Syllabus of ME VIII-Sem all Subjects (RGPV)

(Tag: Syllabus of ME Syllabus of Mechanical Engineering )

 

Source: (rgpv.ac.in)

  • Principles and methods of refrigeration freezing;
  • Mixture cooling by gas reversible expansion throttling evaporation
  • Joule Thomson effect and reverse Carnot cycle;
  • Unit of refrigeration coefficient of performance
  • Vortex tube & thermoelectric refrigeration adiabatic demagnetization;
  • Air refrigeration cycles- Joule’s cycle
  • Boot-strap cycle reduced ambient cycle
  • Regenerative cooling cycles.
  • Vapor compression cycle p-h and t-s diagrams
  • Deviations from theoretical cycle sub-cooling and super heating
  • Effects of condenser and evaporator pressure on cop;
  • Multi-pressure system: removal of flash gas
  • Multiple expansion & compression with flash inter cooling;
  • Low temperature refrigeration: production of low temperatures
  • Cascade system dry ice production of dry ice
  • Air liquefaction system.
  • Theoretical and practical systems such as aqua ammonia
  • Electrolux & other systems;
  • Steam jet refrigeration: Principles and working
  • Simple cycle of operation
  • Description and working of simple system
  • Refrigerants: nomenclature & classification desirable properties
  • Common refrigeration comparative study
  • Leak detection methods
  • Environment friendly refrigerants and refrigerant mixtures
  • Brine and its properties
  • Calculation of psychrometric properties of air by table and charts;
  • Psychrometric processes: sensible heating and cooling
  • Evaporative cooling cooling and dehumidification
  • Heating and humidification mixing of air stream sensible heat factor;
  • Principle of air conditioning requirements of comfort air conditioning
  • Ventilation standards infiltrated air load
  • Fresh air load human comfort effective temperature & chart
  • Heat production & regulation of human body
  • Calculation of summer & winter air conditioning load
  • Bypass factor of coil calculation of supply air rate & its condition
  • Room sensible heat factor grand sensible heat factor
  • Effective sensible heat factor dehumidified air quantity.
  • Problems on cooling load calculation.
  • Air distribution and ventilation systems

1. General Study of vapor compression refrigeration system.

2. General Study of Ice Plant

3. General Study and working of cold storage

4. General Study Trane Air Condition (Package Type).

5. General Study of Electrolux Refrigeration

6. General Study One tone Thermax refrigeration unit.

7. General Study of Water cooler

8. General Study of Psychrometers (Absorption type)

9. General Study of Leak Detectors (Halide Torch).

10. General Study and working of Gas charging Rig.

11. General Study of window Air Conditioner.

12. General Study and working of Vapor compression Air conditioning Test rig.

13. Experimentation on Cold Storage of Calculate COP & Heat Loss.

14. Experimentation on Vapor compression Air Conditioning test rig.

15. Changing of Refrigerant by using Gas Charging Kit.

 

Source: (rgpv.ac.in)

  • Chassis & Body Types
  • Technical details of commercial vehicles types of chassis
  • Layout types of frames testing of frames for bending & torsion on unutilized body frame
  • Vehicle body and their construction driver’s visibility and methods for improvement
  • Safety aspects of vehicles vehicle aerodynamics
  • Optimization of body shape driver’s cab design
  • Body materials location of engine
  • Frontwheel and rear wheel drive four wheel drive.
  • Front axle beam stub axle front wheel assembly
  • Principles of types of wheel alignment
  • Front wheel geometry viz. camber Kingpin inclination castor toe-in and toe-out
  • Condition for true rolling motion centre point steering
  • Directional stability of vehicles steering gear
  • Power steering slip angle cornering power
  • Over steer & under steer
  • Gyroscopic effect on steering gears.
  • Function and types of clutches single plate
  • Multi-plate clutch roller &spring clutch
  • Clutch lining and bonding double declutching types of gear boxes
  • Synchroniser gear materials determination of gear ratio for vehicles
  • Gear box performance at different vehicle speed automatic transmission
  • Torque converters fluid coupling
  • Principle of hydrostatic drive propeller shaft
  • Constant velocity universal joints
  • Differential gear box rear axle construction.
  • Basic suspension movements Independent front & rear suspension
  • Shock absorber type of springs: leaf spring coil spring air spring
  • Torsion bar location of shackles power calculations
  • Resistance to vehicle motion during acceleration and breaking
  • Power & torque curve torque & mechanical efficiency at different vehicle speeds
  • Weight transfer braking systems disc theory
  • Mechanical hydraulic & pneumatic power brake systems
  • Performance self-energisation air-bleeding of hydraulic brakes
  • Types of wheels and tyres, tyre specifications
  • Construction and material properties of tyres & tubes.
  • Storage battery construction and operation of lead acid battery
  • Testing of battery principle of operation of starting mechanism
  • Different drive systems starter relayswitch regulator electric fuel gauge
  • Fuel pump horn wiper lighting system head light dazzling
  • Signaling devices battery operated vehicles choppers
  • Importance of maintenance scheduled and unscheduled maintenance
  • Wheel alignment trouble Shooting probable causes & remedies of various systems
  • Microprocessor based control system for automobile
  • Intelligent automobile control systems.
  • Indian standards for automotive vehicles- Bharat I II III IV Euro I to Euro VI norms
  • Fuel quality standards environmental management systems for automotive vehicles
  • Catalytic converters fuel additives and
  • Modern trends in automotive engine efficiency and emission control.

