Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comSyl l ab us Fo rM echani calEng i neeri ngDep art ment N asi m Bi n J asi m102001 M E' 10 Prerequisite Course Course No.Course TitlePrerequisite Course No. and Course Title Math-1205Engineering Math-IIMath-1105Engineering Math-I ME-1200Engineering Drawing-IIME-1100Engineering Drawing-I Math-2305Engineering Math-IIIMath-1205Engineering Math-II EE-2333Electrical Engineering-IIEE-1233Electrical Engineering-I ME-2300MechanicalEngineering Drawing ME-1200Engineering Drawing-II Math-2405Engineering Math-IVMath-2305Engineering Math-III ME-2401Thermodynamics-IIME-1101Thermodynamics-I ME-2403Engineering Mechanics-IIME-2303Engineering Mechanics-I Math-3505Engineering Mathematics-V Math-2405Engineering Math-IV ME-3601AdvancedHeat&Mass Transfer ME-3501Heat Transfer ME-3603Engineering Mechanics-IIIME-2403EngineeringMechanics-II ME-3609Design of Machine Elements-II ME-3509Design of Machine Elements-I ME-4705Fluid Mechanics-IIME-3505Fluid Mechanics-I ME4805Fluid MachineryME-4705Fluid Mechanics-II ME-4807Machine Tools-IIME-3607Machine Tools-I ME-4700& ME-4800 Project and ThesisME-3600Industrial Training Syllabus OF Courses Offered for 1st Year B.Sc. Engineering Semester-I SL.CourseCourse TitleTheorySessionalTotal No.No.Contact Hour/ Week CreditsContact Hour/ Week CreditsCredit 1.Ch-1105Chemistry-I33--3.00 2.Ch-1106Chemistry-I Lab --1.50.750.75 3.Ph-1105Physics-I33--3.00 4.Ph-1106Physics-I Lab --1.50.750.75 5.Hum-1105Economics33--3.00 6.Math-1105Engineering Math-I 33--3.00 7.ME-1100Engineering Drawing-I --31.51.50 8.ME-1101Thermodynamics-I 33--3.00 9.ME-1102Thermodynamics-I Lab. --1.50.750.75 10.MES-1106Shop Practice-I --31.51.50 Total151510.55.2520.25 No. of Theory Course = 05Total Contact Hour = 25.50; No. of Sessional Course = 05Total Credit = 20.25; Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comSemester-II SL.CourseCourse TitleTheorySessionalTotal No.No.Contact Hour/ Week CreditsContact Hour/ Week CreditsCredit 1.Ch-1205Chemistry-II33--3.00 2.Ch-1206Chemistry-II Lab--1.50.750.75 3.Ph-1205Physics-II33--3.00 4.Ph-1206Physics-II Lab--1.50.750.75 5.Hum-1205 Technical English & Communication Skill/ Bangladesh Culture and Society 22--2.00 6.Math-1205 Engineering Math-II 33--3.00 7.EE-1233Electrical Engineering-I 33--3.00 8.EE-1234Electrical Engg.-I Lab. --1.50.750.75 9.ME-1200Engineering Drawing-II --31.51.50 10.MES-1204Shop Practice-II--31.51.50 Total141410.55.2519.25 No. of Theory Course = 05 Total Contact Hour = 24.50; No. of Sessional Course = 05 Total Credit = 19.25; Ch-1105 (Chemistry-I) Lecture: 3 hrs/week,No. of Credit:3.00 Concept of Atomic Structure: Quantum numbers, electronic configuration, and periodic table. Properties and uses of noble gases. Molecular structure of compounds. Selective organic reactions.Solution:Typesofsolutionsandtheircompositions.Phaserule,phasediagramofmono-componentsystem.Propertiesof dilute solutions. Thermo-chemistry: Laws of thermo-chemistry; Heat of reaction, heat of solution, heat of combustion, heat of formation and heat of neutralization; Experimental determination of thermal changes during chemical reactions. Kinetics & Chemical Equilibrium: Chemical kinetics, chemical equilibrium. Colloids:Classificationofcolloids;methodsofpreparationandpurificationofcolloidalsolutions;propertiesofcolloids; associated colloids; gels; emulsions; applications of colloids. Electrochemistry:Electrolysis;Theoriesofelectrolyticdissociation,conductivityandmobilityofions;Transport number, ionicequilibrium; Ostwalds' dilution law;elementaryidea aboutinterionic attraction theoryofDebyeandHuckel;Activity and activity coefficients, Ionization of water and pH concept. Electric properties of solution. Ch-1106 (Chemistry-I Lab) Sessional: 1.5 Hours/Week,No. of Credit: 0.75 Practical experiments based on Chemistry-I Ph-1105 (Physics-I) Lecture: 3 hrs/week, No. of Credit: 3.00 Physical Optics: Theories of light, Huygen's principle and construction, Superposition of light waves. Interference:Introduction,ConditionofInterference,Young'sdoubleslitexperiment,Interferenceduetomultiple reflection, Newton's rings. Diffraction: Introduction, Fresnel and Fraunhoffer diffraction, diffraction by single slit and double slit diffraction gratings. Polarization:Introduction,Polarizationbydoublerefraction,NicolePrismandPolarimeters,Productionandanalysisof polarized light, Optical activity, optics of crystals. Geometrical Optics: Reflection and Refraction of spherical surfaces, Lenses, Combination of Lenses, Equivalent Lens and equivalent focal length. Defects of images formed by lenses, Monochromatic and Chromatic aberrations, Spherical aberrations, Astigmatism, Coma, Distortion and curvature of images, achromatism and achromatic combination of lenses. Oscillations:SimpleHarmonicMotion,CombinationofSimpleHarmonicMotionandLissajous'figures,Vibrating systems,Undamped and Damped Oscillations, Forced Oscillations, Resonance. Waves: Transverse waves, Longitudinal waves, Wave motion, Superposition of waves, Reflection of waves, progressive and stationary waves. Sound Waves:Sourcesofsound, Transmitting medium,Speedofsound,Beats,theDopplereffect,Sonicbooms,Audible Ultrasonic, Infrasonic and Supersonic waves. Acoustics:Introduction,Relatedtermsinacoustics,loudnessandintensity,Reverberationecho,Noisereduction,Sound absorption, Sound distribution. Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comPh-1106 (Physics-I Lab) Sessional: 1.5 hrs/week,No. of Credit: 0.75 Sessional based on Physics-I Hum-1105 (Economics) Lecture: 3 hrs/week, No. of Credit: 3.00 FundamentalConceptsofEconomics:Definitionofeconomics.EconomicsandEngineering;Microeconomicsand macroeconomics; economic theories; Demand, Supply and elasticity; Price system; market & equilibrium. Unemployment & its Measurement: Money; Inflation; concept of inflation, causes, consequences & remedies. Price index number & consumer price index: Lows of returns, Economies & Diseconomies; Production; Production function.GrossNationalProduct(GNP)&NationalIncome:Concepts,measurementsandimportanceofnationalincomeinthe modern economics. EconomicGrowth&Development:Definition,Relationshipbetweengrowth&development,Economicplanning; Development problems in Bangladesh; The role of the state in economic activity; market and government failures; Economic policy of Bangladesh. A review of Five Year Plans in Bangladesh. InternationalTrade:Size&scopeoftrade;Termsintrade;Freetrade&tradeprotection;Tariffs&Quotas;Trade adjustment; Review of Export Import-trade policy of Government of Bangladesh. Math-1105 (Engineering Math-I) Lecture: 3 hrs/week,No. of Credit-3.00 DifferentialCalculus:Limit,Continuity,differentiationandSuccessivedifferentiationonvarioustypesoffunction, Leibnitz'stheorem,Expansionoffunctions;Rolle'stheorem,Meanvaluetheorem,Taylor'stheorem,Partialdifferentiation, Determinationofmaximumandminimumvaluesoffunctions,pointofinflection,itsapplications.Indeterminateform; L'Hospital rule, Curvature, Curve tracing. Geometry: Two-dimensionalCoordinateGeometry:Changeofaxis, pairofstraightlines,generalequationofseconddegree;circle, parabola, ellipse, pole, polar, tangent, normal, subnormal. Three-dimensionalCoordinateGeometry:Systemofcoordinate,distancebetweentwopoints,sectionformula, projections, direction cosines, equation of planes and lines. ME-1100 (Engineering Drawing-I) Sessional: 3 hrs/week,No. of Credit:1.50 The Graphic Language: Introduction to pictorial drawing, Lettering, Theory of projection, orthographic projection, and first and third angle projection. Drawing equipment & use of instruments, size description, scale, dimensioning rules. Multi view representation & conventional practices, Graphical