Odisha PSC Assistant Executive Engineer Syllabus 2015 Orissa PSC Assistant Executive Engineer (Civil & Mechanical) Exam Pattern & Syllabus 2015 OPSC Asst. Executive Engineer Scheme & Syllabus of Written Test
Odisha PSC Exam Syllabus 2015
Odisha Public Service Commission (OPSC) will conduct a Written (Objective) exam for recruitment to the posts of Assistant Executive Engineer (Civil & Mechanical) in Group-A of Odisha Engineering Service under Water Resources Department, Works Department and H & U.D. department. Nowadays Competition Level become very high so Competitive Exams gets too tougher. Candidates facing critical problem of “What to prepare” and “How to prepare”. But, nothing about to worry, you may get the appropriate prescribed syllabus and Scheme of Mains Exam from us. So, here we are providing the latest Syllabus & Exam Pattern of Assistant Executive Engineer Exam conducting by Odisha PSC.
Exam Pattern : Exam Pattern for Odisha PSC Assistant Executive Engineer written Exam is as Follows:-
► The written exam will be multiple choice objective types.
► The written exam shall be of two papers (Paper-I & Paper-II) for each Civil and Mechanical Engineering.
► Each question paper will contain 180 marks (90 questions of two marks each).
► The time duration for each paper will be 03:00 hours (180 minutes).
Marks & Questions Distribution :-
|3.||Design of concrete structure||15|
|4.||Design of steel structure||10|
|5.||Building Material and Building Construction||15|
|6.||Estimation, Construction Planning and Management||10|
|1.||Water Resources and Hydraulic Engineering||25|
|1.||Theory of Machines||15|
|3.||Mechanics of Solids||15|
|2.||I.C. Engines, Fuels and Combustion||15|
|3.||Heat Transfer, Refrigeration and Air Conditioning||(10+10+10) 30|
|5.||Fluid Machineries and Power Plants||20|
Exam Syllabus : Exam Syllabus for Odisha PSC Assistant Executive Engineer written Exam is given below :-
1. SOLID MECHANICS:- Elastic constants, plane stress, plane strain, Mohr’s circle, combined stress; Elastic theories of failure; Simple bending, Shear; Torsion of circular and rectangular sections and simple members. Bending Moment and Shear Force in statically determinate beams.
2. STRUCTURAL ANALYSIS:- Analysis of determinate structures – different methods including graphical methods. Analysis of indeterminate skeletal frames – moment distribution, slope deflection, stiffness and force methods, energy methods, Muller-Breslau principle and application. Plastic analysis of indeterminate beams and simple frames – shape factors. Basic concepts of matrix method of structural analysis
3. DESIGN OF CONCRETE STRUCTURES:- Limit state design for bending, shear, axial compression and combined forces. Codal provisions for slabs, beams, walls and footings. Principles of prestressed concrete design, materials, methods of prestressing, losses. Design of simple members.
4. DESIGN OF STEEL STRUCTURES (Based on Limit State Method):- Analysis and design of tension and compression members, Column bases, Connections- simple and eccentric beam-column connections. Plate girders and trusses.
5. BUILDING MATERIALS and BUILDING CONSTRUCTION:-
(a) Building Materials:- Cement: Components, different types, setting times, strength. Cement Mortar: Ingredients, proportions, water demand, mortars for plastering and masonry. Concrete: Importance of W/C Ratio, Strength, ingredients including admixtures, workability, testing for strength, non-destructive testing, mix design methods. Bricks: Types, Indian Standard classification, absorption, saturation factor, strength in masonry.
(b) Building Construction:- Types of Foundations, Brick masonry, Stone masonry, Floorings, Causes and prevention of cracks in buildings, Damp proofing, Special maintenance of buildings.
6. ESTIMATION, CONSTRUCTION PLANNING AND MANAGEMENT:- Preliminary estimate, Detailed estimate, Specifications and cost analysis. Bar chart, Linked bar chart, Work-breakdown structures, Activity- on – arrow diagrams, critical path, probabilistic activity durations, Event- based networks, PERT networks: Time- cost study, Resource allocation.
1. WATER RESOURCES AND HYDRAULIC ENGINEERING:-
(a) Irrigation Engineering:- Consumptive use of water, irrigation systems, water demand assessment; Storages and their yields, ground water and well hydraulics; Water logging, drainage design; Design of rigid boundary canals, Lacey’s and Tractive force concepts in canal design, lining of canals; Sediment transport in canals; Forces acting on gravity dams and their design, Design of headwork, distribution works, falls, Cross drainage works, outlets; River training
(b) Hydrology:- Hydrological cycle, precipitation and related data analyses, Probable maximum precipitation, unit hydrograph and synthetic unit hydrographs; Evaporation and transpiration; Floods and their management, Design Flood, Streams and their gauging; Routing of floods; Capacity of Reservoirs.