 

Source: (rgpv.ac.in)

  • Introduction history of tribology early scientific
  • Studies of – friction wear
  • Lubrication. Tribo-Surface preparations and characteristics.
  • Surface contacts Hertz contact stresses
  • Residual stress surface fatigue creep
  • Stress relaxation fracture mechanics elastic
  • Viscoelastic and plastic behavior of materials.
  • Choice of materials
  • Friction laws of friction rolling/sliding friction
  • Theory of adhesion and abrasion
  • Different mechanisms of friction stick slip characteristics
  • Interface temperature thermal analysis
  • Molecular mechanical theory of friction
  • Operating conditions and system parameters
  • Calculations of coefficient of friction
  • Design of friction devices.
  • Different types of wear mechanisms adhesive
  • Abrasive impact percussion erosion
  • Fretting wear calculations of wear rate two body/ three body wear
  • Wear prevention wear of metal cutting and metal forming tools
  • Wear mapping of materials cavitation
  • Surface fatigue corrosion
  • Performance levels classifications and specifications of lubricants
  • Lubricants and additives composition and properties of lubricants
  • Maintenance of oil and emulsions industrial hygiene aspects
  • Technical regulations for lubricants.
  • Boundary/ mixed and fluid film lubrication industrial methods of lubrications
  • SAEBIS ASTM IP DIN Standards
  • Oil testing’s wear and chemistry of lubricants.
  • Instrumental tests. Bearings
  • Clutches and brakes slide units
  • Dynamic seals Automobile applications
  • Machine tools/ press machines applications.
  • Other applications and case studies.

1. Testing equipments of tribology.

2. Various industrial applications of tribology.

3. NEMS and MEMS applications

4. Solid liquid and mist/ gas lubricants.

5. Surface coatings.

6. Chemical analysis of materials

7. Various simulations

8. AFM/ FFM SFA STM studies.

 

Source: (rgpv.ac.in)

  • Features of basic machine tools;
  • Construction and operation types of machine tools
  • Machine tools motions transmission-rotation in to rotation
  • Rotation in to translation
  • Kinematic-structures of machine tools: elementary complex and compound structure
  • Kinematic-features of gear shapers and gear hobbing machine.
  • Design of gear boxes- need for variation of speed
  • Selection of speed range
  • Laws of stepped regulation
  • Standardization of speeds speed diagram
  • Analysis of productivity loss
  • Kinematic advantage of GP structural diagrams
  • Ray diagram and speed chart.
  • Gear Drives: Belt and cone pulley
  • Slip gear type north gear drive
  • Draw key gear drive clutch type
  • Mechanical step less drives
  • Electrical drives; hydraulic drive.
  • Design of press working tools shearing piercing blanking dies
  • Compound die design principles for forging dies bending
  • Forming drawing dies tooling for forging design principles for forging dies
  • Drop forging upset forging
  • Design principles and practice for rolling
  • Roll press design.
  • Principles of location locating method and devices
  • Principles of clamping clamping devices
  • Drilling jigs types drill bushes
  • Fixture and economics types of fixture
  • Milling grinding broaching
  • Assembly fixtures indexing jig and fixtures
  • Indexing devices
  • Design of gauges for tolerance for dimensions and form inspection;
  • Dies and mould design for plastics& rubber parts:
  • Compression molding
  • Transfer molding
  • Blow molding.

