Refrigeration and Air conditioning Engineering
- 2025
- 2022
- 2019
- 2018
- 2007
- 2003
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 8239 | Skills for Life | 2 | he transition from high school to university can be a challenge for many students. Learning expectations are different. The student must play a more effective role in the learning process and assume greater responsibility, and he must adapt to the new learning culture very quickly. This course is designed to assist the student in the transition process more easily and to increase and develop important life skills related to the student's personal behaviors, so that he is better prepared for his academic and professional career. This course focuses on self-awareness, personal growth, and building positive relationships with others. Through these skills, along with the desire and dedication to learn, and the desire to help others, a student can be successful at the university, able to make significant contributions to his family, employers, societies and the world at large |
| 8988 | Computer Principles | 3 | |
| 8992 | Computer Skills LAB | 1 | |
| 8996 | English A2 | 0 | |
| 8997 | English B1 | 3 |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4001 | Arabic Language | 3 | This course covers a various number of linguistic issues in Arabic language. It aims to provide the student with a high level of skills and practices that would contribute to promote his language abilities either spoken or written. |
| 4002 | Islamic Culture | 3 | This course is designed to emphasize a group of principles and thoughts that affect human attitudes to life from an Islamic point of view. It stresses the direct relationship between man and Allah, and aims at improving this life by liberating the human |
| 4320 | Modern History of Palestine | 3 | This course is designed to acquaint students with the process of writing, and the mechanisms of proofreading and revision so that the focus is on the mechanics of writing and development, such as cause and effect and comparison and classification and deal |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4004 | Calculus 1 | 3 | Functions, Limits and Continuity, Definition of Derivative, Differentiation Rules, Applications of the Derivative, Definite and Indefinite Integrals, Fundamental Theorem of Calculus, Applications of Definite Integral. |
| 4005 | Calculus 2 | 3 | The Calculus of Transcendental Functions, Techniques of Integrations, Sequences, Infinite Series, Power Series, Conic Sections, Polar Coordinates. |
| 4006 | Physics 1 | 3 | Physical quantities, Units, Vectors and Scalars, Motion in one dimension, Motion in two dimensions, Newton’s laws of motion and dynamics, Work and Energy, Conservation of Energy, Conservation of linear momentum and collision, Center of mass and moment of |
| 4008 | Chemistry 1 | 3 | Matter, its Properties and Measurement, Development of the Atomic Theory, Stoichiometry; Elements and Compounds, Chemical Reactions, Gases, Thermo chemistry, Electrons in Atoms, Atomic Properties and Periodic Table |
| 4009 | Chemistry Lab1 | 1 | Introduction to chemical lab and use of chemical balances, Boiling point elevation, Density determination, Melting point, Stoichiometry of two reactions, Water of Hydration, Molecular weight of a volatile liquid, Identification of six solutions, Volumetric |
| 4015 | Methods of Scientific Research | 2 | The course covers concepts and definitions of science, science goals, related terminologies (assumptions, hypothesis, theory, law) and scientific research. It describes processes of scientific approach and literature review with training on searching for references and citations. It introduces how research problems and hypothesis are selected, defined, stated and evaluated. The course then discusses experimental approach and descriptive approach, and presents research tools including experiment, observation, questionnaire and interview. It also highlights engineering research approach (e.g. simulation); as time permits. Within this context, the student practices preparing research proposal. The course includes few assignments on the various topics and a term report on proposal writing. |
| 4068 | Physics 2 | 3 | Electric charges and fields, Gauss’s law, Electric potential, Capacitors, Current resistance and Circuits, Magnetic fields, Ampere’s law, Faraday’s law, and Finally Inductance. |
| 5059 | Computer Programming | 3 | |
