RECENT ADVANCES in FLUID MECHANICS, HEAT & MASS
TRANSFER and BIOLOGY
Proceedings of the 9th WSEAS International Conference on FLUID MECHANICS (FLUIDS '12)
Proceedings of the 9th WSEAS International Conference on HEAT and MASS TRANSFER (HMT '12)
Proceedings of the 9th WSEAS International Conference on MATHEMATICAL BIOLOGY and ECOLOGY (MABE '12)
Harvard, Cambridge, USA January 25-27, 2012
Published by WSEAS Press ISBN: 978-1-61804-065-7
HTU
www.wseas.org
UTRECENT ADVANCES in FLUID MECHANICS, HEAT & MASS TRANSFER and BIOLOGY
Proceedings of the 9th WSEAS International Conference on FLUID MECHANICS (FLUIDS '12)
Proceedings of the 9th WSEAS International Conference on HEAT and MASS TRANSFER (HMT '12)
Proceedings of the 9th WSEAS International Conference on MATHEMATICAL BIOLOGY and ECOLOGY (MABE '12)
Harvard, Cambridge, USA January 25-27, 2012
Published by WSEAS Press www.wseas.org
Copyright © 2012, by WSEAS Press
All the copyright of the present book belongs to the World Scientific and Engineering Academy and Society Press. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior written permission of the Editor of World Scientific and Engineering Academy and Society Press.
All papers of the present volume were peer reviewed by no less that two independent reviewers.
Acceptance was granted when both reviewers' recommendations were positive.
See also: http://www.worldses.org/review/index.html
ISBN: 978-1-61804-065-7
World Scientific and Engineering Academy and Society
RECENT ADVANCES in FLUID MECHANICS, HEAT & MASS
TRANSFER and BIOLOGY
Proceedings of the 9th WSEAS International Conference on FLUID MECHANICS (FLUIDS '12)
Proceedings of the 9th WSEAS International Conference on HEAT and MASS TRANSFER (HMT '12)
Proceedings of the 9th WSEAS International Conference on MATHEMATICAL BIOLOGY and ECOLOGY (MABE '12)
Harvard, Cambridge, USA
January 25-27, 2012
Editors:
Professor Manoj K. Jha, Morgan State University, USA
Professor Myriam Lazard, Institut Superieur d’Ingenierie de la Conception, France Professor Azami Zaharim, Universiti Kebangsaan Malaysia, Malaysia
Professor Kamaruzzaman Sopian, Universiti Kebangsaan Malaysia, Malaysia International Scientific Committee:
Kenzu Abdella, CANADA Roman Adinberg, ISRAEL
Coman Adrian-Viorel, ROMANIA Jerome Anthoine, BELGIUM Michael Aronov, UNITED STATES
Mohammadmasoud Azhdari moghaddam, IRAN Regita Bendikiene, LITHUANIA
Helmut Benigni, AUSTRIA A. C. Benim, GERMANY
Friedrich-Karl Benra, GERMANY Stasys Bockus, LITHUANIA
Hermenegildo Borges de Oliveira, PORTUGAL Mircea Boscoianu, ROMANIA
Malek Bouhadef, ALGERIA Andris Buikis, LATVIA Adriana Catanase, ROMANIA Costin Cepisca, ROMANIA Claudia Cherubini, ITALY
Ashfaque Ahmed Chowdhury, AUSTRALIA J. P. Curtis, UK
Farhang Daneshmand, IRAN George Darie, ROMANIA Konrad Domke POLAND Michel El Hayek, LEBANON Tayfour Elbashir, OMAN Arpad Fay, HUNGARY Petr Filip, CZECH REPUBLIC Nicolas Galanis, CANADA Sergey Gaponov, RUSSIA Aitor J. Garrido, SPAIN majid Ghassemi, IRAN
Yury Gogotsi, UNITED STATES Jonas Gyly,USA
Vasileios Hamosfakidis, UNITED STATES Assia Helali, FRANCE
Jun Huang, FINLAND
Dagmar Janacova, CZECH REPUBLIC Mak Kai Long, HONG KONG S.A.R.