(c) Fluid Mechanics:- Fluid Properties, Pressure, Thrust, Buoyancy; Flow Kinematics; Integration of flow equations; Flow measurement; Relative motion; Moment of momentum; Viscosity, Boundary layer and Control, Dimensional Analysis,Flow development, losses in pipe flows, Pipe networks, Flow measuring equipment and structures.
(d) Open Channel Flow:- Momentum and Energy principles in Open channel flow, Types of flow, Flow sections and properties; Normal flow, Gradually varied flow,Hydraulic jump.
2. ENVIRONMENTAL ENGINEERING:-
(a) Water Supply Engineering:- Sources of supply, design of intakes, Estimation of demand; Water quality standards; Primary and secondary treatment, detailing and maintenance of treatment units; Conveyance of treatment units; distribution systems of treated water, leakages and control; Institutional and industrial water supply.
(b) Waste Water Engineering:- Urban rain water disposal;Quantity and characteristics of waste water, Collection of waste water, Primary, Secondary and tertiary treatment of waste water, Sludge disposal, effluent discharge standards, Institutional and industrial sewage management.
(c) Solid Waste Management:- Characteristics, Generation, Collection and Transportation, Engineered systems of solid waste management (reuse, recycle, recovery, treatment and disposal). Design and Management of landfills.
(d) Air and Noise Pollution:- Air pollution: sources and impacts, air pollution controls, standards and limits. Noise pollution- impacts of noise, permissible limits, measurements and control of noise pollution.
3. GEOTECHNICAL ENGINEERING:-
(a) Soil Mechanics:- Fundamental definitions and interrelationships; Properties and Classification of soils, Permeability and seepage, Effective stress principles, Shear strength, Consolidation, Compaction, stress distribution in soils.
(b) Foundation Engineering:- Types of foundations, Foundation design requirements, Shallow foundations – bearing capacity, settlement analysis in sands and clays, Deep foundations- pile types, dynamic and static formulae, load carrying capacity of piles in sands and clays, group action, negative skin friction , Earth pressure theories, effect of water table, layered soils, Stability of slopes, Sub-surface investigations- scope, drilling bore holes, sampling, penetration tests, plate load tests, geophysical tests.
4. TRANSPORTATION ENGINEERING:-
(a) Highway Engineering:- Geometric design of highways, Testing and specifications of paving materials, design of flexible and rigid pavements
(b) Traffic Engineering:- Traffic characteristics, theory of traffic flow, intersection design, traffic signs and signal design, highway capacity.
5. SURVEYING:- Principles and classification of surveys, mapping concepts, Coordinate systems, Measurement of distance and directions, Leveling, Theodolite traversing, Contours, Plane table surveying, Errors and adjustments, Curves, Total station, Concept of Global Positioning System; Photogrammetry and Remote Sensing concepts.
1. Theory of Machines:- Kinematic chain, Mechanisms and inversions, Motor Vehicle steering gears, Hooks’ Joint, Toothed gears, Tooth profiles, Interference, Gear Trains, Compound gears, Differential, Cam profiles, Displacement, velocity and acceleration of cam followers, Flywheel and Turning moment diagram. Governors, Stability, Sensitivity, Isochronism and hunting, Governor effort and power, Controlling force and effect of friction, Balancing of revolving masses. Balancing of single and multicylinder engines, Friction and lubrication, Hydrodynamic theory of lubrication, Linear free and forced vibration of single and two degree freedom mechanical systems with or without damping, Critical speeds and whirling of shafts, Vibration of beams, Torsional vibration.
2. Machine Design:- Design of Joints: Cotters, Keys, splines, welded joints, threaded joints, threaded fasteners, joints formed by interference fits, Design of friction drives: coupling and clutches, belt and chain drives, power screws. Design of power transmission systems: gears and gear drives shaft and axle, wire ropes, Design of bearings: hydrodynamic bearings and rolling element bearings.
3. Mechanics of Solids:- Stress and strain for materials in tension, compression and shear, Relation between elastic constants for an isotropic, linear elastic and homogeneous materials, Uniaxial Loading, Thermal stresses, Stress-strain diagrams for ductile and brittle materials, Stress and strain in two dimensions, Principal planes, Mohr’s circle, Strain rosette. Bending moment and shear force diagrams. Composite beams. Bending stresses, Shear stress distribution. Slope and deflection in beams. Torsion of circular shafts. Helical springs. Combined stresses. Theories of failure. Thick and thin walled pressure vessels, shrink-fit. Struts and columns. Energy principles. Strain energy due to bending, twisting and axial load. Castiglione’s theorem. Reciprocal Theorem. Slope and deflection by energy methods.