| 5060 | Engineering Drawing | 2 | The course begins by developing students’ freehand drawing skills, enabling them to accurately represent geometric shapes without drawing instruments. This practice enhances visual perception and understanding of dimensions and projections. Following this, the course provides fundamental training in engineering drawing, covering basic principles and 2D drafting concepts. Topics include an introduction to engineering drawing and its tools, practice in writing Arabic and English letters and numbers in technical drawings, and familiarization with types of lines and dimensions. The course also includes geometric operations and their applications, understanding various types of projections, and applying projection techniques—particularly the scientific derivation of the third view. Additional topics include sectional views and drawing isolated engineering objects. |
| 5061 | Engineering Workshop | 2 | This course aims to train students in manual engineering skills such as filing, sawing, drilling, chiseling, riveting, threading, as well as skills related to color mixing, cutting, and engraving on glass and wood, and the creation of metal and wooden models. It also includes exercises in electric arc welding, in addition to training in domestic electrical installations. Furthermore, students will learn the essential industrial safety protocols that must be followed in workshops and industrial sites. |
| 8130 | Eng. Economics & | 2 | Introduction to management, importance of management, characteristics of management. Management process. Management of Human Resources. Strategic Planning, SWOT Analysis & balanced Scorecard. Project management, networks, critical path. Inventory system |
| 30092 | English for Engineers | 3 | |
| 30093 | Engineering Ethics | 1 | |
| 30104 | General Physics Lab. | 1 |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4024 | Applied Mechanics ( Statics ) | 3 | Introduction to Statics, Force Systems, Equilibrium of particles and rigid bodies, Analysis of Trusses, frames and Machines, Distributed Forces, Centroids and center of gravity, Moments of inertia, Shear force and bending moment diagrams for loaded beams. |
| 4025 | Applied Mechanics ( Dyn.) | 3 | Kinematics of particles and Kinematics of rigid bodies (Rectilinear Motion, Plane Curvilinear Motion, Relative and Absolute Motion). Kinetics of particles (Force – mass – acceleration method – work – energy method – Impulse – Momentum method). Kinematics of rigid bodies. |
| 4027 | Strength of Materials | 3 | Application of section method, Stress Components. Strain Components, stress–strain diagrams, Hook’s low. Poisson’s ratio, deformations of an axially loaded member, Thermal stress. Torsion, diagrams of internal forces, Binding streses in Beams, shearing. Stresses in beams. Compound Stress. Deflection of Beams, Buckling of columns. |
| 4030 | Manufacturing Processes | 3 | Basic Manufacturing processes. Nature and properties of engineering materials. Production of metals. Foundry processes and special casting processes. Welding. Plastic. Hot and cold forming. Powder metallurgy and special forming processes. Material removal technology. Special material removal processes. Heat treatment of metals. Surface cleaning and finishing processes. |
| 4031 | Fluid Mechanics | 3 | General concept of fluid and non-fluid substances, fluid properties, Newtonian and non-Newtonian fluids, properties of the atmospheric fluid, standard conditions, fluid statics, hydrostatic correlations and their applications, fluid kinematics, fluid flow shapes and their relations to velocity and acceleration, Reynolds’ experiment of fluid flow, Laminar and Turbulent fluid flow, Reynolds Number, Continuity equation, fluid dynamics, Bernolli equation, energy equation, momentum equation, flow through pipes, friction in pipes, Darcy equation, pressure losses in pipes and fittings, criteria of power transmission in pipes, dimensional analysis. |
| 4035 | Materials Science | 3 | It starts with various levels of structures including atomic and microscopic, and bonding. Various types of crystal structures and defects are covered in details, together with summarized diffusion concepts. Then, the course presents various physical and mechanical properties linked to these structures and applications. Then, it covers the various types of phase diagrams: its establishing and its use in engineering processes and applications. The course concludes by presenting various thermal processes for phase transformation and manipulating properties, and with an introduction to other types of engineering materials such as plastics and ceramics. |
