CERTIFICATE

~~~~~ ALEXANDRIA~~~~~ UNIVERS ITY

t...~l4ts FACULTY OF ENGINEERING

This is to certify that Mohammed Wael Moustafa El hifnawy

(born in Alexandria I Egypt on 11/7 /1990) has obtained:­

Specialized Diploma in Mechanical Engineering from the

Department of Mechanical Engineering

Faculty Council Ratification Date : 6/9/2016

The Degree Awarding Date (University Council Ratification) : 27/9/2016 CGPA of courses= 3.433

The following post graduate courses ~ave been successfully completed:­

. Fundamentals of Fuel Combustion (0708625)

Stoichiometry. ·Combustion kinetics. Energy balance. Flame propagation. Emissions.

Robot Dynamics (07086421 Basics of Robotics. Homogeneous transformation. Arm kinematics. Inverse kinematics. Arm

dynamics. Trajectory planning. Robot control system. Position, speed and forcecontrol of robot

grippers. Practical examples

Sensors (0708641)

Electromechanical transducers. Error and accuracy. Motion sensors, (resistance inductance,

proximity, piezoelectric, eddy current). Force, torque and tactile sensors. Flow sensors

(differential pressure, hotwire, electromagnetic, Laser Doppler). Temperature sensors

(resistive, thermocouples, fiber optics, interferometries). Ultrasonic, fiber optics and range

sensors.

Experimental Design and_ Error Analysis (0708647)

Basic equations and plane elasticity theory. Brittle coating methods. Electrical resistance strain

gages. Semiconductor strain gages. Analysis of strain gage data. Optical methods and basic

optics. Moire method. Photoelasticity

.Engineering Materials {070864~

Main types and properties of metals and alloys. Heat treatment. Polymers. Elastomers.

Ceramics. Composites

4la-JI ~t....I.)Jll UJ! ~~~ ~ GRADUATE STUDIES DEPART:\1E. 'T F:\CUL TY OF E. 'Of :CERING

Mohammed Wael Moustafa El hifnawy

Fluid Machinery (0708631) Types of pumps. Positive-displacement and rotodynamic pumps. Theory of centrifugal pumps. Design, selection, operation, and maintenance of pumps. Methods of gas compression. Types of compressors, fans and blo ers. Positive-displacement compressors. Theory of centrifugal and axial-flow compressors. Design, selection, operation, and maintenance of compressors, fans and blowers

Applied Heat and Mass Transfer (0708611)

Application of conduction heat transfer in designing insulated walls. Finned surfaces design. Transient conduction. Heat transfer by radiation. Factors affecting convective heat transfer. Laminar and turbulent convection over surfaces of different shapes and inside tubes and tube banks. Laminar and turbulent free convection over surfaces and inside enclosures. Mixed convection. Boiling and condensation. Evaporation.

Design of Central Air Conditioning Systems (0708616)

Building survey. Cooling and heating load calculations. System selection. Equipment selection.

Duct design. Water piping design. Ventilation and smoke management. Control systems. Block

building load and diversity factor.

Power Plant Operation and Management (0708614) Safety laws and safety requirements in power plants. Environmental laws and environmental

control systems. Boiler start up. Boiler normal and abnormal operations. Boiler idling and

storage. Maintenance and inspection of steam generators. Turbine startup (cold and hot).

Turbine lubricating and control circuits. Steam condensers and cooling tower operations. Part

load problems. Load distribution between units and plants and economical load operation of

power plants. Daily, weekly, and monthly power plants maintenance. The preventive

maintenance for the power stations.

Diploma Project in Mechanical Engineering (0708601)

Prepared by

cf;tl/ 4 f

Date 12/1

ALEXANDRIA UNI\'ERSITY FACULTY OF ENGINEERING .

l\1ECHANICAL ENGINEERING

•'

COlJRSES D.ESCRIPT'ION .',.•

TO WHOM IT MAY CONCERN

This is to certify that Eng. MOHAMMED WAEL MOUSTAFA ELHIFNAWY II

( Born July II, 1990 Alexadria) has obtained the B.Sc. in Mechanical Engineering with .an overall

grade of II PASS II in June 2013.

Attached herewith is the description of courses covered.

