The International Symposium on Nonequilibrium Processes, Plasma, Combustion and Atmospheric Phenomena is a for international experts in such fundamental areas as physical and chemical kinetics, physics of low temperature and cluster plasmas, physics of shock and detonation waves, physics and chemistry of aerosols and nanoparticles, combustion and atmospheric chemistry, physics and chemistry of high speed flows, plasma and laser chemistry, plasma, laser and combustion assisted technologies.
This book contains more than 100 papers and brief communications on contemporary problems of chemical and radiation physics. The basis of the compendium constitute contributions presented at the International Scientific and Technical Conference “Chemical and Radiation Physics,” Moscow, Russia, August 25–29, 2009.
The book contains 46 selected, revised and thoroughly edited papers addressing various issues of propulsion physics written by world-known experts. The papers include critical analyses of previous studies and controversial aspects of novel propulsion concepts, new theoretical and experimental results and findings as well as numerous references to archival publications worldwide.
The books of brothers Ivan and Alexander Egorov, the Russian scientists and writers, include an original development of the problem of the relationship between perception and reality.
The interpretation of these mechanisms suggested and designated as the 'Paradigm of Emergence' by the authors widens the scope of the understanding of the world order and analysis of the co-relation of different types of ob jects conducted on its basis.
The book is organized in three parts: (1) Explosions of Gaseous Mixtures, (2) Explosions of Heterogeneous Mixtures, and (3) Explosions of Condensed Matter.
This volume contains original articles and provides up-to-date information on fundamentals of deflagrative and detonative combustion as well as applications of detonation to pulse and continuous detonation propulsion written by world-known experts.
Knowledge of phylogeny is of fundamental importance in evolutionary studies, from the reconstruction of the Tree of Life to revealing and understanding the laws of body plan formation (the evo-devo realm), to describing the patterns and processes of microevolution.
This book offers a systematic survey of the latest developments by a fine selection of international experts and can be used as a reference by research scientists or practicing engineers in the field of aerospace propulsion.
The book contains 78 revised, edited and formatted papers written by international experts in kinetics of elementary physical and chemical processes, surface physics and chemistry, laser-induced and plasma-assisted combustion, electrical discharges and other sources of plasma, ignition and combustion, detonation, aerosols and atmospheric physics and chemistry, and processes in Earth atmosphere and outer space.
The physical laws that govern the universe prescribe how an initial state evolves with time. Cosmology attempts to describe the behaviour of the entire universe using these physical laws. In applying these laws to the universe one immediately encounters a problem. What is the initial state that the laws should be applied to?
Представлены материалы докладов, заслушанных на международной конференции "Вычислительная филогенетика и геносистематика ВФГС 2007" (Москва, 16-19 ноября 2007 г.).
Для специалистов в области геносистематики, биоинформатики, филогенетики, зоологии и ботаники.
This book contains about 90 revised, edited, and formatted abstracts of presentations written by international experts in combustion, detonation, plasma physics and chemistry, aerosols and atmospheric sciences. The book provides a condensed overview of challenging problems in these interrelated disciplines.
The book includes 50 revised and edited condensed papers on transient combustion processes and detonations in gases and heterogeneous media and applications of detonations to chemical propulsion authored by international experts from 11 countries. The book is published in connection with the Fifth International Colloquium on Pulsed and Continuous Detonations held in Moscow, July 4-7, 2006.
Development of propulsion engines operating on continuous and pulse detonations is a subject of growing interest worldwide. The concept of a detonation engine is attractive for simplicity, easy scaling, reduced fuel consumption, and intrinsic capability of operation from zero approach stream velocity to high supersonic flight speeds. In the detonation-based power plants, detonation is initiated in a tube that serves as the combustor. The propagating detonation wave rapidly burns the fuel in the chamber resulting in a nearly constant-volume heat addition process that produces a high pressure in the combustor and provides the thrust. The operational cycle of such power plants provides a higher thermodynamic efficiency as compared to the Brayton cycle used in gas turbines and ramjets.
The two-volume book contains more than 80 revised, edited and formatted papers written by international experts in combustion, detonation, plasma physics and chemistry, and atmospheric sciences. The book provides an overview of the state-of-the-art in these intrinsically interrelated disciplines.
The two-volume book contains more than 80 revised, edited and formatted papers written by international experts in combustion, detonation, plasma physics and chemistry, and atmospheric sciences. The book provides an overview of the state-of-the-art in these intrinsically interrelated disciplines.
The two-volume book contains more than 80 revised, edited and formatted papers written by international experts in combustion, detonation, plasma physics and chemistry, and atmospheric sciences. The book provides an overview of the state-of-the-art in these intrinsically interrelated disciplines.
The book includes 43 revised and edited condensed papers on fundamentals of gaseous and heterogeneous deflagrations and detonations and applications of detonations to chemical propulsion written by international experts in detonation physics, chemistry, and propulsion from 9 countries. The book is published in connection with the International Colloquium on Application of Detonation for Propulsion held in St. Petersburg, July 6-9, 2004.
The book contains 25 revised and edited condensed papers on micromixing in turbulent reactive flows. The papers address the fundamentals of turbulent mixing of chemical species and their reaction in flame fronts or other structures.
The volume contains 24 revised and edited articles on confined gaseous and spray deflagrations and detonations and their applications to pulse detonation propulsion written by world-known experts in detonation physics and propulsion. The articles include critical analyses of previous studies and controversial aspects of confined detonations, new experimental and theoretical results and findings, as well as numerous references to archival publications worldwide.
The book contains more than 50 revised and edited condensed papers on confined gaseous and spray deflagrations and detonations and their applications to pulse-detonation propulsion written by international experts in detonation physics, chemistry, and propulsion from 9 countries. The contributions are presented in three sections:
The Seventh ISHPMIE is aimed at bringing together researchers, engineers, and practitioners dealing with a variety of potential hazards that can lead to industrial explosions of dusts, gases, vapors, liquids, and hybrid mixtures. The presentations cover a range of prevention and mitigation strategies from several perspectives — relevant fundamental studies including experimental and modeling efforts, practical applications, and investigations of actual accidents.
The Seventh ISHPMIE is aimed at bringing together researchers, engineers, and practitioners dealing with a variety of potential hazards that can lead to industrial explosions of dusts, gases, vapors, liquids, and hybrid mixtures. The presentations cover a range of prevention and mitigation strategies from several perspectives — relevant fundamental studies including experimental and modeling efforts, practical applications, and investigations of actual accidents.
The Seventh ISHPMIE is aimed at bringing together researchers, engineers, and practitioners dealing with a variety of potential hazards that can lead to industrial explosions of dusts, gases, vapors, liquids, and hybrid mixtures. The presentations cover a range of prevention and mitigation strategies from several perspectives — relevant fundamental studies including experimental and modeling efforts, practical applications, and investigations of actual accidents.
The Seventh ISHPMIE is aimed at bringing together researchers, engineers, and practitioners dealing with a variety of potential hazards that can lead to industrial explosions of dusts, gases, vapors, liquids, and hybrid mixtures. The presentations cover a range of prevention and mitigation strategies from several perspectives — relevant fundamental studies including experimental and modeling efforts, practical applications, and investigations of actual accidents.