Modules Catalogue Third Stage Chemical Dep.

Code

Course/Module Title

ECTS

Semester

CHPR301

Mass Transfer I

6

5

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

1

58

92

Description

Molecular diffusion, Steady state diffusion in binary and multicomponent gases and liquids, mass transfer theories, Convective mass transfer and mass transfer coefficients, diffusion through a variable area, Interphase mass transfer, The overall mass transfer coefficient, Gas-liquid contacting equipment: Gas absorption and stripping, Binary distillation; batch, continuous.

Code

Course/Module Title

ECTS

Semester

CHPR302

Heat Transfer I

5

5

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

1

58

67

Description

Heat conductance, One-dimensional steady state conduction, Radial systems (cylinder and sphere), Overall heat transfer coefficient, Critical thickness of the insulator, Fins, Two-dimensional steady state conduction.

Code

Course/Module Title

ECTS

Semester

CHPR303

Chemical Process Modeling and Optimization

5

5

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

3

72

53

Description

Introduction to Process Modeling: Overview of process modeling and its importance in chemical engineering. Types of models used in chemical engineering (e.g., empirical, mechanistic, phenomenological). Role of modeling in process design, optimization, and control. Model building; review or ordinary differential equations; Bessel functions; Laplace transforms; Sturm-Liouville systems; solution to partial differential equations by separation of variables, similarity solutions, and Laplace and Fourier transforms

Code

Course/Module Title

ECTS

Semester

CHPR304

Chemical Engineering Thermodynamics

5

5

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

1

58

67

Description

Basic definition, 1st law of thermodynamic for open and closed system under steady and unsteady flow, reversible and irreversible processes, heat capacity, relation of temperature, pressure and volume with critical point, ideal gas behavior, Maxwell’s relations, throttling process, 2nd law of thermodynamics. Heat engine, Carnot cycle, entropy and 2nd law, lost work, entropy calculation, freezing system and heat pump. Raoult’s law for an ideal system. VLE calculations for an ideal system. Equilibrium flash calculations for ideal systems. Modified Raoult’s law and flash calculations for a non-ideal system.

Code

Course/Module Title

ECTS

Semester

CHPR305

Chemical Engineering Economics

4

5

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

0

30

70

Description

Estimation of cost of the industrial projects, Factors affecting the production cost and investment, Capital investment, Cost index, Calculation of capital investment,  Profit and cost of investment, Types of profit payment, Deprecation  calculation methods, Optimum design, Cost of mass and heat transfer equipment.

Code

Course/Module Title

ECTS

Semester

CHPR306

Chemical Engineering Data Analytics

5

5

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

3

86

39

Description

Introduction to Data Analytics in Chemical Engineering

Overview of data analytics and its applications in chemical engineering, Importance of data-driven decision-making in industry,

Data Collection and Preprocessing

Data types and formats commonly encountered in chemical engineering, Data collection methods and sources, Data cleaning and preprocessing techniques (e.g., missing data handling, outlier detection),

Exploratory Data Analysis (EDA)

Descriptive statistics and data visualization techniques, Data summarization and feature engineering, Identifying patterns and relationships in data,

Statistical Analysis and Hypothesis Testing

Probability distributions and statistical inference, Hypothesis formulation and testing, Regression analysis and correlation,

Machine Learning Fundamentals

Introduction to machine learning algorithms, Supervised learning (classification and regression), Unsupervised learning (clustering and dimensionality reduction),

Predictive Modeling

Model evaluation and selection, Feature selection and regularization, Model performance metrics,

Data Mining and Pattern Recognition

Association rule mining, Sequential pattern mining, Text mining and sentiment analysis,

Time-Series Analysis

Time-series data characteristics and preprocessing, Time-series forecasting techniques, Seasonality and trend analysis,

Big Data Analytics in Chemical Engineering

Introduction to big data concepts and technologies, Handling large-scale data sets in chemical, engineering, Scalable analytics and distributed computing frameworks

Case Studies and Applications

Application of data analytics techniques in chemical engineering, Real-world case studies and projects

Ethical considerations and challenges in data analytics

Code

Course/Module Title

ECTS

Semester

CHPR307

Mass Transfer II

6

6

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

1

58

92

Description

Distillation in a packed tower, Liquid-Liquid extraction, Solid-Liquid extraction, Humidification and water cooling, Drying tower, Evaporation, Single and multiple effect evaporator, Crystallization, Adsorption and Ion exchange.

Code

Course/Module Title

ECTS

Semester

CHPR308

Heat Transfer II

6

6

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

4

100

50

Description

Unsteady state conduction, Heat convection, Natural and forced convection, Thermal boundary layer, Laminar and turbulent heat flow transfer inside and outside tubes, Heat exchangers, Heat transfer with phase change: boiling, condensation, Heat transfer by radiation. 

Code

Course/Module Title

ECTS

Semester

CHPR309

Numerical Methods in Chemical Engineering

6

6

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

4

100

50

Description

Approximation of functions interpolation and extrapolation of techniques; forward, backward and central difference, error approximation; Numerical integration – Newton Cotes Integration technique, Simpson’s 1/3rd and 3/8th rule, trapezoidal rule, Gaussian quadrature; Multiple Integral solution of Non-linear equation, bisection methods, regular-falsi method, Newton-Raphson methods, Euler’s method, Euler’s modified iteration technique, Picard's method, Runge-Kutta 4th order technique, Taylor series method; Solutions of ordinary differential equation (initial and boundary value problem) Linear programming.

Code

Course/Module Title

ECTS

Semester

CHPR310

Industrial Management and Planning

4

6

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

0

44

56

Description

Introduction and History, Company and Organization, Facility Location and Layout Planning, Operation Planning and Control, Marketing and Distribution, Total Quality Management, Project Management, Maintenance Management, Financial Management, Human Resources, Other Topics and Recent Trends in Management.

Code

Course/Module Title

ECTS

Semester

CHPR311

Natural Gas Technologies

4

6

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

0

44

56

Description

Introduction to natural gas industry; Physical and chemical properties of Natural gas, Gas processing units, Drying of Natural gas, Acid gas sweetening, LPG, LPG recovery and condensate stabilization, Process flow schemes and product specifications. Production of Hydrogen, Sulfur recovery from acid gases.

Code

Course/Module Title

ECTS

Semester

CHPR312

Engineering Professionalism and Ethics

4

6

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

0

30

70

Description

Course introduction and overview, Morals and ethics, Comparison of ethics and engineering ethics, Ethics at personal and student level, The concept of professions, The importance of ethics in science and engineering, The role of codes of ethics, Professional responsibilities of engineers, The concept of morality, The importance of core values, Moral/ethical dilemmas and hierarchy of moral values, Factors affecting moral responsibility, and degrees of responsibility, Overview of ethical theories and applications, Basics of ethical analyses and decision-making, Ethical analyses and decision-making, The importance if intention, Truth (personal and social), The concept of whistleblowing, Ethical leadership in engineering and society, Conflicts of interests. Engineers in organizations, Ethics in the workplace, Fairness (personal and social).