51912016

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l intc: .::; . ion , n di l'crentiation Functions, limi"ts and continuity, algebraic and periodic

.I ·ulming diLTerential -. inverse functions, parametric forms, libetnz theory, t\laclaurin' s . I r' expansions. the me·m value of curvature theory, inverse cliiTerentials . ·

tl;:;ebra: matrices, algebraic operations on matrices, hennetian and orthogona l matrices, 1 .u") operations, ord inary matrices, equivalence of matrices, graded matrix, systems or linear . ti ns. rank of a matrix, eigen values and cayley-hamilton theory , linear spaces, binomial !hcOI},

uti~tl fr:1c tions.

\t P 021- Mechanics 1 ' t,1tics: vec tor algebra, f\na.lyljcal ape! gegnwJ1)9al, solptions for: t;ecluction .of different sys tems or r.~rc c:s ( intersecting or noil ir\terse2ting ) in two: clil~1ensions, opet'ations of force analysis in two llimcnsions, eq uivalence of force sys tems, body equilibritim, rigid boches, equilibrium of idea l :-.)stems : groups of bocli e~; , groups of ri gid bodies and its applications friction: volplane, loop, ilpp li ca tions on the real n1 echanical sys.tems .

it p O:H- Physics l . l)roperti cs of m~1tter: systems or standard units and conversion constants belween them , climensiun;tl <llla lys is and its appl.icatjollS , moment of inertia, angular displacement, velocity and acceleration ol" : 1n gl il:-~r motion, torque', angular kinetic energy, work m_1cl power for angular motion , ang11iar m(nncntum , relation between angular and .. linear motior1,theory of perpendicular and pmallcl <L'Ct:s , niomt:nts of inertia for s)' mmetrical bodies about rotational" axes, stress, strain, modulus ol.eL)sti cit y

1

l1uuk's law, Poi sson ratio, relation between young's modulus, bulk moclulu~ and ·shec1r 11ll)cl ulus , cnngy stored in strain bo~li cs~ UlJic;! statics: co ntinuit~' equ<1tion, Bernoulli's equntion ;1 nd it s app li ca ti ons, vi scos ity, stock's equation, viscosity oC gases, Newton's gravitational bw, dete rminntion or gravitalionnl constant, gmvitational field, gravitational potential and its potential energy, coefficient of s~1rface tension, ta·ngential angel, capi llarity phenomenon, work and energy Co r tl}in membrane. thern!o dynamics: internal energy, specific internal energy , temperature, hc;il · cm:rgy, hea t capac ity, speci fic beat, phase change, latent heat, heat transfer, ,conduction convection <~ ncl radiation , one dimensional Fourier equation in steady state, ( thermal equilibrium ), h~at co nduction coefficient, hea t resistance, applications of Fourier eql.1ations on simple walls, methods ot' heat nansfer by conyection, Newton's cooling law, total heat transfer,'.coefficient, black body 1·nd imion, em issiv ity, Stevt:n and boltzmann law for radiation, ability of heat radiation, work nncl hent energy, first law of Jhennodyn~mics , heat co1 nt function, simple operations of thermo · dynamics in idea l gases, tr<tn_sitional operati . \ .diffusion on gases, heat comlucliu11 energy, viscos ity, first and secdhd fik's law~ ~cA., . . .~

PL 011- Production Technolog-y :\11 entrance to production engineering and industrialization and types of industries, cas ting or metals, operations: main steps in sand casting, design of patterns and melting of metals, cleaning "nd checki ng or castings, Corming of metals operations~ hammering and smoothing operations, rolling operations drawing operations bending operations extrusion operations, ways and methods !'or joining parts of products: permanent and transitory joints, ways and metl)ocls or we lding, 11Wc:hining operations using cutting: basic principles of machining operations and its elements, mil in machining operati ons and it s machines ( drilling, turning, ... . . .. . ) calculat~ng cutting and prucluctio n tirr.1es, engineering materials, operations and instruments of measuring, introduction in lllcttwgement , manufacturing systems and production: production ways, types of internal planning dt. Ltctorie~;, calcuh1tiilg industrial costs and analyzing equilibrium, basics of planning and producti on I.'Untro l, introduction in quality control of prod~tctiop : ·

