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Course No
رقم المساق
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Course Name
اسم المساق
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Credit hours
الساعات المعتمدة
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Course Description
وصف المساق
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| 6922 |
Special Topics |
3 |
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| 6948 |
Power Electronics for RE |
3 |
An introduction to Power (Industrial) electronic devices and converters; characteristics and operational principles. DC-DC choppers; topologies and principle of operation. Fundamentals of loss-less switching techniques. Modeling and analysis of Resonant Converters. DC-AC inverters and Multilevel inverters. Characteristics and principles of Modulation Techniques. Applications: Switch mode power supplies, Space vector pulse width modulation, power utility related applications. Harmonic processing & treatment, Power factor correction. Simulation of Power Electronics modules in RE, Sizing Industrial electronic Converters for renewable energy systems. |
| 6949 |
Photovoltaic & Thermal Solar Systems |
3 |
Photovoltaic (PV): Decentralized and stand-alone PV hybrid systems: modular PV systems technology for decentralized AC-power supply; large decentralized PV systems (fixed mounted and tracking systems, power condition units and grid integration); PV stand-alone and hybrid systems configurations and components performance; supervisory control and energy management strategies for PV decentralized systems; storage technology for PV stand-alone systems (super-capacitors, batteries, electrolysis and fuel cells); power conditioning units for decentralized and stand-alone PV-Systems and components (battery charger, bidirectional converters, fuel cell inverters); PV economics and specific energy cost calculation; techno-economic performance criteria of stand-alone PV and hybrid systems; methodologies for sizing PV hybrid systems; design of stand-alone PV hybrid system (load demand synthesis, component sizing, evaluation of performance criteria); implementing simulation tools for designing PV stand-alone systems; case study via project work (design of stand-alone PV system). |
| 6950 |
Wind Energy Systems |
3 |
Wind energy review, Power curve, overall efficiency, Betz limit, stall and pitch regulation; energy yield of a wind turbine from a site, calculating energy yield of a wind turbine using actual wind speed measurements or approximate data., Construction and functional structures of Wind energy converter ; main components of wind energy converters: rotor blade with pitch drive, input torque, generator, mechanical drive train; grid integration: different electrical networks, grid influences, grid control; control concepts and operational results: island grid operation of WECs, grid operation, interconnection operation; control system design and plant simulation: plant components characteristics, development of mathematical models for control and simulation, dimensioning of the controllers. The impact of the wind turbines & wind power on environment. Describing different economical support schemes for wind power. Simulation of wind system with grid integration using various simulation tools & software packages such as Matlab/Simulink, RETSCREEN, HOMER. |
| 6951 |
Fuel Cells Systems |
3 |
This course introduces students to aspects of fuel cell engineering, with emphasis fuel cell systems, stacks, and single cells. The materials will be presented in the context of polymer exchange membrane fuel cells (PEMFC) and solid oxide fuel cells (SOFC). Students will learn the principles of fuel cell system design, fuel cell stack engineering, and safety. Hydrogen Technologies. State of the art (generation, transport and storage). Power Storing & Batteries. Ultra capacitors based energy storage systems; Flywheel, Electric Vehicles (EV) interests. Random generation forecast corrections; EV needs according to users and grid exigencies/ - Dimension and security according to EV needs; Batteries and chargers. |
| 6952 |
Biomass & Waste Energy |
3 |
This course will deal with technologies involved in the treatment and use of bio-wastes, particularly from animal manure and from plant and food municipal organic wastes. The main purpose will be to expose students to environmentally friendly technological and whole system solutions for organic bio-waste utilization, recycling, and control of pollution agents from the agricultural and municipal’s wastes. It will include odor control, biological digestion, flocculants, and bio-gas production. Students will also gain the ability to analyze and presenting data and processes in bio-wastes management. Specific themes that will be dealt with in this course include:
• Processes involved in the separation of bio-waste slurries into liquid and solid phases through the application of mechanical separation with or without additions of flocculants.
• Reactor and bio-fermentation technologies for biogas production from bio-wastes.
• Processes involved in the reduction of odor emissions, ammonia and greenhouse gases from stored bio-waste.
• Organic bio-waste material composting.
• Bio-waste management options with the use of mathematical models.