 

Source: (rgpv.ac.in)

  • Types and characteristics of production systems
  • Objective and functions of Production
  • Planning & Control
  • Place of production
  • Planning in Engineering
  • Manufactures organization.
  • Preplanning: Forecasting & Market Analysis.
  • Factory Location & Layout
  • Equipment policy and replacement.
  • Preplanning production capacity planning.
  • Method study basic procedure-Selection-
  • Recording of process – Critical analysis
  • Development – Implementation
  • Micro motion and memo motion study
  • Work measurement
  • Techniques of work measurement
  • Time study – Production study
  • Work sampling
  • Synthesis from standard data
  • Predetermined motion time standards.
  • Aggregate Planning MPS
  • Material Resource Planning
  • Selection of material methods
  • Machines & manpower.
  • Routing Scheduling and Dispatching and its sheets & charts
  • Production Line Balancing.
  • Progress control through records and charts.
  • Types of inventories
  • Inventory Classification.
  • Inventory Control under constraints Economic lot (batch) size.
  • Trends in purchasing and store keeping
  • JIT production MRP II
  • Comparison of Push & Pull systems ERP CAPPC.
  • Importance Productivity patterns
  • Productivity measurements & ratios
  • Improvement maintenance process.
  • 3 Human Factors & Ergonomics:
  • Human abilities Training & motivation safety
  • Programs workplace design & working conditions

 

Source: (rgpv.ac.in)

  • Probability Distributions
  • Inferential Statistics
  • Inferential Statistics through hypothesis tests
  • Regression & ANOVA
  • Regression ANOVA(Analysis of Variance).
  • Hadoop’s Parallel World
  • Data discovery
  • Open source technology for Big Data Analytics
  • Cloud and Big Data
  • Predictive Analytics
  • Mobile Business Intelligence and Big Data
  • Crowd Sourcing Analytics
  • Inter- and Trans-Firewall Analytics
  • Information Management
  • Integrating disparate data stores
  • Mapping data to the programming framework
  • Connecting and extracting data from storage
  • Transforming data for processing
  • Subdividing data in preparation for Hadoop Map Reduce.
  • Employing Hadoop Map Reduce
  • Creating the components of Hadoop Map
  • Reduce jobs Distributing data processing across server farms
  • Executing Hadoop Map Reduce jobs
  • Monitoring the progress of job flows
  • The Building Blocks of Hadoop Map Reduce Distinguishing
  • Hadoop daemons
  • Investigating the Hadoop Distributed File System Selecting appropriate execution modes:
  • Local pseudo-distributed fully distributed.
  • Installing and Running Pig
  • Comparison with Databases
  • Pig Latin User- Define Functions
  • Data Processing Operators
  • Installing and Running Hive Hive QL
  • Querying Data User-Defined Functions
  • Oracle Big Data

 

Source: (rgpv.ac.in)

  • Concept of energy management energy demand and supply
  • Economic analysis;
  • Duties and responsibilities of energy managers.
  • Energy Conservation: Basic concept
  • Energy conservation in Household Transportation
  • Agricultural service and Industrial sectors
  • Lighting HAVC.
  • Definition need and types of energy audit;
  • Energy management (Audit) approach:
  • Understanding energy cost bench marking
  • Energy performance matching energy use to requirement
  • Maximizing system efficiencies optimizing the input energy requirement;
  • Fuel & energy substitution;
  • Energy audit instruments;
  • Energy conservation Act;
  • Duties and responsibilities of energy manager and auditors.
  • Facility as an energy system;
  • Method for preparing process flow;
  • Material and energy balance diagrams.
  • Energy Action Planning: Key elements force field analysis;
  • Energy policy purpose perspective content formulation rectification
  • Definition monitoring & targeting;
  • Data and information analysis.
  • Electrical Energy Management:
  • Energy conservation in motors pumps and fan systems;
  • Energy efficient motors.
  • Energy conservation in boilers steam turbine and industrial heating system;
  • Application of FBC;
  • Cogeneration and waste heat recovery;
  • Thermal insulation;
  • Heat exchangers and heat pump;
  • Building Energy Management.

 

Source: (rgpv.ac.in)