| 4043 | Differential Equations 1 | 3 | First order differential equation. The existence and uniqueness theorem differential equation of Higher order, Lap face transform. Using lab face transform in solving differential equation. Power series solution of differential equation. |
| 4048 | Machine Design 1 | 3 | |
| 4341 | Measurement Sys. and Sensors | 3 | Introduction to measurement and instrumentation, instruments performance and terminology, basic concepts of experimentation and sensors classification, analysis of experimental data, static and dynamic performance characteristics of instruments, electrical measurements and sensing devices, displacement and acceleration measurements, pressure measurements, flow measurements, temperature measurements, force and strain measurements, motion and vibration measurements, modern measurement systems (Vision, Touch, Smell, etc), signal conditioning and analysis techniques. Use of laboratory equipments and software (sensors, DAQs, LabView, etc.). |
| 4449 | Math and Simulation for Engineers | 3 | Engineering Mathematics seems to be the most important tool in connection with the modeling and analysis of practical or physical problems in mechanical engineering. It is a very basic course for mechanical engineering students and consists of: Vector functions (graphing, their limits, their derivatives, their integration and their applications), Multi variable functions(graphing, their limits, their derivatives, their integration and their applications), Polar and cylindrical coordinates, Double and triple integration, Vector derivation, Surface integration Gauss and Stokes theorem, Complex variables, Integration of Complex Variables, Fourier Transforms with Applications, Mathematical Modeling of Boundary Value Problems of Partial Differential Equations, Heat equation, Wave and Diffusion Equations. Implementing most of the above topics by simulation using Matlab software. |
| 4454 | Thermal Power and Heat Transfer | 3 | Introduction to thermodynamics heat transfer; concepts of work and heat; first law of thermodynamics; second law of thermodynamics; gas mixtures and properties; conduction: one-dimension, two-dimension, steady-state, and transient heat transfer; convection heat transfer: natural, forced, internal, and external heat transfer heat. Radiation heat transfer; boiling and condensation heat transfer; basics of heat exchanger design. |
| 4457 | Machine Dynamics and Vibrations | 3 | Introduction, classifications of mechanisms, kinematics inversion, mobility, mechanical advantage, review of kinematics of mechanisms, synthesis of mechanisms, force analysis of mechanisms including inertia effect of linkages of reciprocating and rotating machinery (slider crank mechanism, four bar linkage). balancing of machines (for rotating masses and for reciprocating masses), gears and gears train, flywheel design, free vibration of single degree of freedom system, damping ratio, harmonically excited vibrations of single degree of freedom systems, vibration isolation, free vibrations of two degree of freedom systems (natural frequencies and mode shapes), harmonically excited vibrations of two degree of freedom systems, vibration absorbers, applying Lagrange equation to derive the differential equations of multi degree of freedom systems. |
| 4458 | Control Systems | 3 | This course consists of three parts; Part A: Introduction, transfer function, poles, zeros. Block diagram reduction including disturbance inputs. State variables: State space from differential equations, state space from transfer function, transfer function from state space, time response from state space. Performance parameters of closed loop system: time response, damping ratio, natural frequency, percentage overshoot, settling time, rise time, peak time, steady state error. Stability tests of linear system: eigenvalues tests, Routh table. Root locus techniques. Part B: Continuous time classical controllers design: P, PD, PI, lead, lag, and lag-lead via root locus method. Part C: Sampled data, difference equations, z-transform review, Nyquist frequency (sampling theorem), digital controller design using discrete equivalent; hands-on experience covers basic applications in control systems laboratory. |