4. Engineering Materials:- Basic concepts on structure of solids, Crystalline materials, Defects in crystalline materials, Alloys and binary phase diagrams, structure and properties of common engineering materials. Iron carbon equilibrium diagram, TTT-diagram. Heat treatment of steels, Plastics, Ceramics and composite Materials, Common applications of various materials.
5. Manufacturing Science:- Basic principles of forging, drawing, extrusion and rolling, Pattern, Gating and risering system, casting defects, special casting process, welding: Gas welding, arc welding, resistance welding, thermit welding. Cutting tool materials, Tool geometry and nomenclature ASA, ORS and NRS, types of chips, cutting variables, Chip reduction coefficient, Merchant’s force diagram, velocity relationship and Kronenberg’s relationship. Ernest & Merchant angle relationship, Lee-Shafer relationship-cutting fluid, Tool wear, Taylor’s tool life equation, Drilling, Milling and boring, Gear Manufacturing, Economics of metal machining, Jigs and fixtures. Fits and Tolerances, NC, CNC, ECM, EDM, AJM, USM, LBM, Plasma machining, High energy rate forming.
6. Manufacturing Management:- Production Planning and Control, Forecasting-Moving average, exponential smoothing, Operations scheduling; assembly line balancing. Product development. Breakeven analysis, Capacity planning. PERT and CPM. Control Operations: Inventory control-ABC analysis. EOQ model. Materials requirement planning. Job design, Job standards, work measurement, Quality management Quality control. Operations Research: Linear programming Graphical and Simplex methods. Transportation and assignment models. Single server queuing model. Value Engineering: Value analysis for cost/value. Total quality management and forecasting techniques. Project management.
1. Thermodynamic Cycles:- Basic concepts. Open and closed systems, Applications of laws of Thermodynamics, (Zeroeth, First and Second Laws), Gas equations, Clapeyron equation, Availability, Irreversibility and Tds relations, reciprocating air compressors.
2. I.C. Engines, Fuels and Combustion:- Spark ignition and compression ignition engines, Two stroke and Four stroke engines, mechanical, thermal and volumetric efficiency, Heat balance. Combustion process in S.I. and C.I. engines, preignition detonation in S.I. engine, Diesel knock in C.I. engine, Choice of engine fuels, Octane and Cetane ratings. Alternate fuels, Carburetion and Fuel injection, Engine emissions and control. Solid, liquid and gaseous fuels, stoichometric air requirements and excess air factor, fuel gas analysis, higher and lower calorific values and their measurements.
3. Heat Transfer, Refrigeration and Air Conditioning:- One and two dimensional heat conduction, Heat transfer from extended surfaces, Heat transfer by forced and free convection. Heat exchangers. Overall heat transfer coefficient, Fundamentals of diffusive and convective mass transfer, Radiation laws, heat exchange between black and non black surfaces, Network Analysis. Heat pump, refrigeration cycles (Air refrigeration, vapor compression and absorption refrigeration) and systems, Condensers, evaporators and expansion devices and controls. Properties and choice of refrigerant, Refrigeration Systems and components, psychometrics, comfort indices, cooling load calculations, solar refrigeration.
4. Fluid Mechanics:- Properties and classification of fluids, Manometry, Forces on immersed surfaces, Center of pressure, Buoyancy, Elements of stability of floating bodies, Kinematics and dynamics: Continuity, Momentum and Energy Equations, Irrotational flow and incompressible, In viscid flow, Velocity potential, Pressure field and forces on immersed bodies, Bernoulli’s equation, Fully developed flow through pipes, Pressure drop calculations, Measurement of flow rate and Pressure drop, Elements of boundary layer theory, Integral approach, Laminar and turbulent flows, Separations, Flow over weirs and notches, Open channel flow, Hydraulic jump, Dimensionless numbers, Dimensional analysis, Similitude and modeling, One-dimensional isentropic flow, Flow through convergent-divergent ducts. Adiabatic and Isentropic flow, fanon lines, Rayleigh lines.
5. Fluid Machineries and Power Plants:- Theory and design of axial flow turbines and compressors, Reciprocating and centrifugal pumps, Impulse and Reaction turbines, Specific speed, Classification, Energy transfer, Flow through turbo-machine blades, cascades, centrifugal compressor. Dimensional analysis and modeling. Steam generators, Fire-tube and water tube boilers, Flow of steam through nozzles and diffusers, wetness and condensation, various types of steam and gas turbines, Selection of site for steam, hydro, nuclear and stand-by power plants, Selection base and peak load power plants, Modern High pressure, High duty boilers, Draft and dust removal equipment, Fuel and cooling water systems, heat balance, station and plant heat rates, operation and maintenance of various power plants, preventive maintenance, economics of power generation.
For more Information please visit – http://www.opsc.gov.in
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