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SC 021 -Computers and Programming t"ectmes: history of coli1puters, classificatioi1 of computers, effect of comptliers on the .society, data representation in digit(ll computers, mtmb·er·s systems, concepts and mahjcomponents of' di gital computers, concepts ()f operating sy-stem~ C)ncl .computer programming, .: flow charts, shell ancl structural programmit'lg, developing algorjti1111S t() Op.olve the engineering app.Iications problems using high level language ( bnsic) · :~ . Lnbs: practical exper-ience in using ~pet'atil1g systems ( like DOS ) and programmiug o!' applications using high level language ( l~~e BASiq}·

M P-0-!1 Engineering Drawing and GcometricaiJ>rojection- 1 t<:nginccring Drawing: Dmwing instruments and their uses: le1tering and climensim1ing. Ceomclricn l construc tions, conic sections ancl special curve~ (In\,olutes, Cycloid, Archimeclenn, ~pim l , Heli x). Theory of projection with applications .in mac}Jine drawing, Tsometric.ancl obliquG project ions. Geomett·ical Projection: ivlongean projection (repre~entntion of points, straight lines, planes). i>ositionnl probt·ems ai1d metri cal problems . Representation of surfaces ofrevolution (Sphere, Cone, . l'y I inder). Intersec tion ~ncl development of surfac6s 6frevoluti6n. .·

Preparatory Year i~cond Semester

J\lP 012- Mathematics 2 lv let hocls of integration, applications of definite integration ( areas, volumes, circular surl'aces, length or curvature, central points ) first order ordinary differential equations, .introduct-ion to probab ility theory: sample space, probability axioms, some basic theories, counting methncl s, Cllncl itional probability, random variables, mathematical expectation, some discrete and continuous distributions, geometry: shifting and rotating of axes, come sections and their specifications: pm"bula, ellipse, hyperbola .

!VIP 022- Mechanics 2 J)ynnmi cs: introduction in vectpr analysis,. wsimple review on second order ordinary differen tial eqmtions, kinematics of bodies, n1otion analysis in one dimension, body kinematics and motion ana lys is in t\yo dimensions in Cartesian and in.trinsic forms, some engineering applications in kinematics,: relation between f01:ce and ac<;el~ration, static integration of n1otion ( relation betweeh energy and work·), time integration of motion ( relation between im1:iulse and ti1omentum l. t:ngineering applications: motion of body in one dimension in a conservative or non conservati\'e li e Id s, external plasticity in a conservative fietd : Motion of bodies under ideal wraps, orthogonal nnd inclined impact, motion of vibrating bodies-, ()the:r,·engineering applications. suitable for the leve l of students in mathematical analysis.

. ·•. · '~

MP 032 -Physics 2 · - ·~-"" . Elec tricity: electric cliarge, conductors ·and insulators, coulomb's law, electric lielcl or n point charge, electric field \o{ distributed charges, motion of point charges inuniform fi eld , e·Jectric dipole , electr ic nux, gauss law r~nd its applications in calculation of electric field produced by simple distributions of electric chnrges, _. l:kctrical potential energy and potential difference, electJjc potential of point charge, electric pl)tctili,,l or di stributed · charges, insulators, breakdO\Nn uncler high voltage:,, capacitors, calculating· Citpac itance !'or cliiTer~nt shapes, inserting capacitors in eleotric circuits, eriergy stored in charged c t.pac itnrs, elec trical instilating materials, inducedpojnt charges,electrical displacement facto r and polcrrization, current density, electric current calculation )11 conductors, t:esistivety, temperature depe ndence of resistivity atoniic ·model .for electrical· conduction, magnetism: permanent and elec tri c mngnebi c ll elcls, _magnetic force on moving charges, magnetic forces on a current ca n·y in ):!. elect ri ca l conductor, torque on a coil in a uniform magnetic fteld, motion of point charges in uni lorm magnetic fi elds, t'i1agnetic dipole, biot -savart law and its applications, Ampere's law and . it~ applications magnetic forc_e between two current carrying para !rei wires, magnetic force f'or ~ ti oms magneric intensity vectoi;~ tnagnetic field vector , intensity vector magnetic induction, gauss \!."" in magnetism, clia magnetic r11aty!:jals, · -loop, Ma~well's equations, electromagnetic spec rrum , optics: refl ection refraction," · at principle, total internal reflection, Jlber opti cs, images produced through s, magnification, focal length or thin lenses, defec ts or images produced aces, spherical diffraction and color di !Traction .