| 5087 | Linear Algebra & Numerical Methods | 3 | Systems of linear equations and matrices: Gaussian elimination, Gauss-Jordan elimination, Elementary row operations and homogeneous systems, Matrices: Operation on matrices, Inverse of a matrix, Equivalency of matrices, Symmetric matrix, Determinants, Vector spaces: Subspaces, Linear independence, Basis and representation, Dimension of vector spaces, The row space and the column space of matrix, Direct sum, Linear transformation: Linear operator, zero transformation and matrix transformation, Kernal and range of a transformation, Representing linear transformation by matrices, Eigenvalues, Eigenvectors, Diagonalization, Quadratic form, Orthonormal matrices, Applications to mechanical and electrical systems, Number representation and Errors, Locating Roots of Equations, Interpolation and, Numerical differentiation, Numerical Integration, Systems of Linear Equations, Approximation by Spline Functions, Ordinary differential equations, Smoothing of Data and the method of least squares. |
| 5089 | Mechanical Drawing Using Computer | 2 | Introduction to Mechanical Drawing (2D-3D), using computer to design and drawing of mechanical components such as (Nuts, Screws, Bearing, Joins, Gears, shafts, Springs, …), Design of Mechanical Parts, Assembly Design of Mechanical Parts, Shape Design of mechanical Parts. Using AUTOCAD and CATIA 3D-modeling |
| 8599 | Math and Simulation for Engineers /LAB | 1 | This Lab.introduces the student to learn the basic and the advanced Matlab operations , coding and simulink methods. Implemnt the numerical methods (using Matlab) in solving differential equations, integration, Laplace, multivariable integrals, single and multivariable vector valued functions applications and fourier transforms. |
| 30252 | Thermodynamics and Fluid Mechanics Lab | 1 | |
| 30253 | Mechanics and Materials Science Lab | 1 | |
| 30254 | Lathe Workshop | 1 | |
| 30255 | Welding and Eectrical Workshop | 1 |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4132 | Field Training 1 | 0 | This course aims to train the students in related to the specially community institutions on engineering basic competencies such as safety, technical terminology, aclministrative rules and layouts, drawings and energy analysis and protection. |
| 4133 | Field Training 2 | 0 | This course aims to train the students in related to the especially community institutions on technical competencies related to his area specialty during process function and productivity, and do all analysis studies related to specialty. Preparing the student for the stage of work. |
| 4304 | Introduction to Graduation project | 1 | General concepts and objectives of graduation project. Availability of information and resources. Scientific research. Computers in scientific research. Writing up graduation thesis. Proposed graduation project. Guide lines and preparations. |
| 4305 | Graduation Project | 3 | In this part of the project students must implement and test the design described in the “Introduction to Graduation Project”. |
| 4459 | Introduction to Microcontrollers | 3 | Introduction to digital and microcontroller circuits: logic gates, flip-flops, decoders, multiplexers, counters, shift registers, memories, latches, buffers, basics of microcontroller hardware and software for embedded control applications. Interfacing with input-output devices (sensors and actuators), signal isolation, signal amplification and filtration, A/D and D/A conversion, microcontroller programming using C language, controller realization and implementation using microcontroller: second-order modules, first-order modules, higher-order modules, choice of sampling interval, applications as well as hands-on experiments for analyzing and testing digital and microcontroller circuits. |
| 4461 | Applied Thermodynamics | 3 | Fundamentals of engineering thermodynamics: properties, procedures, basic laws, standard engines and turbine cycles; Cycle analysis for gas (eg Otto, diesel, Stirling, and Brayton cycles), steam (eg Rankine cycle) and combined power cycles; refrigeration cycles and heat pumps; ideal and real gas relations; gas mixtures. Fundamentals of thermodynamics of combustion. |
| 4924 | Air Conditioning | 3 | Definition, psychometry, psychometric processes of humid air and representation on psychometric chart, heating and cooling loads estimation, ventilation, air conditioning systems design, air filters, fans, air-duct design and air outlets. |
| 4926 | R.& A.C. Control Systems | 2 | Definitions, basics of automation theories , functions air conditioning and refrigeration automation, automation of temperatures, fluid levels ,pressure and flow, automation of evaporators, condensers, compressors, automation of vapor compression refrigeration systems , basics and diagrams , application project. |
