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Kerala PSC Assistant Project Engineer Syllabus: Kerala Public Service Commission has published Kerala PSC Assistant Project Engineer Syllabus. If you have applied for the post of Assistant Project Engineer and would like to know the detailed syllabus, then your search ends right here. In this article, we will provide the detailed syllabus of the upcoming Assistant Project Engineer Exam 2023. In order to crack the exam, one needs to have a clear understanding of the syllabus, therefore read through Assistant Project Engineer Syllabus to broaden your perspective. You can also download Assistant Project Engineer Kerala PSC Syllabus in PDF format.
Kerala PSC Assistant Project Engineer Syllabus 2023
Kerala PSC Assistant Project Engineer Syllabus 2023: പരീക്ഷയ്ക്കുള്ള തയ്യാറെടുപ്പുകൾ ആരംഭിക്കാൻ സമയമായി. പരീക്ഷയിൽ വിജയിക്കുന്നതിന്, സിലബസിനെക്കുറിച്ച് വ്യക്തമായ ധാരണ ഉണ്ടായിരിക്കണം, അതിനാൽ കേരള PSC അസിസ്റ്റന്റ് പ്രോജക്ട് എഞ്ചിനീയർ സിലബസ് 2023 വിശദമായി വായിച്ച് മനസിലാക്കുക. നിങ്ങൾക്ക് Assistant Project Engineer Kerala PSC Syllabus PDF രൂപത്തിൽ ഡൗൺലോഡ് ചെയ്യാവുന്നതാണ്.
Assistant Project Engineer Syllabus Overview
ചുവടെ നൽകിയിരിക്കുന്ന പട്ടികയിൽ Assistant Project Engineer Syllabus സംബന്ധമായ എല്ലാ പ്രധാനപ്പെട്ട വിവരങ്ങളും ലഭിക്കും.
Assistant Project Engineer Syllabus | |
Organization | Kerala Public Service Commission |
Category | Exam Syllabus |
Department | The Kerala Land Development Corporation Limited |
Name of the Post | ASSISTANT PROJECT ENGINEER |
Category No. | 556/2021 |
Mode of Examination | ONLINE/ OMR |
Medium of Questions | English |
Total Marks | 100 |
Duration of Examination | 1 Hour 30 Minutes |
Official Website | www.keralapsc.gov.in |
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Kerala PSC Assistant Project Engineer Exam Pattern
Kerala PSC Assistant Project Engineer Exam Pattern | |||
Parts | Modules | Topics | Marks |
Part I: Civil Engineering (50 Marks) | Module I | Mechanics of Solids and Structural Analysis, Fluid Mechanics and Water Resources Engineering | 10 Marks |
Module II | Surveying and Levelling, Quantity Surveying and Valuation, Building materials, Construction Technology, Construction Management | 12 Marks | |
Module III | Environmental Engineering, Design of Structures | 14 Marks | |
Module IV | Geotechnical Engineering, Transportation Engineering and Urban Planning | 14 Marks | |
Part II: Agricultural Engineering (50 Marks) | Module I | Hydrology, Soil and Water Conservation Engineering | 15 Marks |
Module II | Irrigation and Drainage Engineering | 20 Marks | |
Module III | Farm Machinery and Power Engineering | 10 Marks | |
Module IV | Agricultural Processing Engineering | 5 Marks | |
Total | 100 Marks |
Assistant Project Engineer PSC Syllabus PDF Download
Assistant Project Engineer PSC Syllabus PDF ഡൗൺലോഡ് ചെയ്യാൻ, താഴെ നൽകിയിരിക്കുന്ന ലിങ്കിൽ ക്ലിക്ക് ചെയ്യുക.
Kerala PSC Assistant Project Engineer Syllabus PDF Download
Assistant Project Engineer Syllabus
Module I:
(a) Mechanics of Solids and Structural Analysis
- Concept of stress and strain, Bending moment and shear force, Stresses in beams, Deflection of beams, Theory of columns, Truss analysis, the Displacement response of statically determinate structural systems using energy methods, Principle of virtual work, Statically indeterminate structures, Strain Energy methods, Moving loads and influence lines, Arches. Slope Deflection Method, Moment Distribution Method, Clapeyrons Theorem (Three Moment Equation), Kani’s method of analysis
(b) Fluid Mechanics and Water Resources Engineering
- Fluid Statics- Fluid pressure, Buoyancy and floatation, Fluid Kinematics, Dynamics of fluid flow, Flow through orifice and notches, Flow through pipes, Boundary layer, Drag and Lift on immersed bodies. Hydraulic machines- flow through vanes (moving and stationary) Impulse and reaction Turbines, Centrifugal Pumps, Open channel flow, Uniform flow, Hydraulic Jump, Gradually varied flow, Dimensional analysis, and model testing.
- Hydrologic cycle, Precipitation, Infiltration, and Evaporation-measurement and data analysis. Runoff-components and computation, Hydrograph, Unit Hydrograph, and S-Hydrograph. Irrigation types and methods-Soil water plant relationships, Frequency of irrigation, Computation of crop water requirement. Stream flow measurement -Stage-discharge curve. Meandering of rivers, river training works. Surface water systems: diversion and storage systems, reservoir – estimation of storage capacity and yield of reservoirs – reservoir sedimentation -useful life of a reservoir. Groundwater – Aquifer types and properties – Steady radial flow into a well. Estimation of the yield of an open well.