II Oil - l~ ngineering Ch<·mi try ·.11 and real gases: genera l gas equation, Dalton's law for sum of partial pressures, Graham'.s ·

liUu::. iun l<m. mauer equ ilibrium, binary solutions: classification, separation of the components of a !"quid ::.o lution by solidifica tion or distillation. The solubility of gases in liquids, Raoult' s law, iden l -; ~tution s . mocle n1 theory of ionization, chemical equilibrium, factors affecting rate of reac ti on, pri nciple of Le Ch::1tellier, law of mass action and its applications, law of dilution, ionic product of wa ter, hydrogen power, so lubility product and the effect of common ion, galvanic electric ce ll s, co rrosion of met::1ls, transie nt theory, pole voltage, cells reverse, corrosion of metals and the main a!Tec ting factors, water and treatment, P?llution and all related types, treatment of industrial wastes, air pollution, cement, alloys.

1\11'-042 Engineering Drawing and Geometri~al Projection- 2 t;:ngiuccriug Drawing: · Sectional \'iews. Irlthsectlonofengii1eering surface?. Civil. drawing· including retaining walls and some steel points. Some applic~tions in architectural dra\ving. lntrodttction to computer aided design using AutoCad program in 2D and 3D drawings. Geometrical Projection: Indexed proj ec tion (representation of points, straight lines, planes, intersec tion of pl anes) . Applications of index~d projection (problems of cut and fill).· ,

f4S 0 ll - £ngli~h lan·guage . i\ review of grammar rules and composition mechanisms and some compS)sition rul es, ancl acti\'c sen1enccs and their chm:ackri stics and defining some of the most common. mistakes in writing th e: tec hni cal Eng li sh sentenc e~;, making paragraph and main idea's, types of P,nragraphs, reading and · . analyzing some parts ·O:f technical writing. in vai'ioils engineeri11.g fields to i;j1prove communica ting skills.

HS 021 - History of EnginecringScielice '; · ·· ·::

Development or civili zat ions and its relationships with both physical and hmnan sciences, hi story or techno logy and engineering with all its {ielcls, historical conelatipn between ~cience and technology, the relationship betwee~1 the engineering clevGlopmei1t and the e.\lv'ro~1n1entri l development in both sl1c ial <tncl econo mi ca l jJerspectives, examples on clevelopi;rxel1~~neering activities.

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MECHANICAL ENGINEERING DEPARTMENT

FIRST YEAR I IR TTERM .\IE lll Fundamentals and Measurements of Heat and Fluid Flow Lnits - Energy conservation - Properties of a system - Forms of energy - State and equilibrium -Process and cycles- Heat and work- The first law of thermodynamics- Measurements ofTemperature - Ki nematics of f1uids- Continuity equation- Energy equation- Measurements of pressure, velocity and nuid flow.

ME 141 Mechanics of Materials Concepts of stress and strain- Stress strain reLations - Hook's law- Ductility- Malleability -Thermal stresses and strains - Hertz contact stresses - Hardness - Impact properties 'of materials :- Creep and temperature properties - Axial loading - Torsion- Bending~ Transverse loading- Principal stresses ­Def1ection and stiffness of mechanical members.

ME 142 Mechanical Drawing Projection and assembly of mechanical Mechanical parts- Fasteners.

MP 113 Mathematics -3

elements - Machining symbols Fits and tolerances --

.•

Methods of Integration, some special techniques, successive reduction method, improper integrals, mean. va'lue theorem special function: the error, gamma and -beta functions ofseveral variables, limits and continuity, partial derivatives, chain rule directional derivatives, Taylor expansions of functions of several variables, extreme, differentiation under integrat:sign. _ -Sequences, series, convergence and convergence tests, uniforni convergence. Fourier series expansions of general periodic functi?ns, expansions of even and odd .t.mctions, convergence and remarks .