X.Kakatsios, GREECE
Bouhadef Khedidja, ALGERIA Jaewon Kim, KOREA
Karel Kolomaznik, CZECH REPUBLIC Pavel Kuibin, RUSSIA
Albert Kurbatskiy, RUSSIA T.-W. Lee, UNITED STATES V. C. Loukopoulos, GREECE Fathi Mahfouz, EGYPT D. S. Mathioulakis, GREECE
Mohamed Maidi, UNITED KINGDOM Elena Martin, SPAIN
Sushanta K Mitra, INDIA
Dawid Myszka, POLAND Santirat Nansaarng, THAILAND Jiri Neustupa, CZECH REPUBLIC Cong Tam Nguyen, CANADA Guillermo Paniagua, BELGIUM Thales Papazoglou, GREECE Sophia Psychoudaki, GREECE Yulia Peet, FRANCE
Guillaume Polidori, FRANCE Jiri Pospisil, CZECH REPUBLIC Thomas Prevenslik, GERMANY Robert Pucher, AUSTRIA Mohammad Rasul, AUSTRALIA Mourad Rebay, FRANCE
Constantin Rotaru, ROMANIA Gilles Roy, CANADA
Saeed-Reza Sabbagh-Yazdi, IRAN M. Sakellariou-Makrantonaki, GREECE Lamberto Tronchin, ITALY
Martin van den Toorn, THE NETHERLANDS Heimo Walter, AUSTRIA
Ying Wang, CHINA
Dirk Weltersbach, GERMANY Henning Zindler, GERMANY Leena Peltonen, UK
Adrian L. Harris, UK Robert C. Rees, UK
Karl-Ludwig Laugwitz, GERMANY Kenneth B. Storey, CANADA Brian I. Carr, USA
J. F. Geschwind, USA Ashok K. Shetty, USA Zelia M. Correa, USA Vinai Norasakkunkit, USA A. C. Hackney, USA Marta Fulop, HUNGARY Ignatia B. Van den Veyver, USA J. Tinsley Oden, USA
Otto Horvath, HUNGARY Jeb P. Owen, USA
Tjalf Ziemssen, GERMANY Numa Dancause, USA
R. J. M. Klein Gebbink, NETHERLANDS Michael Detamore, USA
Andrea Benucci, UK Steven C. Elbein, USA Polly A. Newcomb, USA Rosalind Eeles, UK
Laurent Bosquet, FRANCE
Regina Hofmann-Lehmann, SWITZERLAND Kevin D. Costa, USA
Bart Verkerke, NETHERLANDS
K. Muthumani, USA Ulf Ziemann, GERMANY James J. Feng, CANADA Jeffrey A. Weiss, USA Cheng Dong, USA
Muhammad H. Zaman, USA Marwan Dwairy, ISRAEL Karl Peltzer, SOUTH AFRICA Yan-Ling He, USA
Tomas Palecek, CZECH REPUBLIC Fabio Lang da Silveira, BRAZIL David Mann, UK
Alexander Steinle, GERMANY Ian D. Hickson, UK
Lazarus P. Lazarou, UK Jerzy Jochem, POLAND Reiner A. Veitia, France Andrzej Starek, POLAND Csaba Soti, HUNGARY Hector Escriva, FRANCE C. Ratledge, UK
Aurel Popa-Wagner, GERMANY Shulamith Kreitler, ISRAEL Michael Evgen'ev, RUSSIA Paul W Franks, USA
Tatyana Korolenko, RUSSIA George G. Chen, HONG KONG Joanna Zawacka-Pankau, POLAND Katharina Paschinger, AUSTRIA Lucio Sibilia, ITALY
Margo C. Honeyman, AUSTRALIA Shosuke Kojo, JAPAN
Maurizio Bossola, ITALY Warren G. Darling, USA Johnny Ludvigsson, SWEDEN Axel H. Schonthal, USA Zan-Min Song, AUSTRALIA George Perry, USA
Miquel Sola, SPAIN Curt Eckhert, USA Alan Wells, USA
Emmanuel Katsanis, USA Michael J. Lambert, USA Roger Seymour, AUSTRALIA Lucas Sanchez, SPAIN
Peter C. Doherty, USA Greg Atkinson, UK
P. Gopalakrishnakone, SINGAPORE Santosh Kumar, INDIA
Harvest F. Gu, SWEDEN Rita Alevriadou, USA
Vladimir Jiranek, AUSTRALIA Glen Atlas, USA
Bernardino Ghetti, USA Ozgur Cogulu, TURKEY Jaw-Lin Wang, USA Harold A. Scheraga, USA
Ayten Yazgan-Karatas, TURKEY Rudiger Wehner, SWITZERLAND Julien Doyon, CANADA
A. Terrence Conlisk Jr. (Terry), USA Lakshmi Pendyala, USA
Vincent Launay-Vacher, FRANCE Jerome Sanes, USA
Greg Tesch, AUSTRALIA
Edwin Wang, CANADA
Jose C. Florez, USA
Preface
This year the 9th WSEAS International Conference on FLUID MECHANICS (FLUIDS '12), the 9th WSEAS International Conference on HEAT and MASS TRANSFER (HMT '12) and the 9th WSEAS International Conference on MATHEMATICAL BIOLOGY and ECOLOGY (MABE '12) were held in Harvard, Cambridge, USA. The conferences provided a platform to discuss mathematical modeling in fluid mechanics, material properties, fluid structure interaction, shock waves, wave modeling, fluids for medical physics, continuum mechanics, environmental protection, hydrology, molecular dynamics, diffusion convection, metal casting, bio-heat transfer problems, plasma science, climatology, pollution engineering, solar energy, thermal pollution in ecosystems, mathematics in molecular biology, biophysics, genetics, quantum chemistry, medical imaging, speech synthesis etc. with participants from all over the world, both from academia and from industry.