mathematics, Geometrical Construction.Engineering drawing: Introduction to factory building drawing. ME-1101 (Thermodynamics-I) Lecture: 3 hrs/week,No. of Credit-3.00Energy: Concept & fundamental, Forms and sources of energy - conventional & renewable energy;energy conservation & environmental pollution. Fundamental Conceptsof Thermodynamics: Basic concepts and definitions; thermodynamic systems, property and state, cycle - thermodynamic processes; thermal equilibrium and Zeroth law. First Law of Thermodynamics: Corollaries, internal energy and enthalpy. Pure Substance: properties of water & steam; Control volume energy analysis: conservation of mass & energy. Mixtures of Gases & Vapors: Psychometrics; Real gases. StudyofSteamGeneratingUnits:Introduction, accessoriesandmountings;performancestudyofsteamgenerator,steam engines. ME-1102 (Thermodynamics-I Lab) Sessional: 1.5 hrs/week, No. of Credit: 0.75 Sessional based on Thermodynamics-I MES-1106 (Shop Practice-I) Sessional: 3 hrs/week,No. of Credit: 1.50 Acquaintancewithtools&appliancesusedinwelding&sheetmetalshop:Electricarcwelding;gaswelding;gascutting; soldering & brazing practices. Welding defects. Simple exercise on sheet metal work. Introduction tofitting shoptools,equipment andoperation. Chiseling;Sawing;Filing;Reaming;Threadcutting(outside& inside); Hand finishing & any other job that the department will consider if necessary. Ch-1205 (Chemistry-II) Lecture: 3hrs/week, No. of credit: 3.00 Corrosion:Cost&importanceofcorrosion; Electrochemical&thermodynamicprinciplesofcorrosion;Differenttypesof corrosion;Methodsofcorrosionprevention;Preventionbydesignimprovement,changeofmetal,inhibitors,cathodic protection, anodic protection, paint, varnish & metallic coatings. Pollution: Source of environmental pollution; harmful effect of pollution; Measuring pollution; control of pollution. Non-metallicEngineeringMaterials:Rawmaterials&productiontechnologyofcement,porcelain,glassceramic, fertilizer, synthetic & natural rubber; Refining of crude oil; Plastic & synthetic fibers, lubricants. Ch-1206 (Chemistry-II Lab) Session: 1.5 hrs/week,No. of Credit: 0.75 Experiments based on Chemistry-I Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comPh-1205 (Physics-II) Lecturer:3hrs/week, No. of Credit: 3.00 AtomicPhysics:Atomicstructure,atommodel,NatureofElectronorbit,OrbitalEnergy,OriginofSpectrallines.Photo electric Emission and Einstein's Photoelectric equation, Compton effect, De-Broglie's waves. Nuclear Physics: Introduction, Binding energy, Isotope, Isobar, Isotone, Fission and Fusion Process, Chain reaction, Nuclear Reactors. Radioactivity: Radioactive decay, Half-life, and Mean life, Law of disintegration, successive disintegration. Electricity and Magnetism: Electric charge, Coulomb's law, The electric Field, Calculation of electric flux and Gauss's law, someapplicationofGauss'slaw,ElectricpotentialV,relationbetweenEandV,electricpotentialenergy,Capacitors, Capacitance,dielectricandatomicview,dielectricandGauss'slaw,currentandresistance,currentandcurrentdensity:an atomicview,Ampere'slaw,Faraday'slaw,selfinductanceandmutualinductance.Magneticpropertiesofmatter, magnetomotiveforce,magneticfieldintensity,permeability,susceptibilityclassificationsofmagneticmaterials, magnetization curves magnetostrication. StructureofMatter:Structureofmatter,Differenttypesofbondsinsolids,metallic,Vander-Walls,Covalentandionic bond, packing in solids, inter atomic distances and forces of equilibrium, x-ray diffraction, Bragg's law, distinction between insulator, semiconductor and conductor. Ph-1206 (Physics-II Lab) Sessional: 1.5 hrs/week, No. of Credit: 0.75 Sessional based on Physics-II Hum-1205 (Technical English & Communication Skill/Bangladesh Culture and Society) Lecture: 2hrs/week,No of Credit: 2.00 TechnicalEnglishandCommunicationSkill:Constructionofsentencesandparagraphs,Definitionofscientificterms- Correction-Commercialcorrespondence-preparingtendersandschedules-phrasesandIdiomsprepositions- Comprehension - Amplification - Description and Precise writing, Report writing. Bangladesh Culture & Society: GeographicalAspects:LocationofBangladesh,itsimportance-population,weatherstemperature,rainfallsandwind pattern. Social System - family, marriage, economic & political institutions. Role of Engineers in Society. Cottage Industries in family life, technology of industries, imports & exports.SocialProblems:Socialproblemsastheoutcomeofindustrialization,unemployeddelinquencyandcrime;effectsof changes in science & technology on society. Math-1205 (Engineering Math-II) Lecture: 3 hrs/week,No. of Credit: 3.00 IntegralCalculus:Reviewofelementarytechnique(Integrationbythemethodofsubstitution,Integrationbyparts, Successivereduction,Standardintegrals), Improperintegrals;Beta,Gammaand Errorfunction,Differential inside integral, Applications; Area, Length of curves, volume. DifferentialEquation:Basicconceptandideasofdifferentialequation,solutionoffirstorderdifferentialequationsby various methods, solution of general linear equations of second and higher order with constant coefficient, applications. PowerSeriesMethod:Bessel'sequation,Besselfunction,Legendre'sequation,andLegendrepolynomial,applicationof Bessel function especially in heat transfer & mechanics. EE-1233 (Electrical Engineering-I) Lecture: 3 hrs/week, No. ofCredit: 3.00Fundamental Concepts and Units, Electrical Networks: Network laws and theorems, methods of analysis. Electrical field concepts: Capacitance. Transient and steady state analyses of electrical networks for different forcing functions, Introduction to magnetic circuits. Alternating Current: Effective and average values of alternating waveforms. Phasor and complex-impedance. Steady state analysis of AC networks. Balanced Polyphase systems. Introduction to Measurement of Electrical Quantities: Voltage, current and power.

EE-1234 (Electrical Engineering-I Lab) Sessional: 1.5 hrs/week, No. of credit: 0.75Sessional based on Electrical Engineering-I ME-1200 (Engineering Drawing-II) Sessional: 3hrs/week,No. of Credit: 1.50 Mechanicalengineeringdrawing:Orthrographicprojectionproblems;Multiviewprojectionproblems,Auxiliaryviews, Axonometricprojection,Obliqueprojection,Perspectiveviews,Isometricdrawing.Sectionalviews.Geometrical construction. Development of surfaces & Intersection of solids. MES-1204 (Shop practices-II) Sessional: 3 hrs/week, No. of Credit: 1.50 Acquaintancewithhand&machinetoolsusedinwoodworking.Identificationofsoft,hard&modifiedwoods;Sawing, planning&chiselingpractice;Mortising,tenoningdovetail,pin&socketmaking,Halflap,crossjoint,rabbetjoint,dado joint & miter joint. Making simple wood patterns that will be used in foundry shop. Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comSyllabus OF Courses Offered for 2nd YearB.Sc. Engineering Semester-III SL.CourseCourse TitleTheorySessionalTotal No.No.Contact Hour/ Week CreditsContact Hour/ Week CreditsCredit 1.Math-2305 Engineering Math-III 44--4.00 2.Hum-2305Accounts & Industrial Law 33--3.00 3.ME-2321Basic Comp. and Programming 33--3.00 4.ME-2322Basic Com. & Prog. Lab --2.001.001.00 5.ME-2300Mechanical Engg. Drawing --31.51.50 6.ME-2303Engg. Mechanics-I 33--3.00 7.ME-2307Production Process 33--3.00 8.ME-2308Production Process --3.01.501.50 Total16168420.00 No. of Theory Course = 05Total Contact Hour = 24.00; No. of Sessional Course = 03Total Credit = 20.00; Semester-IV SL.CourseCourse Title TheorySessionalTotal No.No.Contact Hour/ Week CreditsContact Hour/ Week CreditsCredit 1.Math-2405 Engg. Math-IV 33--3.00 2.EE-2433Electrical Engg.-II 44--4.00 3.EE-2434Elec. Engg.