MP123 Mechanics- 3 ·.-Central Force Motion: Polar Coordinates- Propertie • ·- ~rce Motion- Equation of Motion ­Ap plications to Space Mechanics - Nonconserv e Sys~rgy dissipation - Real System -Kinetics of System of Particles: Equations ofMoti n : M.otion ~f)h ~ ass Center of System of Particles - Systems Gaining or Losing Mass: Motion i'b'f Ro-ckets :- Mottion\ of Chains and Cables~ Plane Kinematics of Rigid Bodies: Translational, Ro · n a·ncf 6eii8~1 pi n ' motion- Instantaneous center of rotation in plane motion- Rolling without slidi Geai·s -·-~·ch i 1'ns -Kinetics of Plane Motion of Rigid Bodies : Angular Momentum - Kinetic ~y -:-,.]q~l · iN$:·'of Motion - Moment of Inert ia -:-Ap plications- Initial Motion - Impulse aiid)vtomen~t ~ f ~--. e rflotion of Rigid Bodies : Principle of Impul se and Momentum for a rigid Body and for a 'System of Rigid Bodies - Collision of Rigid Bodies - Gyroscop ic Motion : Gyroscopes-Gyroscopic Couple -Application- Rotation of a Three-Dimensional 13ody about a Fixed Axis : Dynamic Reaction -Balancing- Mechanical Vibrations: Free Vibrations -; Damped Free Vibrations- Forced Vibrations.

SECOND TERM PE 128 Metal Engineering and Technology Crystalline and Non-crystalline structure of metals, Ceramics, Polymers and composite materials, Iron­Carbon alloys, Heat treatment, Casting of Metals, Plastic Forming of metals, Forgi!Jg and Extrusion, Wire Drawing, Welding processes.

CE 166 Stnrctural Engineedng -1 Shear forces and bending moments for beams, frames. Internal forces in trusses. Tests and measurements of mechanical properties of materials (simple tensile test, compression test, shear test, toJsion test, bending test) . Impact and hardness tests . Rotating beam tests . Measurement of strains.

I-IS X52 Industrial Safety Introduction, Principles of Industrial safety, Risk sourc~s safety requirements (Gases, bust, Fire,) , Occupational diseases, Safety regulation for industrial facilities, Prevention . and control of industrial ri sks, accidents, and fire, Safety procedures and Occupational Health, Rescue and Evacuation, Safety improvement, Performance evaluation.

ME 143 Mechanics of Machinery-1 Joints - Mechanisms - Degrees of freedom - Analysis of some applied mechanisms - Graphical and analytical analyses of displacement, velocity and acceleration- Gear geometry- Gear trains.

MP X14 Mathematics-4 Multiple Integral , Regions in plane and space, Double ai1d triple iQtegrals, Change of variables technique and the Jacobeans, Line integrals and green theorem, ordinary differential equations of the second order and higher. EI!e's homogeneOLIS equations and simultaneous differential equation. Ca l cui us of finite differei1ces, Vector algebra, Scalar and crossproduct. Identifies, Application. Line and planes in space> Spherical and cylindrical coordinate ·systems1 Quadratic surfaces. Line, Surface and vo lume integral , green's and stock's and divergence theorems

ME 144 Computer Aided Mechanical Drawing 20 and 3D detailed and assembly mechanical drawings using AutoCAD and similar computer programs.

SECOND YEAR

FlRSTTERM MP 215 Mathematics-5 Ordinary and Partial differential equation: Solution of ordinary differential equations with variable Coefficients, system of linear differential equations, heat wave and laplace equation in two and three dimensions. Separation of variable technique, some boundary value problems and applications. Numerical solutions of differential equation. Complex analysis: Function of complex variables, differentiation and integration, analytic function s, cache theorem and cache formula., Contout' integration, power, series expansion, conformal mapping vector analysis: Scalar and vector fields, vector, operator, application to geometry; line, surface m1d vo lume integral , divergence theorem of gauss stock's and Green theorem. Curvilinear and orthogonal coordinates.

ME 241 Mechanics ofMachiner·y-2 Synthesis of cam profiles for specified motion- Specified cam contours- Force analysis of mechanisms. - Flywheels - Balancing of rotating and reciprocating masses- Introduction to robot systems - Direct and inverse robot kinematics. ·

ME 211 Thennodynamics-1 . Energy equation - Secoj1d law of thermodynamics ;c·Entropy ...., Perfect gases - Air standard cycles -Compressors- Psychrometry of gas mixtures- steam generation and its processes- Carnot and Rankine cycles- Availability and irreversibility -.Real gases.

