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CH3511 - Computational Chemical Engineering Laboratory Syllabus Regulation 2021 Anna University

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Regulation 2021 Anna University Code – CH3511 deals with the semester – V Computational Chemical Engineering Laboratory Syllabus of B.Tech Chemical Engineering. Most of the semester syllabus tries to give both practical and theoretical knowledge to the students. To acquire the proper knowledge regarding the studies to prepare for the examination, need a detailed syllabus right?

This article will assist you in gaining most of the syllabus details. We tried our best to provide the required syllabus info. Chapter-wise syllabus along with reference books written by experts and textbooks added. Hence in this article CH3511 – Computational Chemical Engineering Laboratory syllabus, we include all the details regarding the examination. Students can easily get all the data regarding the syllabus on one page. Hope you will understand the syllabus. And All the best for your exams. Don’t forget to share it with your friends.

If you want to know more about the syllabus of B.Tech Chemical Engineering connected to an affiliated institution’s four-year undergraduate degree program. We provide you with a detailed Year-wise, semester-wise, and Subject-wise syllabus in the following link B.Tech Chemical Engineering Syllabus Anna University Regulation 2021.

Aim Of Objective:

The course is aimed to-
Solve chemical engineering problems from core courses using Excel, MATLAB, Polymath / problem-solving software tool and chemical process simulation software tool.

Suggested Exercises:

  1. Friction factor, pressure drop, minimum fluidization velocity calculations.
  2. Settling velocity, drag coefficient, Reynolds number estimations.
  3. Equation of state, activity coefficient, VLE data, equilibrium conversion calculations.
  4. Empirical equation in fluid flow, heat, and mass transfer operations.
  5. Solving a simple flow sheet by simultaneous approach.
  6. One, two and three-dimensional heat conduction equations.
  7. Differential equation for reactors in series, non-isothermal reactors, dispersion models, gravity tank.
  8. Partial differential equation involved in heat transfer, mass transfer, reaction engineering.
  9. First-order and second-order system in control system.
  10. Simulation of heat exchangers, Distillation, Absorber, Extraction column, reactors.
  11. Simulation of process plant/simple flow sheet.

Specific examples:

  1. Solving chemical Engineering Numerical problems (fluid flow, mechanical operations, heat transfer, mass transfer, thermodynamics and reaction Engineering problems) using Goal seek, solver, Regression functions of Microsoft Office Excel.
  2. Solve simultaneous equations in chemical engineering by Matrix method using Microsoft Office Excel.
  3. Solve differential equations in chemical engineering by Runge Kutta method using Microsoft office Excel
  4. Solving simultaneous equations, linear and non-linear equations and differential equations in Chemical Engineering using problem-solving software tool/Polymath
  5. Solving Simultaneous equations, Differential equations and Partial differential Equations in Chemical Engineering using MATLAB.
  6. Apply MATLAB Simulink tool to simulate Chemical process control systems with suitable examples.
  7. Predictions thermodynamics properties using PROCESS SIMULATION SOFTWARE TOOL
  8. Steady-state simulation of Heat Exchanger using PROCESS SIMULATION SOFTWARE TOOL
  9. Steady-state simulation of different types of Reactor using PROCESS SIMULATION SOFTWARE TOOL
  10. Steady-state simulation of Distillation Column using PROCESS SIMULATION SOFTWARE TOOL
  11. Steady-state simulation of an Absorption column using PROCESS SIMULATION SOFTWARE TOOL
  12. Dynamic simulation of Heat Exchanger using PROCESS SIMULATION SOFTWARE TOOL
  13. Dynamic simulation of different types of Reactor using PROCESS SIMULATION SOFTWARE TOOL
  14. Dynamic simulation of Distillation Column using PROCESS SIMULATION SOFTWARE TOOL

Text Books:

  • Finlayson, B. A., Introduction to Chemical Engineering Computing, John Wiley & Sons, New Jersey, 2006.
  • Michael B. Cutlip, Mordechai ShachamProblem Solving in Chemical and Biochemical Engineering with, Excel, and MATLAB, 2nd Edition, Prentice Hall, 2008.

References:

  • Pradeep Ahuja Introduction to Numerical Methods in Chemical Engineering PHI New Delhi, 2010.
  • Amiya K.Jana, Process Simulation and Control using Aspen, PHI New Delhi, 2012.
  • H.S. Fogler, Elements of Chemical Reaction Engineering, Third Edition, Prentice Hall of India, 1999.

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