаментальная и прикладная гидрофизика},
volume = {11},
number = {4},
pages = {73--85},
year = {2018},
language = {russian},
doi = {10.7868/S2073667318040093},
url = {https://elibrary.ru/item.asp?id=36516533},
note = {English title: Study of air bubble rising and solid spheres}
}@article{kozelkov2018bubbles,
author = {Козелков, А.С. and Ефремов, В.Р. and Дмитриев, С.М. and Куркин, А.А. and Пелиновский, Е.Н. and Тарасова, Н.В. and Стрелец, Д.Ю.},
title = {Исследование особенностей всплытия пузырьков воздуха и твердых сфер},
titleaddon = {Study of air bubble rising and solid spheres},
journaltitle = {Фундаментальная и прикладная гидрофизика},
volume = {11},
number = {4},
pages = {73--85},
date = {2018},
langid = {russian},
doi = {10.7868/S2073667318040093},
url = {https://elibrary.ru/item.asp?id=36516533}
}Method for taking into account gravity in free-surface flow simulation
@article{efremov2017gravity,
author = {Efremov, V.R. and Kozelkov, A.S. and Kornev, A.V. and Kurkin, A.A. and Kurulin, V.V. and Strelets, D.Yu. and Tarasova, N.V.},
title = {Method for taking into account gravity in free-surface flow simulation},
journal = {Computational Mathematics and Mathematical Physics},
volume = {57},
number = {10},
pages = {1720--1733},
year = {2017},
doi = {10.1134/S0965542517100086},
url = {https://link.springer.com/article/10.1134/S0965542517100086},
note = {English translation of efremov2017gravity\_ru}
}@article{efremov2017gravity,
author = {Efremov, V.R. and Kozelkov, A.S. and Kornev, A.V. and Kurkin, A.A. and Kurulin, V.V. and Strelets, D.Yu. and Tarasova, N.V.},
title = {Method for taking into account gravity in free-surface flow simulation},
journaltitle = {Computational Mathematics and Mathematical Physics},
volume = {57},
number = {10},
pages = {1720--1733},
date = {2017},
doi = {10.1134/S0965542517100086},
url = {https://link.springer.com/article/10.1134/S0965542517100086},
related = {efremov2017gravity_ru},
relatedtype = {translationof}
}Study of properties of volume fraction transport discretization schemes in VOF method
@article{kozelkov2017vof,
author = {Козелков, А.С. and Стрелец, Д.Ю. and Ефремов, В.Р. and Нечепуренко, Ю.Г. and Курулин, В.В. and Тятюшкина, Е.С. and Корнев, А.В.},
title = {Исследование свойств схем дискретизации уравнения переноса объемной доли при расчете многофазных течений методом {VOF}},
journal = {Труды Московского физико-технического института},
volume = {9},
number = {4(36)},
pages = {71--89},
year = {2017},
language = {russian},
url = {https://cyberleninka.ru/article/n/issledovanie-svoystv-shem-diskretizatsii-uravneniya-perenosa-obemnoy-doli-pri-raschete-mnogofaznyhtecheniy-metodom-vof},
note = {English title: Study of properties of volume fraction transport discretization schemes in {VOF} method}
}@article{kozelkov2017vof,
author = {Козелков, А.С. and Стрелец, Д.Ю. and Ефремов, В.Р. and Нечепуренко, Ю.Г. and Курулин, В.В. and Тятюшкина, Е.С. and Корнев, А.В.},
title = {Исследование свойств схем дискретизации уравнения переноса объемной доли при расчете многофазных течений методом {VOF}},
titleaddon = {Study of properties of volume fraction transport discretization schemes in {VOF} method},
journaltitle = {Труды Московского физико-технического института},
volume = {9},
number = {4(36)},
pages = {71--89},
date = {2017},
langid = {russian},
url = {https://cyberleninka.ru/article/n/issledovanie-svoystv-shem-diskretizatsii-uravneniya-perenosa-obemnoy-doli-pri-raschete-mnogofaznyhtecheniy-metodom-vof}
}Three-dimensional numerical simulation of tsunami waves based on the Navier-Stokes equations
@article{kozelkov2017tsunami,
author = {Kozelkov, A.S. and Tarasova, N.V. and Kurkin, A.A. and Pelinovsky, E.N. and Efremov, V.R. and Strelets, D.Yu.},
title = {Three-dimensional numerical simulation of tsunami waves based on the {Navier-Stokes} equations},
journal = {Science of Tsunami Hazards},
volume = {36},
number = {4},
pages = {183--196},
year = {2017},
url = {https://www.researchgate.net/publication/322151369}
}@article{kozelkov2017tsunami,
author = {Kozelkov, A.S. and Tarasova, N.V. and Kurkin, A.A. and Pelinovsky, E.N. and Efremov, V.R. and Strelets, D.Yu.},