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| 6953 |
Energy Generation & Distribution |
3 |
This course describes the power system components starting with introduction to the system components, elements, operations, and the how these systems being integrated together, the distributed generation advantages and needs. Modeling and simulation of electric systems introduction. Electric systems modeling for permanent regime operation, Steady state simulation. Load flow, line, cable, transformer, generator and load models. Sequence grids, three phase short-circuit. Transient regime electric systems modeling. Line modeling. Transient regime electric systems modeling. Transformer substation structure. Generation systems modeling & micro grid modeling. Electric supply quality with respect to frequency variations, slow voltage variations, flicker voltage fluctuations, voltage gaps and brief voltage cuts, and boosts, harmonic distortion and voltage unbalances. Various simulation tools for system modeling are applied. |
| 6954 |
Smart Grids |
3 |
Cross-disciplinary subjects on smart grids that relate to energy generation, transmission, distribution, and delivery as well as theories, technologies, design, policies, and implementation of smart grids. Smart sensing, communication, and control in energy systems; advanced metering infrastructure; energy management in buildings and home automation; smart grid applications to plug-in vehicles and low-carbon transportation alternatives; cyber and physical security systems; micro-grids and distributed energy resources; demand response and real time pricing and intelligent and outage management systems. |
| 6955 |
Energy & Environmental Sustainability |
3 |
The course discusses energy in terms of fundamental concepts such as the physical/scientific and the technological, as well as societal properties of energy systems. In addition, the course covers the relation between energy and major global issues, energy and social issues, energy and the environment, energy and security, as well as energy and the economy. Furthermore, opportunities in energy demand, energy efficiency and materials efficiency, energy end-use technology status and potential, economic viability, energy end-use analysis, and energy scenarios are examined. Energy Policies for renewable energy sources & energy support. Environmental consequences of energy use and production. Environmental impacts, technology status and potential, economic viability, cost calculations etc. Also, old and new actors in the electric power market, from monopoly to de-regulation, are covered. The final issue covered is making it happen - from policy making to implementation. |
| 6956 |
Power System Planning & Stability |
3 |
Mathematical methods and modern approaches to power system planning. Demand forecasting. Generation, Transmission & Distribution planning: deterministic and probabilistic methods, heuristic and stochastic methods, system layout, and choice of components. Route selection: environmental and economic considerations. Quantitative methods of long and short term planning.
Introduction to the power system stability, power system types and elements, different states of power systems. Security control, and power system optimization and its economic importance . Power systems control , relay control ,automatic emergency control, generation and frequency control (Single machine model, Multi machine model), voltage stability and automatic voltage regulator , stability of power systems (Static stability, Dynamic Stability) . Power systems optimization, emergency state optimization , economic dispatch problem , unit commitment , optimal power flow, and long-term optimization of power systems. Simulation examples by using various software packages ETAP, Simulink, and SCADA for processing the occurred behaviors, in addition to conducting practical experiments regarding system stability.
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| 6957 |
Project Management |
3 |
Introduction to project management, definition the project management components with respect to planning, implementing, controlling the tasks to achieve an organization's schedule, budget, and performance objectives. Project lifecycle vs. solution Development lifecycle, the project manager role, and project leadership and team building. Initiating project charter development and scope statement development. Plan for creating a work breakdown structure, schedule development, resource planning, communications planning, and risk planning. Execution, control and close the project stages, scope control, the triple constraint and project control, and project communications. Applying various Microsoft Project software such as Microsoft project and Primavera. Course project regarding certain production process in RE systems are going to be conducted. |
| 6958 |
Management & Economics Aspects in RE |
3 |
Introduction to methods & strategies for operation & management of renewable energy systems & theirs integration aspects with the electrical power system, mathematical methods and tools applied to power system operation. Characteristics of power generation units combining both RE and conventional power units. Economic dispatch of generating units and methods of solution. Power interchange production cost models. Generation control. Reactive power dispatch and allocation, Optimal power flow using intelligence algorithms. Conducting concrete projects concerning these issues. Using various simulation software packages such as Smart Grid Modular with SCADA training Software, Matlab/Simulink software and Power World simulator for managing & optimization the integration procedure. |
| 6959 |
Energy Market & Policies |
3 |
Energy Market policies are analyzed in a perspective and in relation to changes in different agendas for example growth, environment and development. How are energy policies& energy market policies designed nationally and globally? Which are the consequences on the environment and society of certain energy policies? How can energy policies are utilized to promote growth and fight poverty. Invited speakers from the local society should take part in conducting these courses in order to put students in real status of the conducted policies toward development the energy sector and promoting its sustainability. |
| 6960 |
Potential of RE in ME & EUROPE |
3 |
Introduction to EU & MENA countries locations and energy potential, actual energy situation, in particular in EU and MENA countries and in student’s home country with presentation, definitions of potentials, researching specific information sources, actual state and potentials of renewable energies in the different countries, presentation/discussion of actual projects for renewable energies. Determination of economic and calculation of technical potentials of RE in the MENA region.
Environmental consequences of energy use and production: climate change/global warming, air pollution, water use and pollution, natural disasters, sea level rise, migration and climate change; mitigation: political framework, Kyoto protocol, technologies for mitigation such as renewable energies, energy efficiency, clean coal; adaptation: risk management, land use change.
