Advances in Chemical Engineering ed. by Zeeshan Nawaz and Shahid Naveed
In T e O | 2012 | ISBN: 9535103929, 9789535103929 | 594 pages | PDF | 22 MB
This book addresses ongoing evolutions of chemical engineering and provides overview to the sate of the art advancements. Molecular perspective is increasingly important in the refinement of kinetic and thermodynamic molding. As a result, much of the material was revised on industrial problems and their sophisticated solutions from known scientists around the world.
These issues were divided in to two sections, fundamental advances and catalysis and reaction engineering. A distinct feature of this text continues to be the emphasis on molecular chemistry, reaction engineering and modeling to achieve rational and robust industrial design.
Contents
Preface
Part 1 Fundamentals
Chapter 1 Application of Chebyshev Polynomials to Calculate Density and Fugacity Using SAFT Equation of State to Predict Asphaltene Precipitation Conditions
Chapter 2 Based on Common Inverted Microscope to Measure UV-VIS Spectra of Single Oil-Gas Inclusions and Colour Analysis
Chapter 3 Challenging Evaluation of the Hybrid Technique of Chemical Engineering - Proton NMR Technique for Food Engineering
Chapter 4 Modelling Approach for Redesign of Technical Processes
Chapter 5 Application Potential of Food Protein Modification
Part 2 Catalysis and Reaction Engineering
Chapter 6 Rational Asymmetric Catalyst Design, Intensification and Modeling
Chapter 7 Preparation, Catalytic Properties and Recycling Capabilities Jacobsen's Catalyst
Chapter 8 Carbohydrate-Based Surfactants: Structure-Activity Relationships
Chapter 9 C02 Biomitigation and Biofuel Production Using Microalgae: Photobioreactors Developments and Future Directions
Chapter 10 Production of Biodiesel from Microalgae
Chapter 11 Sulfonation/Sulfation Processing Technology for Anionic Surfactant Manufacture
Chapter 12 Pollutant Formation in Combustion Processes
Part 3 Process Engineering
Chapter 13 Systematic Framework for Multiobjective Optimization in Chemical Process Plant Design
Chapter 14 CFD Modelling of Fluidized Bed with Immersed Tubes
Chapter 15 Optimal Synthesis of Multi-Effect Evaporation Systems of Solutions with a High Boiling Point Rise
Chapter 16 Optimization of Spouted Bed Scale-Up by Square-Based Multiple Unit Design
Chapter 17 Techno-Economic Evaluation of Large Scale 2.5-Dimethylfuran Production from Fructose
Chapter 18 Inland Desalination: Potentials and Challenges
Part 4 Separation Technology
Chapter 19 Phase Diagrams in Chemical Engineering: Application to Distillation and Solvent Extraction
Chapter 20 Organic/Inorganic Nanocomposite Membranes Development for Low Temperature Fuel Cell Applications
Chapter 21 Membrane Operations for Industrial Applications
Chapter 22 Thermal Study on Phase Transitions of Block Copolymers by Mesoscopic Simulation
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In T e O | 2012 | ISBN: 9535103929, 9789535103929 | 594 pages | PDF | 22 MB
This book addresses ongoing evolutions of chemical engineering and provides overview to the sate of the art advancements. Molecular perspective is increasingly important in the refinement of kinetic and thermodynamic molding. As a result, much of the material was revised on industrial problems and their sophisticated solutions from known scientists around the world.
These issues were divided in to two sections, fundamental advances and catalysis and reaction engineering. A distinct feature of this text continues to be the emphasis on molecular chemistry, reaction engineering and modeling to achieve rational and robust industrial design.
Contents
Preface
Part 1 Fundamentals
Chapter 1 Application of Chebyshev Polynomials to Calculate Density and Fugacity Using SAFT Equation of State to Predict Asphaltene Precipitation Conditions
Chapter 2 Based on Common Inverted Microscope to Measure UV-VIS Spectra of Single Oil-Gas Inclusions and Colour Analysis
Chapter 3 Challenging Evaluation of the Hybrid Technique of Chemical Engineering - Proton NMR Technique for Food Engineering
Chapter 4 Modelling Approach for Redesign of Technical Processes
Chapter 5 Application Potential of Food Protein Modification
Part 2 Catalysis and Reaction Engineering
Chapter 6 Rational Asymmetric Catalyst Design, Intensification and Modeling
Chapter 7 Preparation, Catalytic Properties and Recycling Capabilities Jacobsen's Catalyst
Chapter 8 Carbohydrate-Based Surfactants: Structure-Activity Relationships
Chapter 9 C02 Biomitigation and Biofuel Production Using Microalgae: Photobioreactors Developments and Future Directions
Chapter 10 Production of Biodiesel from Microalgae
Chapter 11 Sulfonation/Sulfation Processing Technology for Anionic Surfactant Manufacture
Chapter 12 Pollutant Formation in Combustion Processes
Part 3 Process Engineering
Chapter 13 Systematic Framework for Multiobjective Optimization in Chemical Process Plant Design
Chapter 14 CFD Modelling of Fluidized Bed with Immersed Tubes
Chapter 15 Optimal Synthesis of Multi-Effect Evaporation Systems of Solutions with a High Boiling Point Rise
Chapter 16 Optimization of Spouted Bed Scale-Up by Square-Based Multiple Unit Design
Chapter 17 Techno-Economic Evaluation of Large Scale 2.5-Dimethylfuran Production from Fructose
Chapter 18 Inland Desalination: Potentials and Challenges
Part 4 Separation Technology
Chapter 19 Phase Diagrams in Chemical Engineering: Application to Distillation and Solvent Extraction
Chapter 20 Organic/Inorganic Nanocomposite Membranes Development for Low Temperature Fuel Cell Applications
Chapter 21 Membrane Operations for Industrial Applications
Chapter 22 Thermal Study on Phase Transitions of Block Copolymers by Mesoscopic Simulation
Download