title = {Three-dimensional numerical simulation of tsunami waves based on the {Navier-Stokes} equations},
journaltitle = {Science of Tsunami Hazards},
volume = {36},
number = {4},
pages = {183--196},
date = {2017},
url = {https://www.researchgate.net/publication/322151369}
}Publications in Conference Proceedings
Accounting for medium compressibility in free surface problems
@inproceedings{kozelkov2017compressibility,
author = {Козелков, А.С. and Курулин, В.В. and Уткин, Д.А. and Ефремов, В.Р.},
title = {Учет сжимаемости среды в задачах со свободной поверхностью},
booktitle = {Цифровые средства производства инженерного анализа. Сборник материалов Первой всероссийской конференции с международным участием},
address = {Тула},
pages = {138--151},
year = {2017},
language = {russian},
url = {https://elibrary.ru/item.asp?id=32773424},
note = {English title: Accounting for medium compressibility in free surface problems}
}@inproceedings{kozelkov2017compressibility,
author = {Козелков, А.С. and Курулин, В.В. and Уткин, Д.А. and Ефремов, В.Р.},
title = {Учет сжимаемости среды в задачах со свободной поверхностью},
titleaddon = {Accounting for medium compressibility in free surface problems},
booktitle = {Цифровые средства производства инженерного анализа. Сборник материалов Первой всероссийской конференции с международным участием},
location = {Тула},
pages = {138--151},
date = {2017},
langid = {russian},
url = {https://elibrary.ru/item.asp?id=32773424}
}Early Publications (USSR)
Water-air cooling of continuously cast slabs at Novolipetsk Metallurgical Plant
@incollection{efremov1989nlmk,
author = {Ефремов, В.Р. and Айзин, Ю.М. and Ермаков, О.Н. and Смоляков, А.С. and Целиков, А.А.},
title = {Водовоздушное охлаждение непрерывнолитых слябов {Новолипецкого} металлургического комбината},
booktitle = {Совершенствование металлургических машин. Сборник научных трудов},
publisher = {Всесоюзный ордена Ленина научно-исследовательский и проектно-конструкторский институт металлургического машиностроения имени А.И. Целикова (ВНИИМЕТМАШ)},
address = {Москва},
year = {1989},
language = {russian},
note = {English title: Water-air cooling of continuously cast slabs at {Novolipetsk} Metallurgical Plant}
}@incollection{efremov1989nlmk,
author = {Ефремов, В.Р. and Айзин, Ю.М. and Ермаков, О.Н. and Смоляков, А.С. and Целиков, А.А.},
title = {Водовоздушное охлаждение непрерывнолитых слябов {Новолипецкого} металлургического комбината},
titleaddon = {Water-air cooling of continuously cast slabs at {Novolipetsk} Metallurgical Plant},
booktitle = {Совершенствование металлургических машин. Сборник научных трудов},
publisher = {Всесоюзный ордена Ленина научно-исследовательский и проектно-конструкторский институт металлургического машиностроения имени А.И. Целикова (ВНИИМЕТМАШ)},
location = {Москва},
date = {1989},
langid = {russian}
}Development and implementation of water-air cooling system for slab continuous casting machines
@inproceedings{efremov1988watercooling,
author = {Ефремов, В.Р. and Айзин, Ю.М. and Рябов, В.В.},
title = {Разработка и внедрение системы водовоздушного охлаждения на слябовых {МНЛЗ}},
booktitle = {Тезисы докладов XIII областной научно-технической конференции молодых специалистов «Проблемы качества и совершенствования оборудования тяжелого, энергетического, транспортного и химического машиностроения»},
organization = {Свердловский ОБКОМ ВЛКСМ, Свердловский областной совет НТО, ПО «УРАЛМАШ», Свердловский дом техники НТО},
address = {Свердловск},
year = {1988},
month = {April},
language = {russian},
note = {English title: Development and implementation of water-air cooling system for slab continuous casting machines}
}@inproceedings{efremov1988watercooling,
author = {Ефремов, В.Р. and Айзин, Ю.М. and Рябов, В.В.},
title = {Разработка и внедрение системы водовоздушного охлаждения на слябовых {МНЛЗ}},
titleaddon = {Development and implementation of water-air cooling system for slab continuous casting machines},
booktitle = {Тезисы докладов XIII областной научно-технической конференции молодых специалистов «Проблемы качества и совершенствования оборудования тяжелого, энергетического, транспортного и химического машиностроения»},