-II Lab. --1.500.750.75 4.ME-2401Thermodynamics-II 33--3.00 5.ME-2402Thermodynamics-II Lab --31.501.50 6.ME-2403 Engg. Mechanics-II 33--3.00 7.ME-2404Engg. Mechanics-IILab. --1.500.750.75 8.ME-2409Mechanics of Solids 44--4.00 9.ME-2410Mecha. of Solids Lab. --1.500.750.75 Total17177.503.7520.75 No. of Theory Course = 05 Total Contact Hour = 24.50; No. of Sessional Course = 04 Total Credit = 20.75; Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comMath-2305 (Engineering Math-III) Lecture: 4 hrs/week,No. of Credit: 4.00 Matrices:Vectorspace;subspace,linearlydependentandindependentvectors,linearcombination,basis,span,matrix algebra; Rank of matrices, Elementary transformation, Eigen-systems, Solution of linear algebraic and differential equations by matrix method; Diagonalization and arthogonalized transformation, Quadratic form, positive, semi-positive, negative and semi-negative matrices. Vector Analysis: Vector geometry; Addition and multiplication of vectors, Vector Calculus: Differentiation and integration of vectors with respect to a parameter, Line integration, surface integration and volume integration; Gradient, divergence and curlofavector,anditsphysicalsignificance;Conservativesystems;Green'stheorem,Gauss'sdivergencetheoremand Stokes' theorem and their applications in some physical problems. Partial Differential Equations: Introduction, First order linear and nonlinear equations; Standard forms; Solutions ofHeat and wave equations (One-dimensional). Hum-2305 (Accounts and Industrial Law) Lecture: 3 hrs/week, No. of Credit: 3.00 Accounts:DefinitionofBookkeeping:Itsobjectsandadvantages;Principleofdoubleentry.Natureoftransaction; Classification of accounts; Capital transaction and Revenue transaction. Rules for debit and credit. Journal, Cash bookwith bank column, Trial balance, Ledger, Final Account. Trading and manufacturing Account. Profit and loss A/C. Balance sheet. CostAccounts:Definition,objects,Methodofascertainingcost,elementofcost,overheadchargesanddistributionof overhead. Cost control. Operating costing. IndustrialLaw:IndustriallawinBangladesh:Variousordinancepaymentofwages,legislationrelatingemploymentin industries, Factories, shops and agriculture. Principle of law of contract, agency, partnership, sales of goods. Trade Union Act: Workmen's compensation Act, Arbitration and conciliation. The industrial courts; the policyof the state in relation to labor, ILO and other industrial body affecting welfare. The law of social insurance. ME-2321 (Basic Computer and Programming) Lecture: 4 hrs/week,No. of Credit: 4.00History and Development of Computer: Introduction to Digital Computer: Main parts like I/O devices, Memory unit and CPU. Primary and secondary storage devices, different memory types Introduction to Number System. Languages:AssemblylevellanguageandMachinelevellanguage,Highlevellanguage,Compiler,Interpreter,Sourceand Object programs. Application andSystemSoftware:OverviewofDOS,WindowsandUNIXoperatingsystems,Essentialgeneralpurpose packages for word processing, spreadsheet analysis etc.Concept of Algorithms: Development of Flowcharts to solve engineering problems. IntroductiontoCLanguage:Preliminaries,Programconstructionanddatatypes,I/Ostatements,Expressions,Decision making, Loops, Function and its Calling procedure, Recursion, Arrays and pointer, structure aduminar, Equivalent programs in FORTRAN, Application of computer programming for solving engineering problems. ME-2322 (Basic Computer and Programming-Lab.) Sessional: 2hrs/week,No. of Credit: 1.00 Sessional based on Basic Computer and Programming ME-2300 (Engineering Drawing-III) Sessional: 3 hrs/week,No. of Credit: 1.50 ComputerAided Drawing:Useofinteractivemenu-drivensoftwareforpreparationoflinedrawings,Graphiccoordinate system.Commandsfordraw,erase,move,rotatemirror,hatchetc.,Blocksandlayers.Dimensionaldrawingfiles,saving, editing, and plotting. ProductionDrawing:Machinedrawing,studyofpartdrawing,studyofassemblydrawing,Preparingcompleteworking drawing(detailandassembly)fromexplodespictorialandactualmachines.Dimensioningwithtolerances,notesetc. Representation of Conventional features (threads, fasteners, gear, spring, their specification) & drawing. ME-2303 (Engg. Mechanics-I) Lecture: 3 hrs/week. No. of Credit: 3.00 Statics:Stateofequilibrium;conditionsofequilibriuminspace;Equilibriuminspaceforconcurrent,non-concurrentand parallel force systems; couple; Transmissibility of forces and force couple system; wrench; coulomb friction; sliding friction; pivotfriction; Belt friction; Journal friction; rolling friction; method ofvirtual work and applications; Equilibrium positions of composite bodies. Analysis of forces in trusses and frames. Distributed Forces: Centroids of lines, areas and volumes; Moments of inertia of area and mass; Radius of gyration; Product of inertia; Paralles axis theorem and angular shift of an axis and transfer formulae; Principal axis and principal moments of inertia; Ellipsoid of inertia. ME-2307 (Production Process) Lecture: 3 hrs/week, No. of Credit: 3.00Casting: Patterns & allowance; Molding tools & operation. Sand molds casting. Other casting processes; Shell mold, plaster mold, lost wax casting, centrifugal casting, permanent mold casting, Die casting, continuous casting. Casting design, casting defects & remedies. Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comChip-lessMetalFormingProcess:Differenttypesofhot&coldworkingprocess;rolling,colddrawing,deepdrawing, forging, extrusion, stamping, shearing, bending & press works. Different forming processes of non-metals: plastics, ceramics & non-metalic composite materials.ToolGeometry:Cuttingforceanalysis;force&powerestimation,relationsamongspeed,feed,depthofcutandpower input; Metal cutting dynamometers; Tool wear, tool life & machinability; Economics of metal cutting.Chip Formation Process: Typesofchips; chips breakers; Tool materials; friction between tool & chip; Cutting fluid & its action; surface finish. Metal Removing Process: Introduction to turning, drilling shaping planing, milling, broaching, grinding, precision and non-precision finishing processes. Welding:Arc,Gas,TIG,MIG,resistance,Thermit&otherspecialtypes.Electrodes&theiruses;Causes&remediesof common welding troubles; Brazing & soldering processes; welding symbols. ME-2308 (Production Process) Sessional: 3.00 hrs/week,No. of Credit: 1.50 Sessional:Acquaintancewith tool&appliancesusedinfoundryshop;moldingsandand itspreparation;Making moldfor ferrous & non-ferrous casting; use of core boxes; Casting of metals. Introduction to Safety Measures: Introduction to the principles ofworking, construction, operation, typesof cutting tools, selection of cutting speed & feeds etc. regarding basic machine tools. Study of Lathe Machines: Straight turning, contour turning, turning by various methods; internal & external thread cutting. Study of Shaper Machine: Facing, slotting, angle slotting & profile cutting on shaping machine. Study of Grinding Machines: Wheel dressing, surface grinding. Study of Drilling Machine: Drilling, countersinking, counter boring etc. Exercise: Simple job on lathe, shaping & drilling machine. Demonstration: Milling & grinding machines. Any other machining work assigned by the department. Math-2405 (Engineering Math-IV) Lecture: 3 hrs/week, No. of Credit: 3.00 ComplexVariable:Analyticfunctions,singularity;Lineintegration,Cauchy'stheorem;Cauchy'sintegralformula;Power series:TaylorandLaurentseries,Zerosandpoles.Residuetheoremandcontourintegration;Conformalmapping;Simple applications to fluid dynamics. HarmonicAnalysis:Periodicfunctions;Fourierseries(bothrealandcomplexforms);oddandevenfunctions;sineand cosine series; Fourier transformations and Fourier integral, its application to boundary value problems. Harmonic functions, Laplace equations, spherical