Author
Edward L. Dreizin
Other affiliations: Tomsk State University, Titan Corporation, Odessa University ...read more
Bio: Edward L. Dreizin is an academic researcher from New Jersey Institute of Technology. The author has contributed to research in topics: Combustion & Particle. The author has an hindex of 49, co-authored 292 publications receiving 8710 citations. Previous affiliations of Edward L. Dreizin include Tomsk State University & Titan Corporation.
Topics: Combustion, Particle, Ignition system, Reactive material, Particle size
Papers published on a yearly basis
Papers
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TL;DR: A review of metal-based reactive nanomaterials can be found in this paper, where some potential directions for the future research are discussed and some potential application areas are explored.
739 citations
TL;DR: In this paper, the authors used X-ray diffraction to study the oxidation of aluminum powders at elevated temperatures and found that the oxide layer thickness exceeds the critical thickness of amorphous alumina of about 4 nm, when the oxide transforms into γ-Al2O3.
455 citations
TL;DR: In this article, the mechanism of aluminium oxidation is quantified and a simplified ignition model is developed, which describes ignition of an aluminium particle inserted in a hot oxygenated gas environment: a scenario similar to the particle ignition in reflected shock in a shock tube experiment.
Abstract: The mechanism of aluminium oxidation is quantified and a simplified ignition model is developed. The model describes ignition of an aluminium particle inserted in a hot oxygenated gas environment: a scenario similar to the particle ignition in a reflected shock in a shock tube experiment. The model treats heterogeneous oxidation as an exothermic process leading to ignition. The ignition is assumed to occur when the particle's temperature exceeds the alumina melting point. The model analyses processes of simultaneous growth and phase transformations in the oxide scale. Kinetic parameters for both direct oxidative growth and phase transformations are determined from thermal analysis. Additional assumptions about oxidation rates are made to account for discontinuities produced in the oxide scale as a result of increase in its density caused by the polymorphic phase changes. The model predicts that particles of different sizes ignite at different environment temperatures. Generally, finer particles ignite at ...
282 citations
TL;DR: In this article, an experimental study of Al particle combustion in air is presented, in which uniform Al particles were formed and ignited in air using a pulsed micro-arc discharge using a three-wavelength pyrometer, partially burned particles were quenched and cross-sectioned.
239 citations
TL;DR: In this article, a review of experimental measurements of aluminum ignition temperature is presented and a qualitative connection between the processes governing the oxidation of aluminum powders and the ignition of aluminum particles is made.
Abstract: This paper presents a brief review of experimental measurements of aluminum ignition temperature Models used to describe aluminum ignition are also reviewed It is shown that the current models cannot describe ignition of aluminum powders of different sizes and ignited under various experimental conditions The paper further discusses properties of and phase changes occurring in the alumina scale existing on the surface of aluminum particles at different temperatures Results of recent thermal analysis studies of aluminum powder oxidation are presented and it is shown that the stepwise oxidation of aluminum is caused by the sequence of polymorphic phase transitions occurring in the growing oxide film Finally, the qualitative connection between the processes governing the oxidation of aluminum powders and the ignition of aluminum particles is made and an explanation for the experimentally observed wide range of aluminum ignition temperatures is suggested
208 citations
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01 Jan 2007
TL;DR: The Third edition of the Kirk-Othmer encyclopedia of chemical technology as mentioned in this paper was published in 1989, with the title "Kirk's Encyclopedia of Chemical Technology: Chemical Technology".
Abstract: 介绍了Kirk—Othmer Encyclopedia of Chemical Technology(化工技术百科全书)(第五版)电子图书网络版数据库,并对该数据库使用方法和检索途径作出了说明,且结合实例简单地介绍了该数据库的检索方法。
2,666 citations
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
TL;DR: A comprehensive review of recent synthetic methods along with associated synthesis mechanisms, characterization, fundamental properties, and promising applications of Cupric oxide (CuO) nanostructures is presented in this article.
1,030 citations
Slovak Academy of Sciences1, Comenius University in Bratislava2, Bulgarian Academy of Sciences3, Spanish National Research Council4, University of Cagliari5, University of Lorraine6, Council of Scientific and Industrial Research7, Jožef Stefan Institute8, Keio University9, Moscow Institute of Physics and Technology10, Russian Academy of Sciences11
TL;DR: The aim of this review article is to provide a comprehensive overview of advances achieved in the field of atomistic processes, phase transformations, simple and multicomponent nanosystems and peculiarities of mechanochemistry.
Abstract: The aim of this review article on recent developments of mechanochemistry (nowadays established as a part of chemistry) is to provide a comprehensive overview of advances achieved in the field of atomistic processes, phase transformations, simple and multicomponent nanosystems and peculiarities of mechanochemical reactions. Industrial aspects with successful penetration into fields like materials engineering, heterogeneous catalysis and extractive metallurgy are also reviewed. The hallmarks of mechanochemistry include influencing reactivity of solids by the presence of solid-state defects, interphases and relaxation phenomena, enabling processes to take place under non-equilibrium conditions, creating a well-crystallized core of nanoparticles with disordered near-surface shell regions and performing simple dry time-convenient one-step syntheses. Underlying these hallmarks are technological consequences like preparing new nanomaterials with the desired properties or producing these materials in a reproducible way with high yield and under simple and easy operating conditions. The last but not least hallmark is enabling work under environmentally friendly and essentially waste-free conditions (822 references).
908 citations
TL;DR: This article was originally published with an incorrect version of the Acknowledgments, which appeared on p. 218 of the print version.
Abstract: Note: This article was originally published with an incorrect version of the Acknowledgments, which appeared on p. 218 of the print version. The correct version of the Acknowledgments appeared on pp. 1–2. The corrected article is available below.
823 citations