organization = {Свердловский ОБКОМ ВЛКСМ, Свердловский областной совет НТО, ПО «УРАЛМАШ», Свердловский дом техники НТО},
location = {Свердловск},
date = {1988-04},
langid = {russian}
}Patents and Registration Certificates
Module for calculating characteristics of concentric hydraulic brake devices
@misc{efremov2019software,
author = {Ефремов, В.Р. and Нечепуренко, Ю.Г. and Козелков, А.С. and Ялозо, А.В. and Курулин, В.В. and Матерова, И.Л. and others},
title = {Модуль для расчета характеристик концентричных гидротормозных устройств},
howpublished = {Свидетельство о государственной регистрации программ для ЭВМ № 2019612473},
year = {2019},
language = {russian},
url = {https://elibrary.ru/item.asp?id=39311016},
note = {Software registration certificate. English title: Module for calculating characteristics of concentric hydraulic brake devices}
}@software{efremov2019software,
author = {Ефремов, В.Р. and Нечепуренко, Ю.Г. and Козелков, А.С. and Ялозо, А.В. and Курулин, В.В. and Матерова, И.Л. and others},
title = {Модуль для расчета характеристик концентричных гидротормозных устройств},
titleaddon = {Module for calculating characteristics of concentric hydraulic brake devices},
type = {Software registration certificate},
number = {2019612473},
date = {2019},
langid = {russian},
url = {https://elibrary.ru/item.asp?id=39311016}
}Method of continuous metal casting
@misc{patent1718442,
author = {Ефремов, В.Р. and others},
title = {Способ непрерывной разливки металла},
howpublished = {Patent RU 1718442},
year = {1990},
language = {russian},
url = {https://searchplatform.rospatent.gov.ru/doc/RU1718442C_20000410},
note = {English title: Method of continuous metal casting}
}@patent{patent1718442,
author = {Ефремов, В.Р. and others},
title = {Способ непрерывной разливки металла},
titleaddon = {Method of continuous metal casting},
type = {patent},
number = {RU 1718442},
date = {1990},
langid = {russian},
url = {https://searchplatform.rospatent.gov.ru/doc/RU1718442C_20000410}
}Device for secondary cooling of continuously cast billets
@misc{patent1694333,
author = {Ефремов, В.Р. and others},
title = {Устройство для вторичного охлаждения непрерывнолитых заготовок},
howpublished = {Patent SU 1694333 A1},
language = {russian},
url = {https://patenton.ru/patent/SU1694333A1},
note = {English title: Device for secondary cooling of continuously cast billets}
}@patent{patent1694333,
author = {Ефремов, В.Р. and others},
title = {Устройство для вторичного охлаждения непрерывнолитых заготовок},
titleaddon = {Device for secondary cooling of continuously cast billets},
type = {patent},
number = {SU 1694333 A1},
langid = {russian},
url = {https://patenton.ru/patent/SU1694333A1}
}Nozzle for secondary cooling of continuously cast billet
@misc{patent1694331,
author = {Ефремов, В.Р. and others},
title = {Форсунка для вторичного охлаждения непрерывнолитой заготовки},
howpublished = {Patent RU 1694331},
language = {russian},
url = {https://patents.su/3-1694331-forsunka-dlya-vtorichnogo-okhlazhdeniya-nepreryvnolitojj-zagotovki.html},
note = {English title: Nozzle for secondary cooling of continuously cast billet}
}@patent{patent1694331,
author = {Ефремов, В.Р. and others},
title = {Форсунка для вторичного охлаждения непрерывнолитой заготовки},
titleaddon = {Nozzle for secondary cooling of continuously cast billet},
type = {patent},
number = {RU 1694331},
langid = {russian},
url = {https://patents.su/3-1694331-forsunka-dlya-vtorichnogo-okhlazhdeniya-nepreryvnolitojj-zagotovki.html}
}Nozzle for secondary cooling of continuously cast ingot
@misc{patent1669632,
author = {Ефремов, В.Р. and others},
title = {Форсунка для вторичного охлаждения непрерывнолитого слитка},
howpublished = {Patent SU 1669632 A1},
language = {russian},
url = {https://patenton.ru/patent/SU1669632A1},
note = {English title: Nozzle for secondary cooling of continuously cast ingot}
}@patent{patent1669632,
author = {Ефремов, В.Р. and others},
title = {Форсунка для вторичного охлаждения непрерывнолитого слитка},
titleaddon = {Nozzle for secondary cooling of continuously cast ingot},
type = {patent},
number = {SU 1669632 A1},
langid = {russian},
url = {https://patenton.ru/patent/SU1669632A1}
}