  • Types definition & characteristics; supra & subsystems
  • Key component; boundary & interface complexity;
  • Feedback (pull) & feed forward (push) controls
  • Open flexible-adaptive system
  • Computer as closed system law of requisite variety;
  • System coupling stresses and entropy; functional & cross functional system;
  • Steven Alter’s nine element work system model and its comparison with IPO (input-processing-output) model
  • Structure and performance of work systems leading to customer delight.
  • Importance definition and functions; schools of theories knowledge driven learning
  • Organization and e-business; environment uncertainty and adaptability;
  • Corporate culture difficulties and levels of planning
  • BCG matrix SWOT analysis steps in decision making
  • Structured and unstructured decision; dimensions of organizations size/specialization
  • Behavior formalization authority centralization
  • Departmentalization spam and line of control
  • Technology and Minzberg organization
  • Typology line staff & matrix organization coordination by task force
  • Business process reengineering and process of change management
  • HR planning placement and training
  • MIS; attitudes and personality trait
  • Overlap and differences between leader & manager leadership grid motivation
  • Maslow’s need hierarchy and Herzberg two factor theory
  • Expectation theory learning process
  • Team work and stress management.
  • Importance definition core concepts of need want and demand
  • Exchange & relationships product value
  • Cost and satisfaction (goods and services ) marketing environment; selling marketing and societal marketing concepts;
  • Four P’s product price placement promotion;
  • Consumer business and industrial market
  • Market targeting advertising publicity
  • CRM and market research. Finance: Nature and scope
  • Forms of business ownerships balance sheet
  • Profit and loss account fund flow and cash flow statements
  • Breakeven point (BEP) and financial ratio analysis
  • Pay-back period NPV and capital budgeting.
  • Productivity standard of living and happiness
  • Types of productivity operations (goods and services) Vs project management
  • Production processes and layouts steps in method improvement
  • Time measurement rating and various allowances; standard time and its utility
  • Predetermined motion and time method
  • Product and process specification TQM cost of quality
  • Introduction to lean manufacturing (JIT) QFD TPM & six sigma quality.
  • Definition and concepts characteristics comparison with manager classification
  • Theories of entrepreneur socio economic
  • Cultural and psychological; entrepreneur traits and behavior
  • Roles in economic growth employment social stability
  • Export promotion and indigenization creating a venture
  • Opportunity analysis competitive and technical factors
  • Sources of funds entrepreneur development program.

 

Source: (rgpv.ac.in)

  • What is MIS Decision support systems systems approach
  • The systems view of business
  • MIS organization within the Company.
  • Management organizational theory and the systems approach:
  • Development of organizational theory
  • Management and organizational behavior
  • Management information and the systems approach.
  • Evolution of an information system
  • Basic information systems
  • Decision making and MIS MIS as technique for making programmed decisions
  • Design assisting information systems.
  • Strategic and project planning for MIS
  • General business planning appropriate MIS response
  • MIS planning-general MIS planning-details
  • Define the problems Systems objectives
  • Establish system constraints Determine information needs
  • Determine information sources Develop alternative conceptual designs and select one
  • Document the system concept Prepare the conceptual design report.
  • Detailed System Design Information and involve the organization
  • Arm of detailed design
  • Project management of MIS detailed design.
  • Identify dominant and trade off criteria define the subsystems
  • Sketch the detailed operating MIS systems and information flows
  • Determine the degree of automation of each operation inform and
  • involve the organization again Inputs Outputs and processing early system testing
  • Software Hardware and tools propose an organization to operate the system
  • Document the detailed design. Revisit the manager user.
  • Plan the implementation Acquire floor space and plan space layouts organized for implementation
  • Develop procedures for implementation
  • Train the operating personnel
  • Computer related acquisitions
  • Develop forms for data collection and information dissemination
  • Develop the files Test the system Cut over
  • Document the system
  • Evaluate the MIS
  • Control and maintain the system.
  • Fundamental weaknesses
  • Soft spots in planning
  • Design problem
  • Implementation the TAR PITF

 

Source: (rgpv.ac.in)

1. Introduction to CATIA software.

2. Introduction to ANSYS software.

3. Assembly of Sleeve and Cotter joint/ Gib and Cotter joint/ Knuckle Joint/ Flanged Coupling using CATIA.

4. Assembly of Connecting Rod using CATIA.

5. Stress analysis using ANSYS (examples: plate with a circular hole rectangular L bracket Axis-symmetric components various types of beams etc.)

6. Thermal stress analysis of a 2D component.

7. Conductive and convective heat transfer analysis of a 2D component.

8. CFD Simulation of various situations (example: Laminar pipe flow Flat plate boundary layer steady flow past a cylinder Compressible flow in a Nozzle Flow over an airfoil.)

Source: (rgpv.ac.in)

The focus of the Major Project-II is on preparing a working system or some design or understanding of a complex system using system analysis tools and submit it the same in the form of a write-up i.e. detail project report. The student should select some real life problems for their project and maintain proper documentation of different stages of project such as need analysis market analysis concept evaluation requirement specification objectives work plan analysis design implementation and test plan. Student may carry his /her topic of major project –I for major project –II provided that supervisor of the student is agree for the same on the basis of feasibility and scope of work of the selected topic. Each student is required to prepare a project report and present the same at the time of final examination with a demonstration of the working system (if any).

The faculty and student should work according to following schedule:

i) Each student undertakes substantial and individual project in an approved area of the subject and supervised by a member of staff.

ii) The student must submit outline and action plan for the project execution (time schedule) and the same be approved by the concerned faculty.

iii) At all the steps of the project students must submit a written report of the same.

Evaluation

Evaluation will be continuous an integral part of the project work done by student on regular basis by the supervisor followed by the final external viva/voce examination.