| 5022 | Architural Drawing | 1 | |
| 5023 | Heating workshop | 1 | Steel pipes, production material, threading, cutting, assembling with fittings and installation. Types of fittings and dimensions ( blue rent-reading), central heating net pipes testing. Types of central heating radiators, cast Iron, aluminum and steel types, assembling and installation, forced type (Fan coil system). Cast iron and steel boilers, assembling, working and installation, control and types of thermostat. Diesel and gas burners types, working and maintenance . Central heating heat exchange systems working and installation. |
| 5096 | Microcontroller Lab | 1 | |
| 5589 | Electrical Machines (I) | 3 | Introduction to Electrical machines: Machines classification & construction. Mechanical torque & power, magnetic field, poles, and developed torque. Efficiency, losses, power diagram, and regulations. Transformers: Construction of transformers, principle of operation, and main voltage equations. Equivalent circuits single phase transformers, and voltage regulation, Autotransformer, 3-phase transformer. Direct Current Machines Electric: Construction of DC machines (motors & generators). Circuit model & torque development, field excitation & armature reaction. Mechanical performance of dc motors. Speed regulation of dc motors, energy diagram & efficiency. Starting & braking of dc motors. Voltage regulation of dc generators Single- Phase Induction machines and special motors: Construction of single- phase machines, classification, and principle of operation. Mechanical performance of single phase induction motors. Capacitor motors, Shaded pole motors, Universal motors, and Special jobs motors. |
| 8232 | Mechanical and sanitary systems for buildings | 3 | Water and its uses in buildings, concepts and principles of plumbing, cold and hot water systems, sewage disposal systems, storm drainage systems, fire fighting systems, swimming pools,gas systems. |
| 8233 | HVAC Design | 2 | |
| 8234 | HVAC Application | 1 | Different softwares dealing with design calaculations and drawings, applied to HVAC'R. Such as RIVET. |
| 8235 | Ref. & AC automation workshop | 1 | Introduction to Control Systems, Sensors, Expansion Devices , Regulators in AC & Ref. Cycles, Accessories in AC & Ref. Cycles, Pressure Switches, Mechanical and Electronic (Digital )Thermostats, Classic Control, Programmable Logic Controller (PLC) , Practical Applications. |
| 8250 | Industrial controllers and Networks | 3 | Introduction to PLC: components, operation and input/output interfacing. Programming languages: LADDER Logic (LD), Function Block Diagrams (FBD). Instructions: set, reset, edge detection, timers, counters and comparators. Analog input and output. PLC applications using training modules and simulation software. introduction to computer networking: network components, networks protocols. Industrial networking protocols and applications (e.g. Modbus TCP/IP, CANopen). |
| 8792 | Refrigeration | 3 | Physical background of low temperatures technique , properties of refrigerants, applications of refrigeration, single stage vapor compression refrigeration cycle, refrigeration compressor ,condensers, evaporators , expansion valves and accessories. Refrigerating load calculations , project. |
| 8793 | Advanced Refrigeration | 2 | Multistage refrigeration cycles, cascade refrigeration cycle, gas refrigeration cycles, thermoelectrical refrigeration cycles, vapor jet refrigeration cycle , absorption refrigeration cycle, multi refrigerant low temperature cycles, project. |
| 8794 | Advanced Thermodynamics and Heat transfer | 3 | Unsteady thermodynamics and Heat Transfer, Mass and Energy Balance of Unsteady-flow Processes, Entropy, Entropy relations, Exergy and power potential. |
| 30259 | Electrical and Electronic Circuits Analysis | 3 | |
| 30260 | Electrical and Electronic Circuits Analysis Lab | 1 | |
| 30261 | Refrigeration and Air Aonditioning Workshop | 1 | |
| 30262 | Refrigeration and Air Conditioning Lab | 1 |
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| Course No رقم المساق | Course Name اسم المساق | Credit hours الساعات المعتمدة | Course Description وصف المساق |
|---|---|---|---|
| 4020 | Energy Conversion Systems | 3 | Energy concept and types, main energy sources, energy demand and doubling time, principals of energy conversions, conventional energy conversion system, non-conventional energy conversion systems, renewable energy sources and their utilization and conversion, environmental impact of energy conversion, energy policies. |