Their success is reflected in the papers received, with participants coming from several countries, allowing a real multinational multicultural exchange of experiences and ideas.
The accepted papers of these conferences are published in this Book that will be indexed by ISI.
Please, check it: www.worldses.org/indexes as well as in the CD-ROM Proceedings. They will be also available in the E-Library of the WSEAS. The best papers will be also promoted in many Journals for further evaluation.
Conferences such as these can only succeed as a team effort, so the Editors want to thank the International Scientific Committee and the Reviewers for their excellent work in reviewing the papers as well as their invaluable input and advice.
The Editors
Table of Contents
Keynote Lecture 1: Spatial-Temporal Model of Multi-Species Vegetation in Marshlands 12 Alexey L. Sadovsk
Plenary Lecture 1: Numerical Study of Applications of Active Flow Control 13 Ramesh K. Agarwal
Plenary Lecture 2: The Discovered Characteristics of the Transient Nucleate Boiling Process to Be Widely Used for Testing of Materials and New Technologies Development
14 Nikolai Kobasko
Discovered Characteristics of the Transient Nucleate Boiling Process to Be Widely Used for Testing of Materials and New Technologies Development
15 Nikolai Kobasko
Numerical Solution of Non-equilibrium Hypersonic Flows of Diatomic Gases Using the Generalized Boltzmann Equation
23 Ramesh K. Agarwal
Numerical Study of Applications of Active Flow Control for Drag Reduction 29 Ramesh K. Agarwal
High Compressive Residual Stresses in Through Hardened Steel Parts as a Function of Biot Number
35 N. I. Kobasko, M. A. Aronov, Katsumi Ichitani, Mayu Hasegawa, Kenro Noguchi
Empirical Nusselt Number Correlation for Single Phase Flow through a Plate Heat Exchanger 41 Ali Hashmi, Fraaz Tahir, Umair Hameed
Water Hammer Simulation by Implicit Finite Difference Scheme Using Non-Symmetrical Staggered Grid
47 Morteza Sepehran, Mohammad Ali Badri Noudeh
Influence of Artificial Roughness on Convective and Boiling Heat Transfer in the Rotating Flow 53 T. Magrakvelidze, N. Bantsadze, N. Lekveishvili, A. Mikashavidze, J.Rusishvili, Kh. Lomidze
Study of Energy Merger Management of a Hybrid Pneumatic Power System 59 K. D. Huang, Tzu-Hao Chen
Real Gas Radiation Effects on Reverse Flow 66
S. Trabelsi, E. Sediki, W. Lakhal, M. Moussa
Characteristics of Flow over Thin Triangular Riblet Surface 72
Feng Beibei, Li Xiaodi, Chen Darong, Wang Jiadao
Studies on Biodecolourization of Industrial Wastewater in a Bioreactor 78 Korrapati Narasimhulu, Y. Pydi Setty
Recent Advances in Fluid Mechanics, Heat & Mass Transfer and Biology
ISBN: 978-1-61804-065-7 9
Multi Segment Function in 2D Dimensions 83 Claude Ziad Bayeh, Nikos E. Mastorakis
Thermo-Stressed State of the Melting Tool 88
Goncharov K. A., Chechulin Y. B.
