Basic Principles and Calculations in Chemical Engineering 2020

By ResearcherStore Categories: C-Science
Wishlist Share
Share Course
Page Link
Share On Social Media

About Course

Basic Principles and Calculations in Chemical Engineering (CE).

The objective of the course is to introduce Chemical Engineer students to the basic principles and calculation techniques used in the chemical industries and to acquaint them with the fundamentals of the material and energy balances as applied to Chemical Engineer processes.

The course is mainly intended for a graduate Chemical Engineer student. It will expose them to solve the problems in material and energy balances that arise about the problems involving different chemical process units. It also will introduce them to numerical methods used to solve the problems.

The course will introduce simple language and ample examples so that it will encourage learners to get used to the course.

INTENDED AUDIENCE: Chemical, Biochemical engineering Graduate Student/ Graduate Student of chemical science and Technology/Diploma in Chemical Engineering/Graduate in petroleum science and technology

Join now! 

Show More

What Will You Learn?

  • Week 1: Introduction Contents: Definition, history and role of chemical engineers
  • Week 2: Process Variables and Rate Contents: Variables and properties of material in systems
  • Week 3: Fundamentals of Material Balance Contents: Principles of material balance and its calculation
  • Week 4: Basic Principles of Compressible System Contents: State equation of ideal gas and calculation
  • Week 5: Basic Principles of Multiphase System Contents Phase equilibrium and Vapour Pressure
  • Week 6: Energy and Its Forms Contents: Principles of Energy
  • Week 7: Energy Balances on Non-reactive Processes Contents: The mechanical energy balance
  • Week 8: Energy Balances on Reactive Systems Contents: Energy balance with standard heat of reaction
  • Week 9: Balances on Unsteady State Processes Contents: Material balances of unsteady-state process
  • Week 10: Computational Techniques Contents: The methods of least squares
  • Week 11: Computer-aided Balance Calculations Contents: Degree of freedom analysis
  • Week 12: Case Studies on Chemical Process Contents: Case study-I on chemical process

Course Content

Basic Principles and Calculations in Chemical Engineering

  • Basic Principles and Calculations in Chemical Engineering [Introduction Video]
    00:00
  • Lec 1: Definition, History, Role of Chemical Engineer
    00:00
  • Lec 2: Basic Features of Chemical Process
    00:00
  • Lec 3: Unit systems and dimensions
    00:00
  • Lec 4: Variables and Properties of Material in System
    00:00
  • Lec 5: Pressure and Temperature of Flow Process
    00:00
  • Lec 6: Rate of Process
    00:00
  • Lec 7: Principles of material balance and calculation
    00:00
  • Lec 8: Material Balances on Processes with Recycle & Bypass
    00:00
  • Lec 9: Material balances on reactive processes
    00:00
  • Lec 10: Material balances on combustion reactions
    00:00
  • Lec 11: State Equation of Ideal Gas and Calculation
    00:00
  • Lec 12: State Equation of non-Ideal Gas and Calculation
    00:00
  • Lec 13 : Phase equilibrium
    00:00
  • Lec 14 : Equilibrium Laws, Humidity and Saturation
    00:00
  • Lec 15 : Humidity, Saturation Psychrometric chart
    00:00
  • Lec 16 : Process of phase change: Condensation and vaporization
    00:00
  • Lec 17 : Principles of Energy
    00:00
  • Lec 18 : Laws and properties of thermodynamics
    00:00
  • Lec 19 : Standard Heat of Formation
    00:00
  • Lec 20 : The mechanical energy balance
    00:00
  • Lec 21 : Enthalpy balances without reaction
    00:00
  • Lec 22 : Energy balance with multiplle streams without reaction
    00:00
  • Lec 23 : Energy balance on heat of solution
    00:00
  • Lec 24 : Energy balance with heat of reaction
    00:00
  • Lec 25 : Energy balance with heat of reaction (contd..)
    00:00
  • Lec 26 : Energy balance with heat of combustion
    00:00
  • Lec 27 : Material balance of transient process
    00:00
  • Lec 28 : Unsteady state energy balance
    00:00
  • Lec 29 : Least Square Method Linear equation fitting
    00:00
  • Lec 30 : Non-linear algebraic equation system
    00:00
  • Lec 31 : Numerical Integration
    00:00
  • Lec 32 : Process Degrees of Freedom
    00:00
  • Lec 33 : Process Flowsheeting and codes
    00:00
  • Lec 34 : Case Study: Cumene Production
    00:00
  • Lec 35 : Case Study: Cumene Production (Continuation)
    00:00

Student Ratings & Reviews

No Review Yet
No Review Yet
ResearcherStore

Want to receive push notifications for all major on-site activities?