| 4022 | Computer Aided Manufacturing | 3 | CIM definition, CIM environment, CIM benefits. Components of a CIM architecture; Numerical Control in CIM , Simulation, Group technology, networks, Concurrent engineering, CAD/CAM integration. Classification of production systems. Integrative Manufacturing Planning and Control. Integration information and material flow in manufacturing. Modeling methodology and tools in analysis and design for CIM . |
| 4058 | Machine Design II | 3 | Analysis and Design of bolts and mechanical springs, welded joints, Geometrical analysis and design of gears (spur, helical, bevel and worm gears). Clutches. Brakes. Couplings and flywheels, Belts. Chains and ropes. Shafts and axles. Design Project. |
| 4333 | Computer Aided Design | 3 | Introduction to CAD, computer Graphics, Introduction to Computing with Geometry, Geometric modeling, Geometric Transformations, Simple Curves and Surfaces, Solid Modeling, Parametric Curves, shape modeling. Using advanced level of CATIA mechanical design Tools (Part-design , assembly-design) and Shape design tools, (Wireframe and surface design). |
| 4412 | Simulation | 3 | Introduction to simulation, simulation definition, simulation benefits, simulation examples, Modeling, Numerical solution of linear and nonlinear differential equations, Numerical solution of partial differential equations, numerical solution of linear and nonlinear algebraic equations, application examples from mechanical systems, fluid and thermal systems, chemical processes, electrical systems. Using simulation Tool CATIA, MATLAB, ANSYS. |
| 4451 | Finite Element Methods | 3 | Introduction to FEM, Stiffness matrix for spring element, FE equations, Linear static analysis, Bar element, heat flow element, Electrical resistance element, Distributed load, Transformation of coordinate systems; Element stress, Beam elements, Review of 2-D elasticity, Stiffness matrices for 2-D problems, T3, T6, Q4 and Q8 elements, Distributed loads, Stress calculation, Discussions symmetry in FEA, Solid elements for 3-D problems, Review of 3-D elasticity; FE formulation, 3-D solid elements, Axisymmetric elements, Free and forced vibration analysis of continuous vibrating systems (bars and beams). Familiarize students with professional-level finite element software ANSYS. Applications include finite element analyses, modeling of problems, and interpretation of numerical results. Term project using finite element analysis and software MATLAB and ANSYS. |
| 4453 | Maintenance Management and Methodologies | 3 | Introduction to maintenance: concepts and categories; run-to-failure maintenance, reactive maintenance, preventive (proactive) maintenance, reliability centered maintenance, corrective maintenance, predictive maintenance, condition-based maintenance. Maintenance business and management: introduction to entrepreneurship, business idea to business plan, planning and scheduling, maintenance time and outsourcing, preparing inventories and quotations, business financial aspects, business organizational structure, customer relations, personnel management, maintaining facilities, business records, insurance issues, safety regulations. Maintenance methodologies and tools: vibration analysis, fault diagnosis caused by vibrations, dynamic vibration absorbers, filters, oil and particle analysis, data acquisition, signal processing, internet-based maintenance information sources and official bodies. |
| 4472 | Automotive Air Conditioning Systems | 3 | Basic mechanical cycle, Accessories in AC & Ref. Cycles, Expansion Device, types of refrigerants which fits automotive, refrigerant charging, discharging and pressure calibration, Air and ventilation Cycles, electrical circuit, electronic circuit and temperature and pressure sensors, heating system, cooling load calculations for freight cars and trucks. |
| 5028 | Special Topics | 3 | This course includes topics which include projects and case studies in mechanical engineering are chosen according to special interest of both department and students. |
| 5103 | Cryogenics | 3 | Historical survey, Cryogenic safety, Properties of cryogenic fluids. Superfluids-the heliums, superconductors, Low Temperature mechanical properties of materials. Theory of refrigeration and liquefaction of gases. Cryostat construction; Insulation techniques; Cryogenic instrumentation. Hydrogen economy. Recycling trash and space applications. |
| 5614 | PLC(I) | 3 | |