EE 272 Electric Machines Engineering -1 .. Electro-Mechanical Energy Conversion: conservation of energy, fields and relevant energy, singly excited systems, energy conversion, force and torque equations, applications, doubly excited systems, dynamic equations, applications. DC Machines: construction, winding and commutation, de generators, t)'pes and characteristics. DC Motors: types, starting, characteristics and speed control, parallel operation of DC generators, efficiency and losses in de machines, applications of de moto[·s.

HS:xl2 Technical Report Writing Types of reports, contents of reports, reduced reports, detailed reports, importance and object of reports, text writing, means of graphs representation, means used for representation of report writing principles of speech, types and contents of representation screens for speech, means of research references; references, training on writing the technical reports and speech .

..... 1i::=o.~~ · <;:utting fluids and tool materials, Turning e . ;~,~sand methods of magnification.

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SECOND TERM ME 242 Computer Applications in Mechanical Engineering U~e of numerical methods and programming for solving applied problems in the various branches o~­mechanical engineering.

ME 243 Mechanical Design-1 Basics of mechanical design- Design considerations- Factor of safety- Theories of failure- Design for static strength - Design for fatigue strength - Deflection and rigidity considerations - Statically indeterminate members- Curved members- Column design -Pressure vessels.

ME 231 Fluid Mechanics-1 .. . Forces on immersed surfaces ·- Buoyancy - Kinematics of three-dimensional fluid motions - Fluid masses moving with acceleration- Vortex motion- Hydrodynamics- Mon1entum equation - Euler's and Bernoulli's equations- Fluid flow in pipelines- PI-Theorem. ··

ME 221 Fundamentals of Combustion Engineering Engine types - Combustion systems, fuel systems, and igmt10n systems in reciprocating and rotar)' engines - Fuel properti~s and ignition quality - Types of combustion chambers in reciprocating and rotary engines - Combustion thermodynamics - Chemical kinetics - Flame theories - l'lammability limits.

EE 253 Electric Po\ver ·and Industrial Electronics Trtmsmission lines. Insulators. Cables. Distributed loads. Electrical protection methods. Diode and rectifier circuits. Thyristor circuits. Controlled rectifiers. AC voltage controllers. DC choppers. Inverters.

differences, Job analysis and job ocational trainigg, Psychology of accidents and

and mental health in industrial and

THIRD YEAR

FIRST TERM ME 311 Thermodynamics-2 Steam cyc les with reheat and regeneration- Steam flow through nozzles - Impulse and reaction turbines - Perfo rm ance and control.

ME 331 Fluid Mechanics-2 Unsteady Dow through pipes- Networks of pipes- Dynamics of compressible and incompressible flovv - Continuity equation- Navier-Stokesequati9ns -::- Boundary layers- Fluid film lubrication- Turbulent flow - Two-phase flow. ·

ME 341Mechanical Design-2 Design of shafts and couplings- Threadyd joints- Riveted, welded and adhesive joints- Power screws - Mechanical springs- ylutches and brakes- Wire ropes.

ME 342 Mechanical Vibrations Single and multiple degrees of freedom systems - Free and forced vibrations - Machine Insulation .:_ Critical speeds - Dynainic absorbers - Vibration measurements - Torsional vibrations - Continuous systems.

ME 32Jlntcrnal Combustion Engines . Advanced injection syste;ns in both spark-ignited and comp~ignited engines - Pressure and flow rate calculations in injection systems - Fuel-air cycles .a_tg;~~RI:'I:I:al and di ssociation - En1ission control- Energy balanc~ . I

•••

SECOND TEIUvl

ME 312 Heat Transfer Steady state conduction - Steady state conduction with heat generation - Fins - Unsteady state conduction - Forced convection - Free convection - Tube banks - Boiling and condensation - Heat Exchangers - Radiation properties of surfaces - Radiation shape factors - Radiation exchange 111

enclosures.

ME 322 Gas Dynamics . . .. The concept of control ·volume - · C01npressible .flow ..:: Effects of friction and heat . transfer on compressible flow - Shock waves and expansion waves- Aircraft engines- Wind tunnels.

!ViE 343 Mechanical Design-3 Gear drives- Belt drives- Sliding Uournal) ~earings- Anti-friction (rolling element) bearings.

ME 344 Automatic Cotttrol System modeling - Bldck diagrams - Open and closed loops -: Time response to standard inputs -Stability analysis-·- Error analysis- Frequencyresponse - -Polar plot--: Bode plot- Root locus- Basic control actions- Contro1tuning- Compensation t~chniques-Logic circuits.