Critical Heat Flux Densities and Grossmann Factor as Characteristics of Cooling Capacity of Quenchants
94 N. I. Kobasko, M. A. Aronov , Masahiro Kobessho, Mayu Hasegawa, Katsumi Ichitani, V. V.
Dobryvechir
Modeling of Marshlands Ecosystems: Roadmap to Restoration of Nueces Delta Marshes 100 Alexey L. Sadovski, Paul A. Montagna, Scott King
Cost Analysis of Double-Pass Solar Collector with Finned Absorber 105 Ahmad Fudholi, Mohd Hafidz Ruslan, Mohd Yusof Othman, Lim Chin Haw, Sohif Mat, Azami Zaharim,
Kamaruzzaman Sopian
Mathematical Model of Double-Pass Solar Air Collector with Longitudinal Fins 114 Ahmad Fudholi, Mohd Hafidz Ruslan, Mohd Yusof Othman, Lim Chin Haw, Sohif Mat, Azami Zaharim,
Kamaruzzaman Sopian
Performance of Finned Double-Pass Solar Air Collector 121
Ahmad Fudholi, Mohd Hafidz Ruslan, Lim Chin Haw, Sohif Mat, Mohd Yusof Othman, Azami Zaharim, Kamaruzzaman Sopian
A Predator-Prey Model with Ratio-Dependent Functional Response and Strong Allee Effect on Prey
127 Jose D. Flores, Eduardo Gonzalez-Olivares
Modelling and Optimization of Heat Transfer in Smooth Circular Tube Used in the Shell and Tube Evaporator
133 Ranj Sirwan, Yusoff Ali, Lim Chin Haw, Sohif Mat, A. Zaharim, K. Sopian
Investigation of Filtration Efficiency of Nanofiber Based Filters in Ultrafine Particles Range during Cake Formation
138 Wannes Sambaer, Martin Zatloukal, Dusan Kimmer
Determination of Pressure Drop and Filtration Efficiency of Filled Nanofiber Based Filters by Using 3D Filtration Model
144 Wannes Sambaer, Martin Zatloukal, Dusan Kimmer
CFD Study of a Single-Spout Pseudo-2D Bed: The Impact of the Solids Wall Boundary Conditions
150 Simon Schneiderbauer, Stefan Pirker
On Formation Mechanism of Die Drool and Slip-Stick Phenomena during Linear HDPE Polymer Melt Extrusion
156 Jan Musil, Martin Zatloukal
Flow Induced Molecular Weight Fractionation during Capillary Flow of Linear Polymer Melt 162 Jan Musil, Martin Zatloukal
Recent Advances in Fluid Mechanics, Heat & Mass Transfer and Biology
ISBN: 978-1-61804-065-7 10
Variational Principle based Modeling of Film Blowing Process for LDPE Considering Non- Isothermal Conditions and Non-Newtonian Polymer Melt Behavior
168 Roman Kolarik, Martin Zatloukal
Investigation of Polymer Long Chain Branching on Film Blowing Process Stability by using Variational Principle
174 Roman Kolarik, Martin Zatloukal
Determination of Boundary Shear In Smooth Closed Duct Using Momentum Balance Method (MBM)
180 Yu Han, Shu-Qing Yang, Nadeesha Dharmasiri
The Problem of Two-Phase Poiseuille Flow of a Third Grade Fluid 186 A. M. Siddiqui, M. K. Mitkova, A. R. Ansari
The Impact of Short-Range Force Field Parameters and Temperature Effect On Selective Adsorption of Water and CO2 On Calcite
192 Phan Van Cuong, Bjorn Kvamme, Tatiana Kuznetsova, Bjornar Jensen
Laminar Thermal Boundary Layer Model for Power-Law Fluids over a Permeable Surface with Convective Boundary Condition
198 Gabriella Bognar, Hriczo Krisztian
Coupled Heat and Mass Transfer by Natural Convection of a Micropolar Fluid Flow about a Sphere in Porous Media with Soret and Dufour Effects
204 Nayela A. M. Al-Juma, Ali J. Chamkha
Added Mass and Damping of Oscillating Bodies: A Fully Viscous Numerical Approach 210 Luca Bonfiglio, Stefano Brizzolara, Chryssostomos Chryssostomidis
Near Wake Structure of a Blunt Trailing Edge Profiled Body 216
Lakshmana Doddipatla, Arash Naghib-Lahouti, Horia Hangan
Phase Field Theory Modeling of Phase Transitions Involving Hydrate 222 Muhammad Qasim, Khuram Baig, Bjorn Kvamme
Thermodynamic and Kinetic Modeling of Phase Transitions for CH4/CO2 Hydrates 229 Bjorn Kvamme, Khuram Baig, Muhammad Qasim, Jordan Bauman
Computational Visualization of Volcanic Ash Plume Concentrations Measured by Light Aircrafts over Germany and Iceland during the Recent Eruptions of the Volcanoes Eyjafjallajokull and Grimsvotn
236
Weber K., Reichardt R., Vogel A., Fischer C., Moser H. M., Eliasson J.
