Modules Catalogue Second Stage Chemical Dep.

Code

Course/Module Title

ECTS

Semester

CHPR201

Engineering Mathematics I

5

3

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

1

58

67

Description

Partial Derivatives: Functions of two or more variables, Limits and continuity (to be given briefly ), Partial Derivatives (higher orders ), Leibniz rule (differentiation under the integration ) with application as an, Integral method, Chain rule, Jacobian and Jacobian theorem. Vector Analysis: Introduction to Vectors, Dot and cross product, Parametric equations of Line, Planes in 3-Space, Vector Functions, Gradient, Curl and Divergent, Laplacian differential Operator. Multiple Integrals: Double Integrals, Double Integrals to calculate the area and the volume, Double Integrals in Polar coordinate, Triple Integrals, Triple Integrals in Cylindrical Coordinate, Triple Integrals in Spherical Coordinate, Change of Variables in Multiple Integrals, Jacobians, Line integral. Theorems in Vector Calculus: Green’s theorem, The Divergence Theorem, Stokes’ Theorem. 

Code

Course/Module Title

ECTS

Semester

CHPR202

Principles of Process Design I

5

3

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

2

58

67

Description

Flow sheet of process design, type of flow sheets and symbols, block diagram, piping system and control system, utility flow sheet, unit layout, project evaluation and survey, land selection, cost estimation, pumps and piping system, pipe fitting, valves, steam traps, selection of metal type of pipes, vessels and tanks. Introduction to Aspen Hysys.

Code

Course/Module Title

ECTS

Semester

CHPR203

Physical Chemistry for Chemical Engineers

5

3

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

1

58

67

Description

The First Law, Properties of Gases, Heat and Work, Equations of State and Intermolecular Forces, First Law and Working with State Functions, Process Paths, Adiabatic Processes, Second Law, Entropy, Second Law, Process Cycles, Efficiency, Process Cycles, Efficiency, Spontaneity, Free Energy, Spontaneity, Free Energy, Maxwell’s Relations, Maxwell’s Relations and Chemical Potential, Phase Diagrams and Phase Transitions, Thermodynamics of Mixtures, Ideal and Regular Solutions, Activity Coefficients, Binary Systems, The Boltzmann distribution; Quantized energy, Particle-Wave Duality, the Wavefunction, Schrodinger’s Equation, Operators, QM Postulates, Quantized translation and Confinement (1D), 2D and 3D translation, Boltzmann revisited: Translational partition, monatomic

Gas.

Code

Course/Module Title

ECTS

Semester

CHPR204

Fluid Mechanics

6

3

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

4

100

50

Description

Non – dimensional analysis, static fluid, pressure of fluids, force applied by a fluid, immerged bodies, types of fluid flow, Bernoulli’s equation, Reynolds number, friction factor and pressure drop in pipes and packed column. Flow in open channel, flow in concentric tubes, pumps, NPSH, pump efficiency, flow and pressure measurement, non–Newtonian fluid, friction factor and pressure drop in pipes for non–Newtonian fluids.

Code

Course/Module Title

ECTS

Semester

CHPR205

Computer Programing

5

3

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

3

72

53

Description

Introduction to Information, Technology and Computers, MATLAB interface, user input and output, variables, operators, Selection – if statements, Repetition – while loops, break, continue, Repetition – for loops, Series and patterns, Functions / debugging, Vectors and Matrices , Strings, Images, Engineering Applications.

Code

Course/Module Title

ECTS

Semester

CHPR206

Strength of Material

4

3

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

0

30

70

Description

Definition of stress and strain, Types of stress and strain, Simple stress, Shear stress, Stress in cylinders, Simple strain, Thermal stress, Stress-Strain diagrams, Proportional limits, Hook law, Poisson’s ratio, composite stresses, volumetric stress, bulk modules, Thin walled Cylinders, Shear and moments in beams, Deformation in beams, Equations of stress and momentum in beams, Curves of stress and momentum in beams, Wind effect on high towers.

Code

Course/Module Title

ECTS

Semester

CHPR207

Environment and Industrial Safety

4

5

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

0

44

56

Description

Environmental regulations and compliance:

Overview of environmental regulations and legislation relevant to the petroleum industry, such as air quality standards, water quality standards, and waste management regulations. Understanding the role of regulatory agencies and their enforcement mechanisms. Compliance requirements for refineries regarding emissions, effluents, and waste disposal.

