Desertification, Droughts & Floods, Deforestation, Environmental Pollution and Ecological Concerns.
Economy of Rajasthan:
Major Minerals- Metallic & Non-Metallic.
Power Resources- Renewable and Non Renewable.
Major agro-based industries- Textile, Sugar, Paper & Vegetable oil.
Poverty and Unemployment.
Agro food parks.
3. Unit-III: Current Events and Issues of Rajasthan and India -
Important Persons, Places and Current events of the State.
National and International events of importance.
New Schemes & Initiatives taken recently for welfare & development in Rajasthan.
2. Part-B
1. Unit 1: Fluid Mechanics and Fluid Machinery -
Basic definitions and fluid properties
Differential equations of continuity and momentum
Manometry, buoyancy, forces on submerged bodies
Stability of floating bodies
Bernoulli's theorem
Flow through pipes
Laminar and Turbulent flow
Boundary layer and its control
Measurement of flow by Venturi meter, V-notch and Pitot tube
Dimensional analysis, Drag and Lift, Impulse and reaction turbines
Pelton, Francis and Kaplan turbine, their construction, performance and characteristics, specific speed, governing systems, draft tubes
Centrifugal and Reciprocating pumps, Cavitation in pumps, Selection of Pumps and Turbines
2. Unit 2: Thermal Engineering -
Thermodynamic systems and processes
Zeroth law of thermodynamics
Properties of pure substances
First law of thermodynamics applied to closed and open systems
Second law of thermodynamics and their applications
Carnot, Otto, Diesel and Dual cycles
Properties of steam, Vapour power cycles like Rankine, modified Rankine and Reheat cycle, Regenerative cycle
Heat transfer processes; thermal conductivity of solids, liquids and gases; boundary conditions, one dimensional heat conduction, critical thickness of insulation; fins
Convection, appropriate nondimensional numbers; flow over flat plate; free and forced convection
Heat Exchangers: Different types of heat exchangers; arithmetic and logarithmic mean temperature differences; heat transfer coefficient for parallel, counter and cross flow type heat exchanger; effectiveness of heat exchanger
Thermal Radiation: Kirchoff's law; radiation intensity, heat exchange between two black bodies, between gray bodies
3. Unit 3: Internal Combustion Engines, Refrigeration and Air conditioning, Power Plant Engineering -
Construction and working of 2 stroke and 4 stroke SI and CI Engines
Ideal and actual cycles of operation, fuels, Combustion in SI and CI engines
Air Refrigeration System, air-craft air conditioning systems. Heat Pump cycle. COP.
Vapor compression refrigeration: Simple cycle, factors affecting performance of vapor compression cycle, actual vapor compression cycle. Suitability of refrigerants for different applications.
Vapor Absorption Refrigeration System. Psychrometry and Psychrometric properties, relations, charts and uses, evaporative cooling, air washers, human comfort, factors affecting comfort
Layout and working principles of Thermal, Hydraulic, Gas and Nuclear power plants. Wind power plants, Solar power plants and other unconventional sources of power.
4. Unit 4: Theory of Machines -
Types of Kinematics Pair, Mobility, Inversions, Kinematic Analysis, Velocity and Acceleration analysis of Planar Mechanisms, Cams
Gears and Gear Trains, Flywheel and Turning moment diagrams, Gyroscopic action and Gyroscopic couple, Governors, Brakes and clutches
Belt, Rope and Chain drives, Balancing of Rotating and Reciprocating masses.
Fundamentals of vibration: Free and Forced vibration, single degree of freedom. Natural frequency, Principle of conservation of energy, Principles of virtual work. Damping.
Forced vibrations: Harmonic excitation, Mechanical impedance, Critical speed, Vibration Isolation, whirling of shafts. Two degree of freedom systems.
5. Unit 5: Mechanics of Solids, Machine Design and Engineering Materials -
Stress and strain in two dimensions, Principal stresses and strains, isotropy and anisotropy, Uniaxial loading, thermal stresses
Bending moment and shear force diagrams, bending stresses and deflection of beams, Torsion of shafts, Combined stresses, Elastic stability of columns.
Design for strength, Stress concentration, Introduction of various design considerations like strength, stiffness, weight, cost, factor of safety, space etc
Design of shaft, coupling, springs, clutch, brakes, bearings, Gear, thick and thin cylinder, Concept of fracture in ductile and brittle metals, Creep behaviour in metals.
Crystal structure, space lattice, Miller indices, Imperfection in crystals, mechanism of plastic deformation, Theory of work hardening and recrystallization, concept of creep, fatigue and fracture
Phase diagrams, Heat treatment of steels, Plain carbon steel, alloy steels, effect of alloying elements in steel, composition, application and properties of common engineering materials.
6. Unit 6: Production and Industrial Engineering -
Foundry- Patterns and their allowances, moulding sand and its properties, moulding and casting methods
Principles of welding, brazing and soldering
Metal forming– Rolling, Forging, Extrusion and Drawing
Principles of metal cutting, Various cutting tools, Tool wear and tool life, Jigs and Fixtures
Economics of machining, Types of machine tools. Standards of measurements, Limits, Fits and Tolerances, Linear and Angular measurements
Numerical control machine tools, CAM, FMS, CIMS, principles of non-traditional machining processes.
Type of business, public corporations and co-operative societies, Forms of organization, management structure, work study and productivity, motion study, time study, theory of work sampling
Material handling: functions, engineering & economic factors, Production Planning and Control, Product life cycle, concurrent engineering, types of plant layout
7. Unit 7: Operation Research and Production Management -
Linear programming, Assignment, Transportation, Game Theory
