Chemoinformatics
Advanced Control and Computational Techniques
Herausgeber: Gilani, Hossein G; Haghi, Reza Khodaparast; Samper, Katia G
Chemoinformatics
Advanced Control and Computational Techniques
Herausgeber: Gilani, Hossein G; Haghi, Reza Khodaparast; Samper, Katia G
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The book is a valuable resource for academics, researchers, and engineering professionals. Chapters range from new methods to novel applications of existing methods and help provide an understanding of the material and/or structural behavior of new and advanced systems. It includes innovative chapters on the growth of educational, scientific, an
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The book is a valuable resource for academics, researchers, and engineering professionals. Chapters range from new methods to novel applications of existing methods and help provide an understanding of the material and/or structural behavior of new and advanced systems. It includes innovative chapters on the growth of educational, scientific, an
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Apple Academic Press
- Seitenzahl: 214
- Erscheinungstermin: 31. März 2021
- Englisch
- Abmessung: 234mm x 156mm x 12mm
- Gewicht: 308g
- ISBN-13: 9781774632109
- ISBN-10: 1774632101
- Artikelnr.: 69929816
- Verlag: Apple Academic Press
- Seitenzahl: 214
- Erscheinungstermin: 31. März 2021
- Englisch
- Abmessung: 234mm x 156mm x 12mm
- Gewicht: 308g
- ISBN-13: 9781774632109
- ISBN-10: 1774632101
- Artikelnr.: 69929816
Dr. Hossein G. Gilani received his MSc in Chemical Engineering from Bologna University, Italy, in 1982, and his PhD degree in Chemical Engineering from the University of Catalunya, BarcelonaTech (UPC), Spain, in 1992. He is currently an associate professor in the Department of Chemical Engineering. He has served as the Head of Chemical Engineering Department as well as Vice-Dean of Faculty of Engineering in Research. He is a reviewer for several international journals and a member of the editorial boards of several journals. He has published more than 48 papers in various international research journals and is currently actively engaged in research areas of separation processes using distillation and extraction liquid-liquid, membranes and adsorption, process development, cryogenics, and gas liquefaction processes. Katia G. Samper is a chemical engineer and is currently in the postgraduate program of chemical systems at the University of Barcelona, Spain. Reza Khodaparast Haghi is a mechanical engineer and is currently in the postgraduate program of Advanced Control Systems at University of Salford, Manchester, (UK).
A Thermodynamic Model for Vapor-Liquid Equilibrium Data for the Two Binary
Systems. Practical Hints on Measurement of Densities and Excess Molar
Volumes. A Mathematical Model to Control the Liquid-Liquid Equilibrium
Data. Computer Calculations for Multicomponent Vapor-Liquid and
Liquid-Liquid Equilibria. Densities And Refractive Indices of the Binary
Systems. Potential Applications of Artificial Neural Networks to
Thermodynamics. A Note on Application of Non-Random Two-Liquid (Nrtl)
Model. Some Practical Hints on Application of Uniquac Solution Model.
Control of Liquid Membrane Separation Process. Development of Artificial
Neural Network (Ann) Model for Estimation of Vapor Liquid Equilibrium (Vle)
Data. Some Aspects of a Fluid Phase Equilibria and Unifac Model. Molecular
Thermodynamics Process Control In Fluid-Phase Equilibria. Estimation of
Liquid-Liquid Equilibrium Using Artificial Neural Networks. Optimization of
Process Control of Water + Propanoic Acid+ 1-octanol System. Practical
Hints on Optimization of Uniquac Interaction Parameters. A Mathematical
Approach to Control the Water Content of Sour Gas. Modeling And Control of
Thermodynamic Properties by Artificial Neural Networks (ANNs). A Study on
Liquid-liquid Equilibria Using Hysys & Uniquac Models. Optimization and
Control of Laboratory Production of Ethanol.