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| 6961 |
Energy Efficiency & Auditing |
3 |
This course describes topics related to energy Efficiency in Industrial processes and buildings , where the energy management systems, high efficiency motors and generators, variable speed drives, combustion control and monitoring, waste heat recovery exchangers, building management system, design of thermal storage (cooling/heating), demand controlled ventilation, steam systems, compressed air use are described. Understanding the power flow in buildings, applied technologies, determine the heat gain, heat losses ,cooling demands, life cycle cost , and life cycle assessment of environmental impacts in the building sector .
Then introduction to energy audit, defining the energy audit, developing an audit Plan, audit resources, audit methodology. Energy Analysis Methods: Condition Survey, Establish the Audit Mandate, Establish Audit Scope, Analyze Energy Consumption and Costs, Comparative Analysis, Profile Energy Use Patterns, Inventory Energy Use, Identify Energy Management Opportunities, Assess the Costs and Benefits.
Technical Supplement: Energy Fundamentals, Energy-Consuming Systems, Instrumentation for Energy Auditing, Electrical Inventory Method.
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| 6962 |
Research Methods & Innovation |
3 |
Fundamental concepts of scientific research; an introduction to concepts underlying peer-reviewed research, evaluating the relevance and impact of sources, conducting literature reviews, evaluating published findings, using research productivity tools, using statistical methods, designing research studies and writing scholarly articles; an introduction to intellectual property (IP), development, evaluation and strategy; strategy and innovation concepts with a focus on technology commercialization. |
| 6963 |
Special Topics in RE |
3 |
Study of a particular subject related to advances in Power Engineering depending on students’ needs and instructor’s interests such as Entrepreneurship in RE, Urban Energy Systems, sustainable Transport, etc. |
| 6964 |
Energy – Efficient Building Systems |
3 |
Basics of building physics: heat transfer adapted to building elements like walls and windows, shading devices, humidity and condensation effects, thermal comfort, ventilation, global radiation on building, boilers, cogeneration of heat and electricity, heat pumps. Passive houses. Costs and savings of energy efficiency measures. Principles of integrated, energy-efficient building design. Interpretation / application of codes, standards. Use of software tools for modeling and simulation of building energy systems. Discussion of different conditions in the MENA countries. |
| 6965 |
Geothermal Energy |
3 |
Heat pump design and operation, heat pump cycles, refrigerant selection, ground-loop design, heat transfer issues pertaining to geothermal energy, system design and integration, temperature and materials issues unique to geothermal heat pumps, classification of geothermal resources. |
| 6966 |
Information Security Management |
3 |
The course aims at providing enrolled students with an understanding of the principles of information security management that are commonly used in business. It includes an introduction to the commonly used frameworks and methods and critically exploring the suitability and appropriateness of these for addressing today's organizational security needs. The course covers comprises several topics including: Governance & Security Policy, Threat & Vulnerability Management, Incident Management, Risk Management, Information Leakage, Crisis Management & Business Continuity, Legal & Compliance, Security awareness & implementation considerations, ISO 27000 series. |
| 6967 |
Sustainable Materials |
3 |
Wind:
Passive Cooling (Natural and Cross Ventilation and Energy Production: Wind Power including Wind Turbines.
Water Systems:
Grey Water Systems: Evapotranspiration Systems, Green Roofs, Fixtures and Appliances.
Solar:
Active and Passive, Solar Collectors, Solar Water Heaters, Solar Pool Pumps, Solar Heating Walls.
Certified Products:
Wood, Flooring (Wood Alternatives), Chemicals (Paints and Coatings, Adhesive and Sealants) and Appliances & Lighting.
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| 6968 |
Fault Diagnostic & System Maintenance |
3 |
Introduction and types: Preventive maintenance, its objectives, benefits and economics, inspection and implementation. Routine maintenance and monitoring of fault indicators, main concepts and implementation. In additional to that this course should cover certain topics concerning basic maintenance techniques and the applications of troubleshooting in fault diagnosis, inspection, disassembly, keeping record, repair and reassembly of different electromechanical and electronics equipments such as electrical motors, pumps, hoisting systems, elevators, escalators, cutting machines, home appliances, electrical generators & transformers, Renewable energy systems, air conditioning and cooling system, production lines, hydraulic and pneumatic systems and power electronics equipments and devices. The course is supported by practical training and software packages for virtual fault production, training and simulation. |
| 6969 |
Architectural Aspects of RE Systems |
3 |
This course describes the architectural aspects in order to minimize energy consumption and to keep sustained energy efficiency, the main topics are: the roots of sustainable architecture, the environmental impact of buildings (ecological footprint), principles of the environmental design, energy, ventilation and lighting in sustainable architecture, the major steps to create sustainable architecture. Indoor Environmental Quality, monitoring and modeling of environmental performance. Advanced Construction and sustainable Building Analysis. |
| 6980 |
The Relationship between Energy, Water and Food |
3 |
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