Computational Programming Laboratory for Chemical Engineers Chem Engg 6th Sem Syllabus for B.Tech 2017 Regulation Anna Univ

Computational Programming Laboratory for Chemical Engineers detail syllabus for Chemical Engineering (Chem Engg), 2017 regulation is taken from Anna University official website and presented for students of Anna University. The details of the course are: course code (CH8611), Category (PC), Contact Periods/week (4), Teaching hours/week (0), Practical Hours/week (0). The total course credits are 4.

For all other chem engg 6th sem syllabus for b.tech 2017 regulation anna univ you can visit Chem Engg 6th Sem syllabus for B.Tech 2017 regulation Anna Univ Subjects. The detail syllabus for computational programming laboratory for chemical engineers is as follows.”

Course Objective:

• To give the students an understanding the fundamentals concepts in mathematics, problems solving and computer programming.

Software Required:

Ms Office (Excel) 10 User License

Matlab, Five User License

Aspen Plus/Hysys 10 User License

Suggested Exercises

1. Equations of state using Newtons method
2. Regression for parameter estimation using a set of data points
3. Equilibrium flash distillation (Multicomponent Ideal)
4. Batch Reactor
5. CSTR in Series Stage wise contacting equipment
6. Solving a simple flow sheet by simultaneous approach
7. Simulation of batch Distillation (binary ideal).
8. Gravity Flow Tank
9. Heat Exchanger
10. Plug Flow Reactor
11. Absorber

Specific Examples in Aspen/Hysys/Matlab/Excel

1. Solving equation of state, regression of parameters using EXCEL/MATLAB
2. Calculation of Reynolds number, friction factor and pressure drop using EXCEL/MATLAB
3. Calculation of heat transfer coefficient in a Heat Exchanger using EXCEL/MATLAB
4. Calculation of minimum Reflux ratio for binary/tertiary system in a fractionator using EXCEL/MATLAB
5. Calculation of HTU and NTU in a Absorber using EXCEL/MATLAB
6. Calculation of Antoines coefficient using EXCEL/MATLAB
7. Estimation of settling velocity of solids in liquids using Stokes law using EXCEL/MATLAB
8. Calculation of minimum number of stages in a distillation column using EXCEL/MATLAB
9. Solving mass and energy balance problems using EXCEL/MATLAB
10. Calculation of Power in Reciprocating compressor using EXCEL/MATLAB
11. Steady state simulation of Heat Exchanger using ASPEN PLUS/ HYSYS
12. Steady state simulation of a CSTR using ASPEN PLUS/ HYSYS
13. Steady state simulation of Flash vessel using ASPEN PLUS/ HYSYS
14. Steady state simulation of Distillation Column using ASPEN PLUS/ HYSYS
15. Steady state simulation of an Absorption column using ASPEN PLUS/ HYSYS
16. Dynamic simulation of Heat Exchanger using ASPEN PLUS/ HYSYS
17. Dynamic simulation of a CSTR using ASPEN PLUS/HYSYS
18. Dynamic simulation of Flash vessel using ASPEN PLUS/ HYSYS
19. Dynamic simulation of Distillation Column using ASPEN PLUS/ HYSYS
20. Dynamic simulation of an Absorption column using ASPEN PLUS/ HYSYS

Course Outcome:

• Students will be equipped with the software applications and the numerical solutions of chemical engineering problems.

Minimum 10 Experiments To be Offered

Text Books:

1. Bequette. B.W, Process Dynamics: Modelling, Analysis and Simulation, Prentice Hall (1998)
2. Himmelblau. D.M. and Bischoff. K.B, Process Analysis and Simulation, Wiley, 1988.
3. Strang.G. ,Introduction to Linear Algebra, Cambridge Press, 4th edition,2009.
4. William. Luyben, Process Modelling, simulation and control for Chemical Engineers, 2nd Edn., McGraw Hill International Editions, New York, 1990
5. Chapra.S.C. and Canale.R.P. Numerical Methods for Engineers, McGraw Hill, 2001.

For detail syllabus of all other subjects of B.Tech Chem Engg, 2017 regulation do visit Chem Engg 6th Sem syllabus for 2017 Regulation.

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