ChE453 COMPUTER APPLICATIONS IN CHEMICAL ENGINEERING LABORATORY

1. Roots of nonlinear equations iterative methods:
   
   1. Bisection method
   2. False position method
   3. Newton Raphson method
   4. Secant method
2. Direct solution for set of linear equations:
   
   1. Gauss Elimination Method
   2. Gauss-Jordan method
   3. Matrix inversion method
   4. Triangular Factorization (L.U.Decomposition method)
3. Iterative solution for set of linear equations:
   
   1. Jacobi's method
   2. Gauss Seidel method
4. Regretion analysis:
   
   1. Fitting Linear equation
   2. Fitting Transdental equations
   3. Fitting a polynomial function
5. Numerical differentiation:
   
   1. Forward difference quotient
   2. Central difference quotient
   3. Backward difference quotient
6. Numerical integration:
   
   1. Trapezoidal rule
   2. Simpson's 1/3 Rule
   3. Simpson's 3/8th rule
7. Numerical solution of ordinary differential equations:
   
   1. Taylor series method
   2. Euler's method
   3. Heun's method
   4. Polygon method
   5. Runga-Kutta method
8. Predictor and corrector methods:
   
   1. Milne-Simpson method
   2. Adam Bash forth method
9. Rating of shell and tube heat exchanger using Aspen Plus software.
10. Rating of Distillation column using Aspen Plus software.
11. Simulation of Recycle Processes.
12. Simulation of PFR and CSTR.