HS 362 En Design and production evaluation, Value of costing and prices. Project Planning, S construction, Critical path method, PERT, lnt•ir'I'IIY'"' r't•

~e:;~ll..eS, economic analysis of alternatives, Project activities and network

uling. ,

FOURTH YEAR

FIRST TERM ME 411 Thermal Power Plants Energy resources - Power plants: (Diesel - Gas -Steam -Nuclear - Combined) - Steam power plant: (Steam generators- Steam turbines- Condensers- Evaporators- Chimneys- Fans- Cooling towers)­Variables load problems- Economic and. controls.

ME 431 Hydraulic Machines Pumps- Turbines- Hydropower stations- Hydraulic circuits.

~

ME 412 Refrigeration and air Conditioning Refrigeration methods: -(Air refrigeration- Steam jet- Absorption- Thermoelectric)- Refrigeration equipment : (Evaporators - Condensers - Cooling towers - Expansion devices - Compressors) -Refrigeration (cold) stores- Insulation- Psychometric pr0cesses and cycles- Cooling and heati11g loads - Air cond itioning equipment (units)- Duct design.

liS x33 Laws fo.r Engineering I>rofession Definition of law and ·its duties, Principles and · regulations of statutes, i-fighlights on the Civi·t law(general principles with emphasis on contracts and compensations), Highlights on criminal law (cr.iminal responsibility on the engineer as a professional), Highlights on the laws of syndicates· (respons ibilities, disciplines, charter of honor), Highlight on the law of enterprises (foundation, individual enterprises, incentive and guarantee for the investment), Highlight on the laws of taxes and their types, Highlights on law of environment protection, Investigation and :litigation.

ME 401 Project The student continue his project

ME 4El Elective Course (1) : One of the Following Courses ·-

ME 413 Design of Thetmal Equipment Heat exchangers- Condensers- Evaporators- Air washers- c ·ooling towers - -Chilled water systems -Pipes design and thermal insulation. · ·

ME 421 Gas Tm·bines Basic types of axial and radial turbines and compressors- Fuel systems- Combustion chambers­Design considerations and effects on performance parameters of turbines- Emission control in gas turbines.

ME 432 Industrial Fluid Mechanics I Iyclro and pneumatic transportation of solid materials pipelines). Mixing processes, cavitation in hydraulic equi

ME 4410ptimum Design Formulation of optimum design equations- Methods of optin t

programming- Numerical methods of constrained and uncons

and flow control 111

SECOND TERM

ME -BS Hydraulic Circuits Des ign of basic circuits - Elements o[ hydraulic circuits and design factors - Performance of basic hydraulic circuits and applications on practical circuits.

ME 433 Mechanical Engineering Laboratory Experiments in the fields of Fluid engineering- Thermal engineering- Gas dynamics- Combustion­Mechanical design- Mechanical vibrations- Automatic control.

liS 463 Marketing . '-- _, Definition of marketing, Objective of marketirrg systems, Hierarchy of marketing systerns, Role of marketing for the economic unit with planning strategy, Process of marketing, Marketing Information system, Consumer markets and , purchasing behavior, Pricing strategy, Marketing channels, Communication marketing means: advertising and promotion.

~1E .t17 Environnent and Energy r: nergy World Resources -Elements of the. environment - Sources of polltnants Air and water pollution - Nois~ - Nuclear pollution - .Perlnissible limits of pollutants- Standards - Treatment and waste management - Egyptian Law No. 4/94 - Environnemental management of energy generation proj ects.

Mlt 402 l)roject The student continue his project

.. -ME 4E2 Elective Course (2) : One of the Following Courses

ME 414 Operation and Management of Thermal Power Stations This course is intended to study the operation -of power station including startup - shutdown - trouble shooting of boilers, turbines, condensers and cooling towers. The management of load between units and investments in energy saving projects is also included.

ME 422 Advanced Topics in Combustion Engineering Advanced studies of select~.d topics on reciprocating and rotary combustion engines - Emphasis on design, performance, and environmet'ital assessment. ·

ME 434 Fluid Machinery This course is designed to cover the important aspects of design, selection, operation and mainte"nance of pumps, compressors, fans and blowers beside the theory of each type (rotodynami~ or'positive displacement).