harmonic, surface zonal harmonic; gravitational potential due to spherical shell and sphere. Laplace Transformation: Laplace transformation to algebraic and trigonometric functions, Inverse Laplace transformation, Applications to linear differential equations (both ordinary and partial). EE-2433 (Electrical Engineering-II) Lecture: 4 hrs/week,No. of Credit: 4.00Basic Principles of Electromagnetic Energy Conversion Systems: Transformers: Single phase and Three phases, open and short-circuit tests. Electrical Machines: DC-machines: DC generator and motors, speed control and applications of DC motors. AC- machines: Synchronous and asynchronous machines; speed control and applications, Starting of motors. Introduction to Semiconductor Devices: Diode, transistors, FET, Amplifiers and their applications. Thyristor: Its application for controlling speed of electrical machines. Oscilloscopes, Transducers: Temperature, pressure and speed transducers. EE-2434 (Electrical Engineering-II Lab.) Sessional:1.5 hrs/week,No. of Credit: 0.75 Sessional based on Electrical Engineering-II ME-2401 (Thermodynamics-II) Lecture: 3 hrs/week, No. of Credit: 3.00 GeneralThermodynamicRelationships:Vaporpressure;TheClausius-Clapeyronequation;equationofstate. Thermodynamic cycles, refrigeration cycle & heat pump. Second Law of Thermodynamics: Corollaries -- reversibility, irreversibility, and entropy. Heat Engine: Introduction to diesel and gasoline engines; operation; performance tests; two and four stroke engines; valve timing diagrams; PV and TS diagrams for two and four stroke gasoline and diesel engines. Fuels:Introductiontosolid,liquidandgaseousfuels,conventionalandalternatefuels,fuelcompositions,fuelproperties, elemental analysis of fuel. Introduction to Combustion Phenomena: Stoichiometry, combustion processes, combustion chemistry, and determination of products of combustion. ME-2402 (Thermodynamics-II Lab.) Sessional: 3 hrs/week,No. of Credit: 1.50 Sessional based on Thermodynamics-II Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comME-2403 (Engg. Mechanics-II) Lecture: 3 hrs/week, No. of Credit: 3.00Kinematics of Particles: Rectilinear and curvilinear motion of particles; Motion of several particles; Components of velocity and acceleration; Motion relative to frame in translation; Tangential, normal, radial and transverse components. Kinematics of Rigid Bodies: Translation; Rotation; General plane motion; Motion about a fixed point and general motion; Absolutevelocityandacceleration;Relativevelocityandacceleration;Coriolisacceleration;Mechanism-Velocityand acceleration analysis; Angular acceleration due to precession; Gyroscopic motion and couple-principles and applications. Kinetics of Particles: Newtons second law of motion; linear and angular momentum; Radial and transverse component of motion; motion under a central force; two-body problem; Satellite motion; Equation of orbit; Cycle time; Orbit change. Kinetics of Rigid Bodies: Plane motion of rigid bodies; Angular momentum and DAlemberts principle; Inertial force and inertia torque; Center of percussion; Combined rolling and sliding. Work,EnergyandPower:Workandkineticenergy;conservativeforcesystems;Workdonebyaconservativeforce; potential energy; Work due to friction force in sliding and rolling. Impulse and Momentum: Principle of conservation of momentum; direct and oblique impact; angular impulse and angular momentum; Impulse and momentum of rigid bodies. ME-2404 (Engg. Mechanics-II Lab.) Sessional: 1.5 hrs/week, No. of Credit: 0.75 Sessional based on Engineering Mechanics-II ME-2409 (Mechanics of Solids) Lecture: 4 hrs/week,No. of Credit: 4.00Introduction:Conceptofstressandstrain,Displacementsanddeformations,mechanicalpropertiesofsolidmaterials, Isotropic, linear, elastic, viscoelastic & plastic materials. SimpleStress&Strain:Varioustypesofstressesviz.,tensile,compressive,shearing,bearing&thermalstresses,thin-walledpressurevessels,stress-straindiagram,Hook'slaw,Poisson'sratio,Biaxial&triaxialdeformations,statically indeterminate members. Torsion: Assumption & derivation of Torsion formulas, torsion of hollow thin-walled shaft, shear flow, helical spring. Statically Determinate Beam: Beam, beam support, types of loading, shearing force & bending moment and their diagrams, relations among load, shear & moment. Stresses in Beam: Sign conventions. Derivation of flexure formula, economic section, Unsymmetrical beam, reinforced concrete beams. Beam Deflection: Theories of area moment method, double integration & superposition method, moment diagram by parts, deflection of cantilever & simply supported beam, mid-span deflection. Statically Indeterminate Beam: Introduction to Strain-energy method, Castiglianos theorem & its application.CombinedLoading&theoriesofElasticFailure:Introduction,combinedaxialandflexuralloads,Eccentricallyloaded memberintensionorcompression,coreorkernofasection,variationofstresswithinclinationofelement,Analytical derivation,Mohr'sCircle,ApplicationofMohr'scircletocombinedloading, transformationofstraincomponents,Relation between modulus of rigidity and modulus of elasticity, Theories of elastic failure, Equations of equilibrium in terms of stress components. ColumnTheory:Introduction,criticalload,Euler'scolumnformula,varioustypesofcolumn,Empiricalformulas, Eccentrically loaded column. ME-2410 (Mechanics of Solids-Lab.) Sessional: 1.5 hrs/week, No. of Credit: 0.75 Sessional based on Mechanics of Solids Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comSyllabus OF Courses Offered for 3rd YearB.Sc. Engineering Semester-V SL.CourseCourse TitleTheorySessionalTotal No.No.Contact Hour/ Week CreditsContact Hour/ Week CreditsCredit 1.Math-3505 Engineering Math-V 44--4.00 2.Math-3506 Engineering Math-V --1.500.750.75 3.ME-3501 Heat Transfer 33--3.00 4.ME-3505 Fluid Mechanics-I 44--4.00 5.ME-3506 Fluid Mecha-I Lab --31.501.50 6.ME-3507 Instrumentation, Quality Control & Materials Handling 44--4.00 7.ME-3508 Instrumentation, Quality Control & Materials Handling --1.500.750.75 8.ME-3509 Design of Machine Elements-I 33--3.00 9.ME-3510 Design of Machine Elements-I --1.500.750.75 Total18187.503.7521.75 No. of Theory Course = 05 Total Contact Hour = 25.50; No. of Sessional Course = 04Total Credit = 21.75; Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comSemester-VI SL.CourseCourse TitleTheorySessionalTotal No.No.Contact Hour/ Week CreditsContact Hour/ Week CreditsCredit 1.ME-3601Advanced Heat & Mass Transfer 33--3.00 2.ME-3602Advanced Heat & Mass Transfer Lab --1.500.750.75 3.ME-3603Engg. Mechanics-III 33--3.00 4.ME-3604Engg. Mechanics-III Lab. --1.500.750.75 5.ME-3607Machine Tools-I 33--3.00 6.ME-3609Design of Machine Elements-II 33--3.00 7.ME-3610Design of Mach. Elem.