Authors Index 241
Recent Advances in Fluid Mechanics, Heat & Mass Transfer and Biology
ISBN: 978-1-61804-065-7 11
Keynote Lecture 1
Spatial-Temporal Model of Multi-Species Vegetation in Marshlands
Professor Alexey L. Sadovski
Endowed Ruth Campbell Professor of Coastal and Marine Sciences Director of the Office for Information Assurance, Statistics,
and Quality Control
Texas A&M University-Corpus Christ USA
E-mails: Alexey.Sadovski@tamucc.edu
Brief Biography of the Speaker: Dr. Sadovski is a Professor of Mathematics at Texas A&M University-Corpus Christi (TAMUCC), Endowed Ruth Campbell Professor of Coastal and Marine Sciences, and Director of the Office for Information Assurance, Statistics and Quality Control. He teaches different courses in the mathematics program, and is also a member of the Ph.D. faculty in Coastal and Marine System Science at TAMUCC. He has taught undergraduate, graduate and post-graduate courses at the Moscow Institute of Transport Engineers and at Texas A&M System for over 35 years. His course subjects include: Calculus, Real Analysis, ODE, PDE, Linear Algebra, Optimal Control, Probability Theory and Statistics, Stochastic Processes, Operation Research and Decision Making, Optimization, Advanced Mathematical Modeling, Modeling of Natural Systems, and many more. He was a chair as well as a member of many doctoral and graduate committees. Over 80 books and papers by Dr. Sadovski have been published in many countries and in different languages. He has been the chair of a few international conferences and seminars as well as the chair of many special sessions at national and international meetings.
Recent Advances in Fluid Mechanics, Heat & Mass Transfer and Biology
ISBN: 978-1-61804-065-7 12
Plenary Lecture 1
Numerical Study of Applications of Active Flow Control
Professor Ramesh K. Agarwal
Department of Mechanical Engineering and Materials Science Washington University in St. Louis
St. Louis, MO 63130, USA E-mail: rka@wustl.edu
Abstract: In recent years, a promising approach to the control of wall bounded as well as free shear flows, using synthetic jet (oscillatory jet with zero-net-mass-flux) and pulsed jet actuators, has received a great deal of attention. A variety of impressive flow control results have been achieved experimentally by many researchers including the vectoring of conventional propulsive jets, modification of aerodynamic characteristics of bluff bodies, control of lift and drag of airfoils, thrust augmentation in ejectors, reduction of skin-friction in a boundary layer flow, enhanced mixing in circular jets, control of external as well as internal flow separation and of cavity oscillations. More recently, attempts have been made to numerically simulate many of these flow fields primarily by employing the Unsteady Reynolds- Averaged Navier Stokes (URANS) equations with a turbulence model and in a limited few cases by Large Eddy Simulation LES) and Direct Numerical Simulation (DNS). In this paper, the results of simulations for six different flow fields dealing with thrust-vectoring of a propulsive jet, control of separation on a backward facing step, control of cavity oscillations, thrust augmentation of an ejector, transonic drag reduction of an airfoil, and drag reduction of a truck shaped body using active flow control are described. These simulations have been performed using the URANS equations in conjunction with either one- or a two-equation turbulence model. The simulations demonstrate the effectiveness of active flow control techniques in flow modification to achieve the desired outcome of drag reduction and separation control in many industrial applications.