| 5622 | Project Management & Quality | 3 | The course aims to introduce students to modern concepts and methods in project management with the help of computer packages and programs. Topics include: What is project management, project management and project manager characteristics and characteristics, project planning, distribution of resources and resources, project management methods, cost estimation and risk calculation, decision making in setting Unstable, follow up and control projects, use one of the project management software with practical applications. The course also aims to provide the student with the concepts of economics and quality management, in addition to statistical principles and methods to ensure that the product / service conforms to the specifications, inspection by sampling the characteristics and variables, parameters control panels, control panels for distinctive characteristics. TQM and its basic elements, quality assurance, quality control, ISO. |
| 5717 | Advanced Programming | 3 | The course takes a practical approach to introduce Python programming language. It includes Python syntax, built in data types, control constructs, functions, packages, modules and classes as part of object oriented paradigm. |
| 5963 | Energy Auditing and Rationalization | 3 | Ways of energy auditing and conservation: lighting, improving power factor, load managements, using high efficiency motors. Choosing the appropriate fuel and take into account the impact of leaking thermal energy in buildings. Identifying the main objective of energy audits, data collection methods, cost reduction, environmental emission reduction, and quality of service improvement. Knowledge of building automation technology (KNX and BMS); in terms of physical and programmatic structure and its importance in building management and energy conservation. Application this technology in the automation of the building model contains (lighting, electric loads and motor servo used in the curtains and heating system in the building). |
| 8226 | Solar energy powered HVAC systems | 3 | Introduction, Solar absorption systems, Solar adsorption systems, Solar desiccant systems, Comparison between solar air conditioning systems and traditional AC systems at the .level of the designs, costs, and effectiveness |
| 8227 | Energy storage and efficiency | 3 | This course focuses on the physical processes and scientific principles involved in converting one form of energy into another. Great emphasis will be placed on energy production, the conversion of heat into mechanical energy, and the use of gaseous substances, following the principles of thermodynamics and fluid mechanics. Technical fundamentals of energy conversion systems, such as steam power plants, gas turbines, internal combustion engines, hydro/wind turbines and combined cycle power plants among others. Methods of maximizing energy conversion efficiency will also be presented, and the latest developments in renewable energy systems will be presented. Basic principles for the most important types of batteries used in renewable energy systems, including stationary and mobile battery applications. |
| 8229 | Industrial energy systems | 3 | This course is designed to address all aspects of industrial power generation and distribution systems, including system planning, equipment selection, specification and application, system grounding, protection and conformity with electrical code requirements, etc. Typical single line and relaying diagrams will be discussed for various applications. |
| 8236 | HVAC-R Trends | 3 | It is a research and essay course, which deals with the current and future trends in HVAC’R in industrial, commercial and other fields, such as the followings: Energy Efficiency, Smart Technology, Improved Air Quality, Refrigerants, Green Technology, Solar/Geothermal, DeVAP (Desiccant Enhanced Evaporative Air-Conditioning), among others. |
| 8730 | Hydraulic & Pneumatic Systems and Lab | 3 | Introduction to fluid power; pneumatic characteristics and applications; compressors and compressed air generation, treatments and distribution; pneumatic and electro- pneumatic components; hydraulic characteristics and applications; pumps and hydraulic power generation, treatments and distribution; hydraulic and electro-hydraulic components; basics of system design and development; component sizing, part sourcing, and assembly of pneumatic and hydraulic systems; input, control, and processing elements; hands-on experience covers assembling, testing, troubleshooting pneumatic and hydraulic systems in laboratory. |