-II Lab. --31.501.50 8.ME-3611Engineering Metallurgy 44--4.00 9.ME-3612Engineering Metallurgy lab --1.50.750.75 10.ME-3600Industrial Training --4 Weeks *1.00*1.00 Total16167.54.7520.75 No. of Theory Course = 05 Total Contact Hour = 23.50; No. of Sessional Course = 05Total Credit = 20.75; (* Effective from session 2000-2001) Math-3505 (Engineering Math-V) Lecture: 4 hrs/week,No. of Credit:4.00 NumericalAnalysis:SolutionofAlgebraicandtranscendentalequations;Bisectionmethod,Regulafalsimethod,Initial approximationandconvergencecriteriaofIterationmethod;Newton-Raphsonmethod.Solutionofsimultaneouslinear algebraicequations;GaussEliminationmethod,Gauss-Jordanmethod,Jacobimethod,GaussSeidelmethod.Finite differences, Interpolation with equal and unequal intervals, Central difference interpolation formulae, Numerical solution of differentiation and Integration. NumericalSolutionofOrdinaryDifferentialEquations:Taylor'sseriesmethod,Euler'smethod,Runge-Kuttamethod, Finite difference method, and numerical solution of partial differential equations. Statistics:Frequencydistribution,Mean,Median,Modeandothermeasuresofcentraltendency;standarddeviationand othermeasuresofdispersion,moment,skewnessandkurtosis.Elementaryprobabilityanddiscontinuousprobability distribution e.g. Binomial and Poisson distribution; Normal distribution, Correlation and regression analysis, Curve fitting. Sessional: Numerical solution of problems in Engineering with computer programming. Math-3506 (Engineering Math-V Lab.) Sessional: 1.5 hrs/week, No. of credit: 0.75 Sessional based on Engineering Math-V ME-3501 (Heat Transfer) Lecture: 3 hrs/week, No. of Credit: 3.00 Introduction: Basic modes of heat transfer, thermal properties of materials. Conduction: General conduction equation for one, two and three dimensional steady state situation, steady state conduction in different geometry and composite structures for one dimensional situation, electrical analogy, heat transfer from extended surfaces, transient heat conduction in one dimension, multidimensional transient heat conduction by superposition methods, analytical & numerical solutions or methods. Radiation: Radiation fundamentals -- properties and laws, electromagnetic wave spectrum and thermal radiation, intensity of radiation, radiationexchangebetweensurfaces,shapefactor-analysis,radiationexchangeinenclosures,gas radiation, solar radiation & its prospects in Bangladesh, radiation shield. Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.com ME-3505 (Fluid Mechanics-I) Lecture: 4 hrs/week,No. of Credit: 4.00 Fundamental Concept: Concept of fluid as a continuum, Fluid classification and fluid properties. BasicHydrostaticEquation:pressurevariationinstaticincompressiblefluids;manometers;forcesonplaneandcurved surfaces; Buoyant force; stability of floating and submerged bodies compressible fluid. VelocityField:streamline,streaklineandstreamtube;steadyandunsteadyflow;relationbetweensystemapproachand control volume approach; continuity, momentum and energy equation; special forms of energy and momentum equations and their applications; velocity and flow measurement devices. Dimensional Analysis: Its application in various flow problems. IrrotationalFlows:Streamfunction;circulation;vorticity;velocitypotentials;continuityequationanddivergenceof velocity field; stokes theorem; Kutta Joukowski conditions; Magnus effect. ME-3506 (Fluid Mechanics-I Lab.) Sessional:3 hrs/week, No. of Credit: 1.50 Sessional based on Fluid Mechanics-I ME-3507 (Instrumentation, Quality Control & Materials Handling) Lecture: 4 hrs/week,No. of Credit: 4.00Measurement:FunctionalElementsofameasurementsystem,Standardunitsofmeasurements;accuracyandprecision; Introduction to linear and angular measurement; Surface roughness; Screw & gear measurement; Taylors principles on limit gauges. Instrumentation:Classificationofmeasuringinstrument,Characteristicsofinstrument,Sensitivityandresolutionof instrument,Measurementsystemerrors,Electromechanicalandelectronicmetersandtheiruses,Differenttypesofsensors andtheirprincipleofoperations,Positionanddisplacementsensors,Potentiometer,Pressuresensor,Temperaturesensor, Optical sensor, Flow sensor, Strain gauge sensor, Ultrasonic sensor and Speed sensor. QualityControl:IntroductiontoStatisticalanalysisofqualitycontrol,Samplingtheory,Estimationhypothesistesting. Acceptance sampling plan, single, double, sequential. Rectifying inspection plan, control charts. X-R & C charts, Regression analysis, Concept of quality circle, TQM, TEC & ISO Standardization. Material Handling: Classification of conveying equipment. Operation principles of belt, chain, flight screw, pneumatic & hydraulic conveyors. Packaging:Packaging materials, load testing procedure of packages ME-3508 (Instrumentation, Quality Control & Materials Handling- Lab.) Sessional: 1.5 hrs/week, No. of Credit: 0.75 Sessional based on Quality Control & Materials Handling ME-3509 (Design of Machine Elements-I) Lecture: 3 hrs/week, No. ofCredit: 3.00 EngineeringDesign:MechanicalEngg.Design,Designprocess,morphologyofdesign-needanalysis,feasibilitystudy, design productions etc.DetailDesign:Materialspecification,material&theirproperties,variationinperformance,factorofsafety,standard specification and design equations. DesignPractices:Stressanalysis,designofsimplemachineelements,variableload&stressconcentration,shockand impact,combinedstresses,pressurevessels,shaftdesign,columndesign,designofscrewfastening,rivetjoints,welded joints, springs. ME-3510 (Design of Machine Elements-I Lab.) Sessional: 1.5 hrs/week, No. of Credit: 0.75 Sessional based on Design of Machine Elements-I ME-3601 (Advanced Heat & Mass Transfer) Lecture: 3 hrs/week, No. of Credit: 3.00Convection: Mechanism of convective heat transfer, momentum and energy equations, concept of thermal boundary layers, forced&freeconvection,dimensionalanalysis,fullydevelopedflowsandboundarylayerdevelopmentsintubesorducts over flat plates natural convection around vertical plate & cylinder, combined heat transfer. Heat Transfer with Change of Phase: Condensation, drop wise and film condensation.Boiling Heat Transfer: Evaporation & boiling, mechanism & heat transfer Correlation processof bubble growth & bubble dynamics; Heat pipe. MassTransfer: Introduction,co-efficientofmasstransfer, Fick'slawofdiffusioningases,liquids &solids,simultaneous heat and mass transfer phenomena. Heat Exchanger: Types, LMTD, exchanger effectiveness, fouling & scaling, design. ME-3602 (Advanced Heat & Mass Transfer- Lab.) Sessional: 1.5 hrs/week, No. of Credit: 0.75 Sessional based on Advanced Heat & Mass Transfer Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.com ME-3603 (Engineering Mechanics-III) Lecture: 3 hrs/week,No. of Credit: 3.00MechanicsofMachinery:Inertiaandkineticenergyofrotatingandreciprocatingparts,Turningmomentdiagram; Fluctuating energy and speed; Flywheel; Dynamometer; Balancing of stationary, rotating and reciprocating parts, Balancing of in-line and v-engine, Firing order, Principle of direct and reverse cranks in balancing problems, Balancing machines; Law of gearing and toothed gearing; Typesof gear and gear trains; Typesof governor and their control; gravity type and spring loaded type governor; Stability of governors and controlling force curve of governor; Cam and follower.Vibration:Free,forcedanddampedvibrationofsystemshavingonedegreeoffreedom,Beat,Resonanceandtransient phenomenon in forced vibration, Torsional oscillation of shafts, Whirling of shaft, Transverse vibration of shafts, Pendulum treatedbyenergymethod,Simplesituationsofvibrationwithtwodegreeoffreedomhavingelasticconstraints,torsional oscillationofshaftwithmultirotors,Elasticsuspensionofmachineryforisolationofvibration,Vibrationmeasuring instruments. multi rotors, Elastic suspension of machinery for isolation of vibration, Vibration measuring instruments. ME-3604 (Engineering Mechanics-III Lab.) Sessional: 1.5 hrs/week,No. of Credit: 0.75 Sessional based on Engineering Mechanics-III ME-3607 (Machine Tools-I) Lecture: 3 hrs/week, No. ofCredit: 3.00 LocatingandClamping:Purposeofwork-piecelocation;Degreeoffreedom;Properplacementoflocatingpoints; Fundamental locating arrangements; Clamping devices and forces. Tooling: Types of tools; Machine tools; Cutting tools; Fixtures; Jigs; Examples of drill jigs; Open and closed jigs; Index Jigs; Fixtures for turning, Milling, Grinding and other operations, General tool design principles and their applications. Dies: Progressive & compound dies; Blank developments; Design of cutting, forming and drawing dies; Punch design. DesignofPowerTransmissionSystem:Mechanical,Electrical,HydraulicandPneumaticdriveinmachinetools. Classification & choice of driving system; Basic considerations; Speed range, Step and steeples regulation; Gearbox design; Speed and structure diagram. Machine Tool Guides: Guide material, guide wear, effect of temperature and lubrication, Error elimination. ME-3609 (Design of Machine Elements-II) Lecture: 3 hrs/week, No. of Credit: 3.00 Design Practice: Design of keys and coupling, Design of belts, rope and chain drives, Design of journal and rolling contact bearing, Design of spur, helical, bevel and worm gearing; Brakes and clutches, Design with composite materials. ME-3610 (Design of Machine Elements-II Lab.) Sessional: 1.5 hrs/week,No. of Credit:0.75 Sessional based on Design of Machine Elements-II ME-3611 (Engineering Metallurgy) Lecture: 4 hrs/week, No. of Credit: 4.00IntroductiontoMaterials:Basicconceptofimportantmechanicalpropertiesofmaterials-elasticity,plasticity,strength, ductility, brittleness, malleability, hardness, toughness, stiffness, creep, endurance, fatigue, resilience. Metal & alloys: single phase metals and multi-phase materials. Thermometry & Pyrometry: High temp. measurement and control. ConceptsofCrystalGeometry:Typesoflattices,solidificationmetal&alloys,variablesaffectingsolidification, Nucleation, Grain growth crystal structures and their defects. Deformations and dislocation theories. EquilibriumDiagramsforBinaryAlloy:Interpretationofequilibriumdiagram;structureandpropertiesofmetalsand alloysrelatedtoequilibrium,Iron-ironcarbideequilibriumdiagram,plaincarbonsteelsandtheirmicrostructures,various types of steels, Martensitic transformation, composite of tool steel. Heat Treatments of Steels: Annealing, Normalizing, Quenching, Tempering and types of hardening processes, precipitation processes. Ferrous & Non-ferrous Metals: Production and properties of pig, wrought and cast iron; Carbon steels, their properties and microstructures. Production, properties and uses of Cu, Al, Ni, Zn, Sn, Pb with their alloys, bearing metals and spring metals. Alloy of Noble metals. Metallurgical Aspect of Metal Joining: Surface treatments like plating, metal coating metal spraying, shaping and forming of metals and alloys and their effects. Powder Metallurgy: Principles and processes, metal powder and their characteristics, method of producing metal powders, application, advantages, disadvantages of powder metallurgy, Polymers, Ceramics. ME-3612 (Engineering Metallurgy- Lab.) Sessional: 1.5 hrs/week, No. of Credit: 0.75 Sessional based on Engineering Metallurgy ME -3600 (Industrial Training) Training: Four Weeks No. of Credit: 1.00 To be arranged in any suitable time in third year. Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comSyllabus OF Courses Offered for 4th YearB.Sc. Engineering Semester-VII SL.CourseCourse TitleTheorySessionalTotal No.No.Contact Hour/ Week CreditsContact Hour/ Week CreditsCredit 1.ME-4700Project & Thesis --31.501.50 2.ME-4701Applied Thermodynamics-I 33--3.00 3.ME-4702Applied Thermodynamics-I Lab. --1.500.750.75 4.ME-4703Production Planning and Control 44--4.00 5.ME-4705Fluid Mechanics-II 33--3.00 6.ME-4706Fluid Mechanics-II Lab. --1.500.750.75 7.ME-4709Power Plant Engineering 33--3.00 8.ME- 4713 (*) Optional-I33--3.00 Total161663.0019.00 No. of Theory Course = 05Total Contact Hour = 22.00; No. of Sessional Course = 03Total Credit = 19.00; Semester-VIII SL.CourseCourse TitleTheorySessionalTotal No.No.Contact Hour/ Week CreditsContact Hour/ Week CreditsCredit 1.ME-4800Project & Thesis --63.003.00 2.ME-4801Applied Thermodynamics-II 33--3.00 3.ME-4805Fluid Machinery 33--3.00 4.ME-4806Fluid Machinery Lab --1.500.750.75 5.ME-4807Machine Tools-II 33--3.00 6.ME-4808Machine Tools-II Lab --1.500.750.75 7.ME-4811Industrial Management 33--3.00 8.ME- 4813 (*) Optional-II33--3.00 9.ME-4810Seminar--21.001.00 Total1515115.5020.50 No. of Theory Course = 05Total Contact Hour = 26.00; No. of Sessional Course = 04Total Credit = 20.50; Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.com ME-4700 (Project & Thesis) Sessional: 3 hrs/week,No. of Credit: 1.50 ME-4701 (Applied Thermodynamics-I) Lecture: 3 hrs/week,No. of Credit: 3.00InternalCombustionEngines:Enginetypes,CIandSIenginescombustionprocess,pre-ignition.Detonationanddiesel knock.Fuelrequirementsandfuelsratings-OctaneandCetaneratings.Curburationandfuelinjection.Excessairratio, equivalence ratio. Scavenging and supercharging of IC engines. Lubrication and engine cooling - methods, requirements and calculations.Combustionchamber-designandtheirinfluenceonengineperformance.Factorslimiting theperformanceof IC engines, Engine emission and control; Stirling engine, Free piston engine, Wankel engine and duel fuel engine, principle of similitude applied to the design of IC engines. Gas Power Cycles: Introduction to gas turbine and its principle of operation, simple gas turbine cycles - with inter-cooling, regeneration & reheating, closed cycle gas turbine. ThrustPropulsion:Jetpropulsion,Rocketpropulsion,Propellantanditscriteria,Estimationoffuelconsumptionand efficiency. ME-4702 (Applied Thermodynamics-I Lab.) Sessional: 1.5 hrs/week,No. of Credit: 0.75 Sessional based on Applied Thermodynamics-I ME-4703 (Production Planning & Control) Lecture: 4 hrs/week, No. of Credit-4.00 Introduction:Functionsofproductionplanning&control;Plant/Facilitylocation:Locationfactor;Analysisofindustrial facilities location. Plant Layout: objectives; types of layout; criteria of successful layout. Forecasting: Forecasting; methods and their applications. InventoryControl:Classificationofinventories;Economicorderquantity;Reorderpoint;safetystock;economic productionquantity;Inventorycontrolunderconditionsofuncertainty;other inventorycontrolsystems,min-max, twobin, perpetual inventory record and ABC analysis, Zero inventory. Scheduling:Objectivesofscheduling;aggregatescheduling;schedulingsinglemachineandmultiplejobs;multi-machine models;networkscheduling,CPM,PERTtechniques;arrowdiagrams;copingwithvarianceandunbalanceinproduction MPS, MRP. E-Manufacturing: Definition, EM-Functions and application. WorkStudy:Methodsstudytechniques;operationprocesschart;flowprocesschart;activitychart;flowdiagram;travel diagram; motion study; micromotion study and SIMO chart. Principles of motion economy. Work measurement; Objectives, timestudy;selectedtime,normaltime,standardtime,allowance;ratingfactor,stopwatchtimestudyworksampling; sufficiency of readings. Ergonomics: Introduction, Bio-clock; human efficiency; effect of temperature, humidity, noise and glare; physical factors in ergonomics. Introduction to cybernetics. ME-4705 (Fluid Mechanics-II) Lecture: 3 hrs/week, No.ofCredit:3.00ViscousFlows:Viscousflowbetweenparallelflatplates;velocitydistributionforfixedormoving horizontal andinclined plates; Hagen-Poiseulle equation; Frictional losses in pipes and fittings; Wall shear and shear velocity; Mixing length theory and universal velocity profile; Laminar and turbulent, Criteria for smooth and rough pipes. Prandlt's seventh power law. Introduction to Boundary Layer Theory: Estimation of boundary layer and momentum thickness; Skin friction and drag of a flat plate. Introduction toOpenChannelFlow:Besthydraulicchannelcross-sections;hydraulicjump;specificenergy;FroudeNo. and its significance in channel flow; critical depth. Fundamental Relations of Compressible Flow: Speed of sound wave, Stagnation states for the flow of an ideal gas; Flow through converging diverging nozzles; Normal shock waves; Flight of bodies through a compressible fluid. ME-4706 (Fluid Mechanics-II Lab.) Sessional: 1.5 hrs/week, No. of Credit: 0.75 Sessional based on Fluid Mechanics-II ME-4709 (Power Plant Engineering) Lecture: 3 hrs/week,No. of Credit: 3.00 Introduction: Sources of energy, Types of power plants and its modern trend Survey of power plants in Bangladesh.VariableLoadProblems:Principleofoptimization,itsapplicationtopowersystemplanning,anddesignandtechnical operation. Power Plant Economics: Theory of tariffs Instrumentation in power plants, selection of plants, advantages, disadvantages & comparisons of different types of power plant. Diesel Electric Power Plants: scope, arrangements, air fuel system, cooling system and lubrication system, starting methods. SteamPowerPlant:Furnaces,stokersandburners,fuelhandling,steamturbines,installationandoperation,overall plant efficiency.Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comHydroelectricpowerplant:Typesofoperation,siteselection,turbineselection,seasonalandintermittentplants, components of the plant, efficiency. Gas Turbine Power Plant: Scope, cycle analysis, installation, governing and maintenance. Nuclear Power Plant: Scope, plant layout, types of reactors, fuels, waste disposal, safety. PowerPlantAccessories:Draftsystems,chimneydesign,water-coolingsystems,waterconditioning&industrialwater treatment. ElectricalTransmission:Basicconcept,typesoftransmission&distributionsystem,majorelectricalequipmentin power plants. Optional-I Lecture: 3 hrs/week, No. of Credit: 3.00 ME-4713 (a) (Refrigeration and Air-conditioning Engg.) Refrigeration:Conceptandapplicationofrefrigeration,differentrefrigerationmethods,Analysisofvapor-compression refrigeration system and its modifications, Absorption refrigeration, Air-cycle refrigeration, Low-temp. Refrigeration, Multi-pressuresystemsofrefrigeration.Refrigerationequipment: Defrostmechanismandautomaticcontrolsusedincommercial refrigeration systems, Heat-flow problems in condensers and evaporators. Manufacture of water ice and dry ice, Refrigerants. Air Conditioning: Concept and classification of a/c and its use, Psychometric properties, comfort data, cooling and heating loadcalculationofvariousapplications,Airdistributionsystemandductdesign,Airconditioningequipment,Air purification, Installation of units, Charging, Leak detection, wiring diagram and service, Trouble shooting.

ME-4713 (b) (Operations Research) Introduction:OriginanddevelopmentofO.R.,Artofmodeling,assumptions,scope,limitationsandapplicationofO.R. techniques.LinearProgrammingModels:Mathematicalformulation, Graphicalsolution,Simplex&duelsimplex methods,Typesof solutions, Duality, Interpretation of the duel problem and Post optimality analysis. Transportation and Assignment Models:Decision and Game Theory:Non-linear, Integer Programming, Simulation, Dynamic Programming, Queuing theory and Markov chains. ME-4713 (c) (Energy Resources & Utilization) Resources: The energy cycle of the earth, the energy scope, A study of available energy resources for the world and energy demand, Levels of extraction and technically feasible extraction. SourceandConversion:Reviewofcurrentconversion,SystemsBio-energy,Hydro-power,Wind-power;typesofwind energy collectors, Storage system application, Geo-thermal energy; sources, disposal of used Geo-thermal fluids, application, Geo-thermal power cycle, Tidal energy; sources, schemes for power generation, Ocean Thermal Energy Conversion (OTEC); conceptsoffavorablelocationwaveenergy,waveenergyextractors.Solarenergy;Introduction,Sun-Earthangles,solar angle of incidence, solar time, solar radiation, estimation and measuring instruments. Energy storage; collectors; solar pond design technique. Application of Solar Energy: Heating, Cooling, Power generation, Pumping, Desalination, etc. Utilization:Efficienciesofconversionsystemincurrentuse,matchingofenergysourcestoapplicationHybrid&Stored energy system, Waste heat rejection and utilization. Environmental Impact: Aspects of air and thermal pollution and waste disposal problems arising from conversion systems. ME-4713 (d)(Socio-Economic and Environmental Aspects of Development Project) Theaimofthiscourseistoanalyzetheissuesrelatingsocietyandenvironmentfromperspectiveofthedisciplinesof Economics. Major emphasis is on the following areas:a) Technological soundness of a project.b) Environmental impact: Rural-urban, crowding and human behavior, urbanization and slum, poverty, unemployment, land issues, water resources and citizens role, deforestation and societal impact, power and environmental. c) Economical Analysis of a project, Techno-economics. d) Societal effects. ME-4713 (e) (Fatigue, Creep and Fracture) Fatigue:Fatiguefailure;typesoffatiguewithfixedandvaryingamplitude,Combinedstressfatigueproperties;Notch sensitivity, factors influencing fatigue strength; fatigue tests, Utilization of fatigue properties in design. Creep: Creep-stress-time -temp. Relation for simple tension and combined stresses, Recoverycreep and relaxation, Testing techniques, Creep in tension, bending, torsion and buckling. Fracture:Basicmodesoffracture,Theoriesoflinearelasticfracturemechanics,Griffiththeoryofbrittlefracture,irwin's theory of fracture in elastic plastic materials, stress intensity factors; fracture toughness testing, Interpretation of test data. ME 4713 (f) (Plastic Process Technology) Introduction to polymeric materials, Mechanical and physical properties and limitations of applications, Testingofproperties,Identificationofcommonplastics,Fillers,Additives,Mixing&compounding,Mills:Internaland continuous,PolymerprocessingoperationssuchasExtrusion,compressionmolding,Transfermolding,Injectionmolding, blowmoldingand reaction injectionmolding.Designofproductswithplastics,Machining,fitting andweldingofplastics, Reinforcement of plastics, Calendering and laminating, Instrumentation and control. Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comME-4713 (g) (Automatic Control Engineering) Introductionstocontrolsystems,Principlesofautomaticcontrols,openandclosedloopsystem,feedbacksystem. Mathematical representation, transfer functions and block diagram representation. Types of control action---on off. Modeling of mechanical, electrical, hydraulic, pneumatic types ofcontrollers, block diagram algebra and signal flow graph, proportionalderivativeandintegralcontrol,transientandsteadystateresponse,frequencyresponseanalysis.Rootlocus method.Stabilityanalysis.Systemtypeclassification,analysis,compensationtechniques.Sequencecontrol,Fluidics--- principles and applications. ME-4800 (Project & Thesis) Sessional: 6 hrs/week,No. of Credit: 3.00 ME-4801 (Applied Thermodynamics-II) Lecture: 3 hrs/week,No. of Credit: 3.00Vapor Cycles: Carnot & Rankine cycles, Reheat and regenerative cycles, Binary vapor cycles, Economizer & air-preheater, Back pressure and Extraction turbines, steam cycles for nuclear power plants. Steam Turbine: Introduction, working principle, performance --- stage efficiency. Combined Cycles: Basic concepts, coupling of two different power cycles, MHD power generation. DirectEnergyConversion:Electro-chemicaleffectsandfuelcells,reversiblecells,idealfuelcellsandotherfuelcells, thermo-ionic emission and conversion, electrode configuration, practical consideration. Thermoelectric System: Power generation, properties of thermoelectric materials. Fusion Plasma Generation: Generation, plasma confinement, and pinch effect. ME-4805 (Fluid Machinery) Lecture: 3 hrs/week,No. of Credit: 3.00Introduction:Rotodynamicandpositivedisplacementmachines;VelocitydiagramandEulerpump/turbineequation; Impulse and reaction turbines; Centrifugal and axial flow pump; Compressors (with thermo-dynamic aspects); Reciprocating pump. PerformanceStudy:Performanceandcharacteristicsofturbines,pumpsandcompressors.Designofpumps.System analysis and selection of fluid machine. Dimensional Analysis Applied to Fluid Machinery: Specific speed, unit power, unit speed, and