Brief Biography of the Speaker:Professor Ramesh Agarwal is the William Palm Professor of Engineering and the director of Aerospace Engineering Program and Aerospace Research and Education Center at Washington University in St. Louis. From 1994 to 2001, he was the Sam Bloomfield Distinguished Professor and Executive Director of the National Institute for Aviation Research at Wichita State University in Kansas. From 1978 to 1994, he worked in various scientific and managerial positions at McDonnell Douglas Research Laboratories in St. Louis. He became the Program Director and McDonnell Douglas Fellow in 1990. Dr. Agarwal received Ph.D in Aeronautical Sciences from Stanford University in 1975, M.S. in Aeronautical Engineering from the University of Minnesota in 1969 and B.S. in Mechanical Engineering from Indian Institute of Technology, Kharagpur, India in 1968. Over a period of 35 years, Professor Agarwal has worked in Computational Fluid Dynamics (CFD), nanotechnology and renewable energy systems. He is the author and coauthor of over 300 publications and serves on the editorial board of fifteen journals. He has given many plenary, keynote and invited lectures at various national and international conferences worldwide. Professor Agarwal continues to serve on many professional, government, and industrial advisory committees. Dr. Agarwal is a Fellow of fifteen societies - American Association for Advancement of Science (AAAS), American Institute of Aeronautics and Astronautics (AIAA), American Physical Society (APS), American Society of Mechanical Engineers (ASME), Royal Aeronautical Society (RAeS), Society of Manufacturing Engineers (SME), Society of Automotive Engineers (SAE), Institute of Electrical and Electronics Engineers (IEEE), American Society of Engineering Education (ASEE), American Academy of Mechanics (AAM), Institute of Physics, Energy Institute, Institute of Engineering and Technology, Academy of Science of St. Louis, and World Innovation Foundation (WIF).
He has served as a distinguished lecturer of AIAA (1996-1999), ASME (1994-1997), IEEE (1994-2011), and ACM (2011). He has received many honors and awards for his research contributions including the ASME Fluids Engineering Award (2001), ASME Charles Russ Richards Memorial Award (2006), Royal Aeronautical Society Gold Award (2007), AIAA Aerodynamics Award (2008), AIAA/SAE William Littlewood Lecture Award (2009), James B.
Eads Award of the Academy of Science of St. Louis (2009), SAE Clarence Kelly Johnson Award (2010), SAE Franklin W. Kolk Progress in Air Transportation Award (2010), ASME Edwin Church Medal (2011), and AIAA Thermophysics Award (2011).
Recent Advances in Fluid Mechanics, Heat & Mass Transfer and Biology
ISBN: 978-1-61804-065-7 13
Plenary Lecture 2
The Discovered Characteristics of the Transient Nucleate Boiling Process to Be Widely Used for Testing of Materials and New Technologies Development
Dr. Nikolai Kobasko IQ Technologies Inc, Akron USA and Intensive Technologies Ltd
Kyiv, Ukraine
E-mail: NKobasko@aol.com
Abstract: The nucleate boiling processes are in use in everyday people’s activity; and they were carefully investigated mainly for steady state condition. The transient nucleate boiling processes take place during quenching of steels and metal alloys; and they were investigated not enough deeply yet. During last decades the new characteristics of the transient nucleate boiling process were discovered which can be formulated as follows. The duration of the transient nucleate boiling process is directly proportional to squared size of a component and inversely proportional to thermal diffusivity of a given material, depends on configuration of component, initial temperature and thermal properties of liquid. The surface temperature of a component during the nucleate boiling process is maintained at the level of boiling point of liquid until heat flux densities during nucleate boiling and convection become equal. These characteristics were widely discussed at the WSEAS Conferences. In present lecture, it is further discussed the possibility of use of the discovered characteristics in the heat treating industry. Namely, they can be used for testing of materials and new intensive technologies development.
The first includes:
• Evaluation of the thermal diffusivity of different kinds of solid materials.
• Explanation what Grossmann factor H is.
• Development of the new method for testing of different kinds of quenchants.
• Criteria to be used for simplified calculations and designing of technological systems.
• Opportunities for materials savings and environment improvement.
The second includes:
• Optimizing technological IQ – 2 processes.
• Extended possibility of the low temperature thermo-mechanical heat treatment (LTMT).
• Modifying of the cryogenic treatment of materials.
• Optimizing of the continuous casting process for receiving nano – particles after intensive cooling.
• Condition for super strengthening of steels.
• Reduced cost of the technological process.
• Monitoring of the process of phase transformation and residual stress distribution.
These aspects will be discussed at the WSEAS Conference with the aim of saving expensive materials and improving environment condition.