M£ 442 Introduction to Mechatronics Digital circuits and syst~ms- Signal processing- Data acquisition systems- Sensors- Actuators- Fluidic logic - Fuzzy logic control- Artificial neural network control systems.

~·,, Com·ses

E'W and Renewable Energy- Watern Desalination

Technology.

ED

UCAT ION FOR EVERYO

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R S E C E R T I F I CA

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C O U R S EC E R T I F I C A T E

09/10/2015

Mohammed Wael Elhifnawy

Introduction to Programming with MATLAB

a 9 week online non-credit course authorized by Vanderbilt University and offeredthrough Coursera

has successfully completed

Robert Tairas, Ph.D. | Professor Emeritus J. Michael Fitzpatrick, PhD | Associate Professor Ákos Lédeczi, Ph.D.

Verify at coursera.org/verify/GTGZJ35ZVK

Coursera has confirmed the identity of this individual andtheir participation in the course .

Statement of Participationiversity hereby certifies that Mohammed Elhifnawy has participated in the following course:

Vehicle Dynamics II: CorneringTaught from February 2016 to May 2016 by Univ.-Prof. Dr.-Ing. Martin Meywerk.

The single track model is derived including slip angle and Kamm’s circle. Steady statecornering, stability and the influence of weight distribution between the wheels isinvestigated. Two mechatronic applications are explained.

iversity.org is a higher education online platform, enabling a global community of learners to study with excellent professors from all over

the world. This certificate does not affirm that the student was enrolled at the mentioned institution(s) or confer any form of degree, grade or

credit. The course did not verify the identity of the student.

ED

UCAT ION FOR EVERYO

NE

CO

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R S E C E R T I F I CA

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C O U R S EC E R T I F I C A T E

03/31/2016

Mohammed Wael Elhifnawy

Control of Mobile Robots

an online non-credit course authorized by Georgia Institute of Technology and offeredthrough Coursera

has successfully completed

Magnus EgerstedtProfessorSchool of Electrical and Computer EngineeringCollege of EngineeringGeorgia Institute of Technology

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Coursera has confirmed the identity of this individual andtheir participation in the course .

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1 1 /25/2015

Mohammed Wael Elhifnawy

Fundamentals of Fluid Power

a 7 week online non-credit course authorized by University of Minnesota and offeredthrough Coursera

has successfully completed

James D. Van de Ven, Assistant ProfessorDepartment of Mechanical EngineeringUniversity of Minnesota

Professor William Durfee, PhDDepartment of Mechanical EngineeringUniversity of Minnesota

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Coursera has confirmed the identity of this individual andtheir participation in the course .

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10/02/2015

Mohammed Wael Elhifnawy

Introduction to Engineering Mechanics

an online non-credit course authorized by Georgia Institute of Technology and offeredthrough Coursera

has successfully completed

Wayne E. Whiteman, Ph.D., P.E. | Dr. Nelson BakerSenior Academic Professional | Dean of Professional EducationWoodruff School of Mechanical EngineeringGeorgia Institute of Technology

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Coursera has confirmed the identity of this individual andtheir participation in the course .

Statement of Participationiversity hereby certifies that Mohammed Elhifnawy has participated in the following course:

Modelling and Simulation using SimulinkTaught from December 2015 to February 2016 by Prof. Dr. Peter Dannenmann, Prof. Dr.-Ing.Patrick Metzler, and Prof. Dr.-Ing. Georg Fries.

Development of Simulink® Models - Modelling a Water Treatment Plant - Control Engineeringusing Simulink® - The Arduino microcontroller and the corresponding Simulink® supportpackage - Control Engineering using the Arduino

About Hochschule RheinMain - University of Applied Sciences - Wiesbaden RüsselsheimRheinMain University of Applied Sciences provides outstanding educational and jobopportunities. Its research strengths, its team spirit and its attentiveness to the needs ofsociety and of the market alike ensure that its degree programs are relevant to the world ofwork and life.

iversity.org is a higher education online platform, enabling a global community of learners to study with excellent professors from all over

the world. This certificate does not affirm that the student was enrolled at the mentioned institution(s) or confer any form of degree, grade or

credit. The course did not verify the identity of the student.