unit discharge. HydraulicTransmissions:Fluidcouplingandtorqueconverter;applicationsandfeaturesoffluidcouplingandtorque converter. ME-4806 (Fluid Machinery-Lab.) Sessional: 1.5 hrs/week,No. of Credit: 0.75 Sessional based on Fluid Machinery ME-4807 (Machine Tools-II) Lecture: 3 hrs/week, No.ofCredit:3.00DetailedStudyoftheFollowing:Enginelathe;Turretlathe;Automaticlathe;Millingm/c;Shapingm/c,Planingm/c Drilling m/c; Boring mills, Hobbing m/c; Grinding m/c; Broaching, Lapping & Honing m/c with their operations. StudyofBearings:Ball,roller,taperandneedlebearings;Hydrostaticandhydrodynamicbearings;Axialandradial bearings; Methods of bearing manufacture. DesignofBed,TablesandColumns:Typesofbed;designfeature,stiffnessandnaturalfrequencyofmachinebed, determination of force, types of vibration in machine tools; minimization of vibration. Controlling System: Introduction; electrical equipment; selection of motors, circuit diagram for starting the motor, electrical brakes,automaticandsemiautomaticcontrol.Hydrauliccontrol:introduction,typicalsystems,andbasicparametersfor design efficiency. Unconventional Machining Processes: EDM, ECM, VSM, AJM, USM, Laser, Automations & NC machines. ME-4808 (Machine Tools-II Lab.) Sessional: 1.5 hrs/week,No. of Credit: 0.75 Sessional based on Machine Tools-II ME-4811 (Industrial Management) Lecture: 3 hrs/week,No. of Credit: 3.00ManagementandOrganization:Definitionsofmanagement,managementfunctions,organizationfundamentals, Organization structures, span of control. Business: Single proprietorship; Partnership; Joint stock company; Corporation; Private & public sector; business collusion's and combinations; share, bond, loan; share market; mortgage; bankruptcy Liquidation. Financial Planning: Classification of capital: Capital procurement; economic analysisof cost pattern; break-even analysis; depreciation; depreciation calculation estimation of life of an engineering asset; replacement of plant machinery. Budgeting:Typesofexpenditure;controllableandnon-controllableexpenditure;flexiblebudgets;budgetrevision;zero based budgets; cost control through budgeting. PersonnelManagement:Functionsofpersonnelmanagement;staffing;recruitmentanddevelopment;motivation;labor relations; collective bargaining, strike; lockout; grievance arbitration. Wage and Salary Administration: Job evaluation; techniques of evaluation; merit rating; salary and wages; wage incentive plans; fringe benefit. PurchaseandSales:Purchasingpolicies:purchasingprocedures;purchasingproblems;salvagedepartment;Sales forecasting; distribution channels; concept of marketing; advertising and sales promotion. Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.comResearchandDevelopment:Technologicalchange; processofinnovation; importanceofR&D;researchcostand risks; patent and royalty; industrial espionage; product life cycle; development of a product; creativity. Optional II Lecture: 3hrs/week,No. of Credit: 3.00 ME-4813 (a) (Automobile Engineering) Fundamentals:Introduction, components of automobile, Automotive engines: Types and construction, performance study. Automotive Engine Systems: Automotive fuel systems for SI and CI engines, ignition systems, alternative fuels, lubrication systems, cooling systems, exhaust systems, circuits--- their details. Electrical Systems and Equipment: Storage battery & its construction, cranking motor and generators, lighting, regulators, indicators, ignition system, electrical safety devices & accessories, electrical & electronic control systems. Power Transmission & Chassis: Clutch, gear, differential and final drives, manual and automatic transmission system and their geometry, braking system. SafetyDevicesandControls:Typesandfunctions, moderndevelopmentofeconomyspeedandfueleconomy,emissions, pollution and controls. ME-4813 (b) (Computer Aided Design) Methodologyofinteractive,graphical,engineeringdesign,conceptsofdescritizationoptimization,simulationinCAD. Concepts of algorithm developments in CAD. Application of different types of data structures in CAD. ConceptsofengineeringgraphicsanddifferentialgeometryinCAD,Designofcurvesandsurface,Applicationof geometricaldesigninconveyorsystems,sheetmetaldesign,tooldesign,diedesign,designofpumpandimpellerrotor surface. Designofvolumes:Evolutionofintegralpropertiesofvolumes.DerivationofNCcodesfromsoliddesign anditsgraphic representation,Intersectionofsurfacesandinterferenceofvolumes.ApplicationofCADinmechanismdesign.Piping systems lay out design, heat exchanger design. Design of mechanical components. ME-4813 (c) (Aerodynamics) ME-4813 (d) (Robotics) Introduction:Classificationofrobotsystems;PickandPlacedevices,continuouspathmanipulators,telechirs,Wabots, artificial grippers,loadcapacities,workingvolumeand limitstoaccuracyofperformancecharacteristics, robotvision, woe actuators, obstacle avoidance, movements strategies; specific examples of robot applications and limitations of performance. Programming and Response: Point to point programming, higher level languages to teach mode programming, spaceand toolco-ordinates,computerofficelineprogramming,programmingforflexiblemanufacture,humanfactorsinthe management of robot systems. KinematicsofRobotArms:Kinematicsdescriptionofmulti-degreeoffreedommanipulators,jointco-ordinates,taskco-ordinates,transformationofco-ordinatesystems,kinematicsmodels,industrialtaskdescriptionandtranslationofrobot requirements. Dynamics:dynamicequationforsixdegreeoffreedomrobotarms,LagranandNewtonEulerViewpoints,nonlinear systemsofequationswithtimevaryingefficient,realtimedynamicsandassociatedproblems,dynamicmodelspredicted limits to performance in industrial tasks. Control: Motion resolves, passive compliant devices, positivefeedforward techniques in obstacle avoidance control, force feedback for gripper and arm control, vision control for location in automated assembly. ME-4813 (e) (Managerial Economics) ME-4813 (f) (Servo Mechanism and Control Engg.) OrientationofControlSystem:Openloopandfeedbackcontrolsystem;Representationofcontrolcomponentsand systems; Back diagrams; Transfer functions; Modeling of mechanical, hydraulic, pneumatic, Electrical time response of first, secondandhigherordersystemsusingclassicalandLaplacetransformapproaches;SystemstabilityanalysisviaRouth's stability criterion, basic control actionsandsystemtypeclassification;Systemanalysis,preliminarydesignbyRootlocusmethod;Frequencyresponse analysis, Use of Bode plots, Polar plots, Nichol's chart. M and Zoci, gain adjustment. Correlation between time and frequency response margins. Inter-connected power system, its development in Bangladesh; Introduction to modern control theory. ME-4813 (g) (Noise and Vibration) ********************* ME-4810 (Seminar) Sessional: 2 hrs/week, No. of Credit: 1.00 Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.com Optional Courses Optional-IOptional-II Course No.Course TitleCourse No.Course Title ME-4713(a)Refrigeration and Air Conditioning ME-4813(a)Automobile Engineering (b)ComputerAided Design (b)Operation Research(c)EnergyResource& Utilization (c)Aerodynamics (d)Socio Economic and Environmental Aspect of Development Projects (d)Robotics (e)Fatigue,Creepand Fracture (e)Managerial Economics (f)Plastic Process Technology (f)Servo Mechanism and Control Engineering (g)AutomaticControl Engineering (g)Noise and Vibration SL.Year/ TheorySessionalTotal No.SemesterNo. of Course CreditsNo. of Course CreditsCredit 1.1st/1st0515055.2520.25 2.1st/2nd0514055.2519.25 3.2nd/3rd0516034.0020.00 4.2nd/4th0517043.7520.75 5.3rd/5th0518043.7521.75 6.3rd/6th0516054.7520.75 7.4th/7th0516033.0019.00 8.6th/8th0515045.5020.50 Total401273335.25162.25 Department Of Mechnaical Engineering RUET,ME'10nasimbinjasim@engineer.com