Pollution control measures:

Air pollution control techniques in refineries, including control of volatile organic compounds (VOCs), particulate matter, and sulfur compounds. Water pollution prevention and treatment methods, including wastewater treatment processes and oil-water separation techniques. Soil and groundwater contamination prevention and remediation measures.

Waste management and disposal:

Management of various types of waste generated in refinery operations, such as hazardous waste, non-hazardous waste, and byproducts. Treatment and disposal options for different types of waste, including recycling, incineration, and landfilling. Importance of waste minimization, recycling, and resource recovery in sustainable refinery operations.

Safety protocols and risk assessment:

Understanding the importance of safety culture in refinery operations.

Hazard identification and risk assessment techniques (such as HAZOP, HAZID, and FMEA) to identify potential hazards and assess their severity and likelihood. Occupational health and safety considerations, including personal protective equipment (PPE), ergonomics, and emergency response planning. Process safety management (PSM) systems and practices, including risk mitigation strategies, safety audits, and incident investigation.

Code

Course/Module Title

ECTS

Semester

CHPR208

Principles of Process Design II

6

4

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

3

72

78

Description

Introduction to Process Modeling, Course objectives, Introduction to Aspen HYSYS, user interface and getting help, environment I: physical properties, environment II: introduction to flowsheet, basic – unit operation models, basic reporting of data and results, worked case studies (I, II, and III), individual case studies, course conclusion.

Code

Course/Module Title

ECTS

Semester

CHPR209

Electrical Technology

5

4

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

3

72

53

Description

Theory of electricity, idea of electric potential, resistance, Ohms Law, resistance in series & potential, equivalent resistance, Open & short circuits, Kirchhoff's law, voltage and current divider circuits. Work, power and energy, heating effect of electric current, Joules law of electric heating, thermal efficiency. Electrical instruments and measurements, DC potentiometer, whetstone bridge, universal bridge. AC fundamentals. Electromagnetic circuits, Laws of magnetic circuits, B-H Curves.

Practical: Ohms Law, Kirchhoff's Law, ammeter and voltmeter, measurement of internal resistance, oscilloscope system.

Code

Course/Module Title

ECTS

Semester

CHPR210

Petroleum Fluid Mechanics

5

4

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

3

86

39

Description

Petroleum liquids transmission, Petroleum gases transmission, Crude and Petroleum products pipelines, Calculation of Pressure drop in pipelines, Heating and pumping stations, Two-phase flow: Types and applications, Pressure vessels and tanks, Selection of materials for vessels and pipelines.

Code

Course/Module Title

ECTS

Semester

CHPR211

Engineering Mathematics II

6

4

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

3

1

58

92

Description

Series: Infinite series,  Algebraic properties of infinite series,  Convergence and divergence tests,  Ratio test, Power series, taylor and Maclaurin. Solutions of Differential Equations:  1st order and 1st degree of differential equations, Variables Separable, Reduction to Variables Separable, Homogeneous equation, Exact Equations Reduction to Exact Equations, Integrating Factors, Bernoulli Equation, Transformation of Nonlinear Equations into Separable Equations, Linear Equations with constant coefficients (Linear Second Order Equations): General solution of Homogeneous equation, particular solution of non-homogeneous equations,  Series Solutions of Linear Second Order Equations: Series Solutions Near an Ordinary Point I, Series Solutions Near an Ordinary Point II, Regular Singular Points Euler Equations, The Method of Frobenius I, II and III, Introduction to Systems of Differential Equations.

Code

Course/Module Title

ECTS

Semester

CHPR212

Baath's crimes in Iraq

2

4

Class (hr/w)

Lect/Lab./Prac./Tutor

SSWL (hr/sem)

USWL (hr/w)

2

0

30

20

Description

مفهوم الجرائم واقسامها , تعريف الجريمة لغة واصطلاحا, جرائم نظام البعث وفق توثيق قانون المحكمة الجنائية العراقية العليا عام 2005 م , أنواع الجرائم الدولية, الجرائم النفسية ,اليات الجرائم النفسية, الجرائم الاجتماعية, موقف المظام البعثي من الدين, انتهاكات القوانين العراقية, الجرائم البيئية لنظام العث في العراق , التلوث الحربي والاشعاعي وانفجار الألغام, تجفيف الاهوار, جرائم المقابر الجماعية, احداث مقابر الإبادة الجماعية, التصنيف الزمني لمقابر الإبادة الجماعية.