Brief Biography of the Speaker: Dr. Kobasko received his Ph.D. from the National Academy of Sciences of Ukraine. He is a leading expert on quenching and heat transfer during the hardening of steels. He was the Head of the laboratory of the Thermal Science Institute of the National Academy of Sciences of Ukraine. He is Director of Technology and Research and Development for IQ Technologies, Inc., Akron, Ohio and supervisor of Intensive Technologies, Ltd, Kyiv, Ukraine. The aim of both companies is material savings, ecological problem-solving, and increasing service life of steel parts. He is an ASM International Fellow (FASM). Dr. Kobasko is the author and co- author of more than 250 scientific and technical papers, several books and more than 30 patents and certificates. He received the Da Vinci Diamond Award and Certificate in recognition of an outstanding contribution to thermal science.
Dr. Nikolai Kobasko was Editor-in-Chief and Co-Editor of the WSEAS Transactions on Heat and Mass Transfer; and is currently a member of the Editorial Board for the International Journal of Mechanics (NAUN) and the Journal of ASTM International (JAI). The new characteristics of transient nucleate boiling processes were discovered by him.
These characteristics are basics for new technologies development and new method of testing materials which are discussed in the lecture.
Recent Advances in Fluid Mechanics, Heat & Mass Transfer and Biology
ISBN: 978-1-61804-065-7 14
Authors Index
Agarwal, R. K. 23, 29 Hasegawa, M. 35, 94 Narasimhulu, K. 78
Ali, Y. 133 Hashmi, A. 41 Noguchi, K. 35
Al-Juma, N. A. M. 204 Haw, L. C. 105,114,121 Noudeh, M. A. B. 47 Ansari, A. R. 186 Haw, L. C. 133 Othman, M. Y. 105,114,121 Aronov, M. A. 35, 94 Hriczo, K. 198 Pirker, S. 150 Baig, K. 222, 229 Huang, K. D. 59 Qasim, M. 222, 229 Bantsadze, N. 53 Ichitani, K. 35, 94 Reichardt, R. 236 Bauman, J. 229 Jensen, B. 192 Rusishvili, J. 53 Bayeh, C. Z. 83 Jiadao, W. 72 Ruslan, M. H. 105,114,121 Beibei, F. 72 Kimmer, D. 138, 144 Sadovski, A. L. 100 Bognar, G. 198 King, S. 100 Sambaer, W. 138, 144 Bonfiglio, L. 210 Kobasko, N. I. 15, 35, 94 Schneiderbauer, S. 150 Brizzolara, S. 210 Kobessho, M. 94 Sediki, E. 66 Chamkha, A. J. 204 Kolarik, R. 168, 174 Sepehran, M. 47 Chechulin, Y. B. 88 Kuznetsova, T. 192 Setty, Y. P. 78 Chen, T.-H. 59 Kvamme, B. 192,222,229 Siddiqui, A. M. 186 Chryssostomidis, C. 210 Lakhal, W. 66 Sirwan, R. 133 Darong, C. 72 Lekveishvili, N. 53 Sopian, K. 105,114,121 Dharmasiri, N. 180 Lomidze, Kh. 53 Sopian, K. 133 Dobryvechir, V. V. 94 Magrakvelidze, T. 53 Tahir, F. 41 Doddipatla, L. 216 Mastorakis, N. E. 83 Trabelsi, S. 66 Eliasson, J. 236 Mat, S. 105, 114, 121 Van Cuong, P. 192
Fischer, C. 236 Mat, S. 133 Vogel, A. 236
Flores, J. D. 127 Mikashavidze, A. 53 Weber, K. 236 Fudholi, A. 105,114, 121 Mitkova, M. K. 186 Xiaodi, L. 72 Goncharov, K. A. 88 Montagna, P. A. 100 Yang, S.-Q. 180 Gonzalez-Olivares, E. 127 Moser, H. M. 236 Zaharim, A. 105, 114, 121
Hameed, U. 41 Moussa, M. 66 Zaharim, A. 133
Han, Y. 180 Musil, J. 156, 162 Zatloukal, M. 138,144,156 Hangan, H. 216 Naghib-Lahouti, A. 216 Zatloukal, M. 162,168,174
Recent Advances in Fluid Mechanics, Heat & Mass Transfer and Biology
ISBN: 978-1-61804-065-7 241