Author
Sergei Sazhin
Other affiliations: Saint Petersburg State University, University of Sheffield, Samara National Research University
Bio: Sergei Sazhin is an academic researcher from University of Brighton. The author has contributed to research in topics: Evaporation & Diesel fuel. The author has an hindex of 44, co-authored 318 publications receiving 6858 citations. Previous affiliations of Sergei Sazhin include Saint Petersburg State University & University of Sheffield.
Topics: Evaporation, Diesel fuel, Whistler, Vortex, Vortex ring
Papers published on a yearly basis
Papers
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TL;DR: In this article, the effect of finite thermal conductivity and recirculation in droplets can be taken into account using the so-called parabolic model, which is a reasonable compromise between accuracy and CPU efficiency.
724 citations
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TL;DR: The most recent developments in the modelling of heating and evaporation of fuel droplets, the results of which were published in 2014-2017, are reviewed, and the most important unsolved problems are identified.
267 citations
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TL;DR: In this paper, a review of chorus emissions observed on ground-based stations and in the Earth's magnetosphere is presented, where different approaches to modelling these emissions are discussed, and it is pointed out that the most likely energy source of the chorus emissions lies in the anisotropic hot electrons in the equatorial magnetosphere.
234 citations
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19 May 2014
TL;DR: In this article, the authors present a model for modeling and modeling of non-evaporating and non-melting droplets, as well as spraying and evaporation of multi-component droplets.
Abstract: 1.-Introduction 2.-Spray Formation and Penetration 3.-Heating of Non-evaporating Droplets 4.-Heating and Evaporation of Mono-component Droplets 5.-Heating and Evaporation of Multi-component Droplets 6.-Kinetic Modelling of Droplet Heating and Evaporation 7.-Heating, Evaporation and Autoignition of Sprays.
215 citations
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TL;DR: In this paper, a simplified model for bi-component droplet heating and evaporation is developed and applied for the analysis of the observed average droplet temperatures in a monodisperse spray.
163 citations
Cited by
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TL;DR: The Thermophysical Properties Research Literature Retrieval Guide as discussed by the authors was published by Y. S. Touloukian, J. K. Gerritsen and N. Y. Moore.
Abstract: Thermophysical Properties Research Literature Retrieval Guide Edited by Y. S. Touloukian, J. K. Gerritsen and N. Y. Moore Second edition, revised and expanded. Book 1: Pp. xxi + 819. Book 2: Pp.621. Book 3: Pp. ix + 1315. (New York: Plenum Press, 1967.) n.p.
1,240 citations
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01 Dec 1988
TL;DR: In this paper, the basic processes in Atomization are discussed, and the drop size distributions of sprays are discussed.Preface 1.General Considerations 2.Basic Processes of Atomization 3.Drop Size Distributions of Sprays 4.Atomizers 5.Flow in Atomizers 6.AtOMizer Performance 7.External Spray Charcteristics 8.Drop Evaporation 9.Drop Sizing Methods Index
Abstract: Preface 1.General Considerations 2.Basic Processes in Atomization 3.Drop Size Distributions of Sprays 4.Atomizers 5.Flow in Atomizers 6.Atomizer Performance 7.External Spray Charcteristics 8.Drop Evaporation 9.Drop Sizing Methods Index
1,214 citations
01 Jan 1992
TL;DR: In this article, cross-correlation methods of interrogation of successive single-exposure frames can be used to measure the separation of pairs of particle images between successive frames, which can be optimized in terms of spatial resolution, detection rate, accuracy and reliability.
Abstract: To improve the performance of particle image velocimetry in measuring instantaneous velocity fields, direct cross-correlation of image fields can be used in place of auto-correlation methods of interrogation of double- or multiple-exposure recordings. With improved speed of photographic recording and increased resolution of video array detectors, cross-correlation methods of interrogation of successive single-exposure frames can be used to measure the separation of pairs of particle images between successive frames. By knowing the extent of image shifting used in a multiple-exposure and by a priori knowledge of the mean flow-field, the cross-correlation of different sized interrogation spots with known separation can be optimized in terms of spatial resolution, detection rate, accuracy and reliability.
1,101 citations