Systems. Practical Hints on Measurement of Densities and Excess Molar
Volumes. A Mathematical Model to Control the Liquid-Liquid Equilibrium
Data. Computer Calculations for Multicomponent Vapor-Liquid and
Liquid-Liquid Equilibria. Densities And Refractive Indices of the Binary
Systems. Potential Applications of Artificial Neural Networks to
Thermodynamics. A Note on Application of Non-Random Two-Liquid (Nrtl)
Model. Some Practical Hints on Application of Uniquac Solution Model.
Control of Liquid Membrane Separation Process. Development of Artificial
Neural Network (Ann) Model for Estimation of Vapor Liquid Equilibrium (Vle)
Data. Some Aspects of a Fluid Phase Equilibria and Unifac Model. Molecular
Thermodynamics Process Control In Fluid-Phase Equilibria. Estimation of
Liquid-Liquid Equilibrium Using Artificial Neural Networks. Optimization of
Process Control of Water + Propanoic Acid+ 1-octanol System. Practical
Hints on Optimization of Uniquac Interaction Parameters. A Mathematical
Approach to Control the Water Content of Sour Gas. Modeling And Control of
Thermodynamic Properties by Artificial Neural Networks (ANNs). A Study on
Liquid-liquid Equilibria Using Hysys & Uniquac Models. Optimization and
Control of Laboratory Production of Ethanol.
A Thermodynamic Model for Vapor-Liquid Equilibrium Data for the Two Binary
Systems. Practical Hints on Measurement of Densities and Excess Molar
Volumes. A Mathematical Model to Control the Liquid-Liquid Equilibrium
Data. Computer Calculations for Multicomponent Vapor-Liquid and
Liquid-Liquid Equilibria. Densities And Refractive Indices of the Binary
Systems. Potential Applications of Artificial Neural Networks to
Thermodynamics. A Note on Application of Non-Random Two-Liquid (Nrtl)
Model. Some Practical Hints on Application of Uniquac Solution Model.
Control of Liquid Membrane Separation Process. Development of Artificial
Neural Network (Ann) Model for Estimation of Vapor Liquid Equilibrium (Vle)
Data. Some Aspects of a Fluid Phase Equilibria and Unifac Model. Molecular
Thermodynamics Process Control In Fluid-Phase Equilibria. Estimation of
Liquid-Liquid Equilibrium Using Artificial Neural Networks. Optimization of
Process Control of Water + Propanoic Acid+ 1-octanol System. Practical
Hints on Optimization of Uniquac Interaction Parameters. A Mathematical
Approach to Control the Water Content of Sour Gas. Modeling And Control of
Thermodynamic Properties by Artificial Neural Networks (ANNs). A Study on
Liquid-liquid Equilibria Using Hysys & Uniquac Models. Optimization and
Control of Laboratory Production of Ethanol.
Systems. Practical Hints on Measurement of Densities and Excess Molar
Volumes. A Mathematical Model to Control the Liquid-Liquid Equilibrium
Data. Computer Calculations for Multicomponent Vapor-Liquid and
Liquid-Liquid Equilibria. Densities And Refractive Indices of the Binary
Systems. Potential Applications of Artificial Neural Networks to
Thermodynamics. A Note on Application of Non-Random Two-Liquid (Nrtl)
Model. Some Practical Hints on Application of Uniquac Solution Model.
Control of Liquid Membrane Separation Process. Development of Artificial
Neural Network (Ann) Model for Estimation of Vapor Liquid Equilibrium (Vle)
Data. Some Aspects of a Fluid Phase Equilibria and Unifac Model. Molecular
Thermodynamics Process Control In Fluid-Phase Equilibria. Estimation of
Liquid-Liquid Equilibrium Using Artificial Neural Networks. Optimization of
Process Control of Water + Propanoic Acid+ 1-octanol System. Practical
Hints on Optimization of Uniquac Interaction Parameters. A Mathematical
Approach to Control the Water Content of Sour Gas. Modeling And Control of
Thermodynamic Properties by Artificial Neural Networks (ANNs). A Study on
Liquid-liquid Equilibria Using Hysys & Uniquac Models. Optimization and
Control of Laboratory Production of Ethanol.