2016 Physico-Chemical Property Analysis in Chemical Engineering

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Academic unit or major
Graduate major in Chemical Science and Engineering
Instructor(s)
Shimoyama Yusuke  Taniguchi Izumi 
Course component(s)
Lecture
Mode of instruction
 
Day/Period(Room No.)
Wed3-4(S611)  Fri3-4(S611)  
Group
-
Course number
CAP.C432
Credits
2
Academic year
2016
Offered quarter
3Q
Syllabus updated
2016/4/27
Lecture notes updated
-
Language used
Japanese
Access Index

Course description and aims

[Summary of Lecture] This lecture will focus on estimation method of phase equilibrium and transport property and fundamentals and theory of evaluation for powder property. Some exercises concerning theoretical calculation of phase equilibrium, transport property and powder property will be also conduct in this lecture.
[Aim of Lecture] This lecture aims for students to understand estimation method of phase equilibrium and transport property and fundamentals and theory of evaluation for powder property.

Student learning outcomes

[Target of Lecture] Target of this lecture is to understand how to analyze phase equilibrium, transport property and powder property.

Keywords

phase equilibrium, transport property, powder property, surface property

Competencies that will be developed

Specialist skills Intercultural skills Communication skills Critical thinking skills Practical and/or problem-solving skills

Class flow

This lecture will be conducted by two classes in a week divided as follows: [1] Analysis of transport property and powder property and [2] Analysis of phase equilibrium.

Course schedule/Required learning

  Course schedule Required learning
Class 1 Kinetic theory of gases and binary diffusivities in gas phase Derivation of the mean velocity of molecules and the mean free path by the kinetic theory of gases
Class 2 evaluation of binary diffusivities in gas and liquid phases Understanding of the estimation method for binary diffusivities in gas and liquid phases
Class 3 Viscosities of pure substance and multicomponent system Understanding of the estimation method of the viscosity in gas and liquid phases
Class 4 Thermal conductivities of pure substance and multicomponent system Understanding of the estimation method of the thermal conductivities in gas, liquid and solid phases
Class 5 Powders properties, such as particle diameter, particle shape and particle density Understanding of the definition of powders properties
Class 6 Surface properties of powder-1: surface energy and kelvin effect Understanding of the surface energy of the solid surface
Class 7 Surface properties of powder-2: wettability and adsorption on the solid surface Understanding of wettability and adsorption on the solid surface
Class 8 Surface properties of powder-3: specific surface area and pore size distribution Understanding of the principle of measurement of specific surface area and pore size distribution
Class 9 Estimation of pure component property by group contribution method To estimate property of pure component by group contribution method.
Class 10 Equation of state: van der Walls type equation of state To explain van der Walls type equation of state.
Class 11 Equation of state: virial type equation of state and corresponding state principle To explain virial type equation of state and corresponding state principle.
Class 12 Activity coefficient model: Regular solution theory To explain activity coefficient model based on regular solution theory.
Class 13 Activity coefficient model: local composition theory To explain activity coefficient model based on local composition theory.
Class 14 Modeling of vapor-liquid equilibrium To make a theoretical model of vapor-liquid equilibrium.
Class 15 Modeling of liquid-liquid and solid-liquid equilibria To make a theoretical model of liquid-liquid and solid-liquid equilibria.

Textbook(s)

None required.

Reference books, course materials, etc.

Materials provided in the class will be used.

Assessment criteria and methods

Score evaluation will be conducted by confirming the level of understanding estimation method of phase equilibrium, transport property and powder property (80%)and class participation (20%)

Related courses

  • CAP.C311 : Particle and Fluid Operation
  • CAP.C204 : Chemical Engineering Thermodynamics
  • CAP.C212 : Separation Operation
  • CAP.C541 : Advanced Nanoscale Chemical Process
  • CAP.C532 : Advanced Specific Environmental Process

Prerequisites (i.e., required knowledge, skills, courses, etc.)

No prerequisites.

Contact information (e-mail and phone)    Notice : Please replace from "[at]" to "@"(half-width character).

yshimo[at]chemeng.titech.ac.jp : Yusuke Shimoyama
itaniguc[at]chemeng.titech.ac.jp: Izumi Taniguchi

Office hours

Make a reservation by e-mail in advance.

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