Module II:
(a) Surveying and Levelling, Quantity Surveying and Valuation
- Basics of Surveying, Levelling, and Contouring, Area and Volume Computation, Theodolite Survey, Mass Diagram, Triangulation, Theory of Errors, Electronic Distance Measurement, Total Station Survey, Global Positioning Systems, Remote Sensing, Geographical Information System
- Analysis of rates – Data book and schedule of rates, Analysis of rates for various items of work, Detailed specification. Types of Estimate. Detailed estimate including quantities, abstract, and preparation of various items of works, Preparation of bar bending schedules for various RCC works. Valuation- Methods of valuation, Depreciation, Fixation of rent.
(b) Building materials, Construction Technology, Construction Management
- Construction Materials – Timber, Mortar, Iron and Steel, Structural steel, Modern materials. Concrete–Admixtures, Making of concrete, Properties of concrete, Mix proportioning.
- Building construction- Foundations, Cost-effective construction, Masonry, Lintels, and arches. Floors and flooring, Roofs and roof coverings, Doors, windows, and ventilators, Finishing works. Tall Buildings – Steel and Concrete frame, Prefabricated construction, Slip form construction. Vertical transportation – Stairs, Elevators, Escalators, and Ramps. Building failures and Retrofitting, failures in RCC and Steel structures.
- Construction Planning and Scheduling, Construction disputes and settlement, Ethics in Construction, Construction Safety, Principles of materials management, Quality management practices, and Construction Procedures.
Module III:
(a) Environmental Engineering
- Water sources and demand, Quantity estimation, Population forecasting, Quality of water. Water treatment- Physical methods, Chemical methods. Design of sedimentation tank, flocculator, clariflocculator, filters, and Membrane treatment techniques. Disinfection methods. Distribution of water, Pumps, Hardy Cross method of analysis
- Wastewater- Sources, Characteristics, Oxygen Demand. Design of sewers, Circular sewers, Partial flow, and full flow conditions. Sewer appurtenances, Disposal of wastewater, Streeter Phelps equation, Oxygen sag curve, Treatment methods, Aerobic and anaerobic methods, Design of various treatment units-Screening, Grit chamber, Sedimentation tank, Activated Sludge process, Trickling filter, Rotating biological contactor, Septic tanks, Imhoff tanks, Oxidation ditches, Oxidation ponds, Upflow anaerobic sludge blanket reactors, Sludge digestion, Sludge drying bed. Air pollution sources, effects on humans, Control of air pollutants, Air quality legislations.
(b) Design of Structures
- Limit state method of design, Analysis of reinforced rectangular beams, Shear strength of RC beam, Design of shear reinforcement, Bond and development length, Curtailment of reinforcement, Design for torsion, Design of one-way slab, Cantilever slab, Continuous slab (detailing only), Two-way slabs, Limit state of serviceability, Deflection, Cracking, Staircases -design & detailing. Columns-effective length-design of axially loaded short columns with rectangular ties and helical reinforcement.
- Columns subjected to compression, Uniaxial bending, and biaxial bending, Design of slender columns, Design of wall/strip footing- design of footings, Design of cantilever retaining wall without surcharge, design principles of counter fort retaining wall, Circular slabs simply supported, fixed and partially fixed subjected to udl, Design of water tanks, Design philosophy, and requirements, joints, IS code recommendations, Pre-stressed concrete, Concept of prestressing, materials and methods of prestressing, Prestressing systems, losses of prestress, Analysis of prestressed beams (rectangular and I-sections) at stages of transfer and service
- Steel and steel structures – Bolted and welded connections, Tension members, Compression members, Beams, Roof trusses, and Purlins. Timber structures- columns, composite beams (concepts only)
Module IV:
(a) Geotechnical Engineering
- Major soil deposits of India, Classification and three-phase system of soil, Permeability of soils, Principle of effective stress, Shear characteristics of soil, Consolidation (Terzaghi’s theory of one-dimensional consolidation only), and Compaction.
- Stability of finite slopes-Swedish Circle Method and Friction circle method, Stresses in subsoil due to loaded areas of various shapes, Boussinesq’s formula, Newmark’s chart Lateral earth pressure -Rankine’s and Coulomb’s theories
- Bearing capacity of the soil, Estimation of the magnitude of settlement, Site investigation, Standard Penetration Test and Plate load test, Design of shallow, deep, and machine foundations, and Ground improvement techniques.
(b) Transportation Engineering and Urban Planning
- Classification and alignment of highways, Geometric design of highways, Properties, and testing of pavement materials, CBR method of flexible pavement design, Construction and maintenance of pavements, Design of runways, taxiways, and aprons. Traffic characteristics Traffic studies and analysis, Traffic control devices. Airport characteristics- Aircraft component parts. Site selection, Terminal area planning- Airport marking, and lighting. Traffic regulation rules, Highway capacity, Traffic safety, Influencing factors and preventive measures for traffic accidents, Basic diagrams of traffic flow theory. Railways- geometric design of tracks, railway operation control, Maintenance. Alignment, Ventilation, and drainage of tunnels, Types of harbours and docks.
- Goals and objectives of planning; Components of planning, Regional planning, Theories of urbanization, Study of Urban Forms, Zoning, Development of new towns, Town Development Plan, Town planning acts
Part II: Agricultural Engineering (50 Marks)
Module I: Hydrology, Soil and Water Conservation Engineering (15 marks)
- Hydrologic cycle, different elements of the hydrologic cycle such as precipitation, interception, infiltration, runoff, and evaporation. Point rainfall analysis, frequency analysis. Watershed: definition and concept, agricultural watersheds, prediction of peak runoff, factors affecting runoff, hydrograph, concepts of unit and instantaneous hydrographs. Hydrographs for other durations from unit hydrographs. Soil erosion: types and factors associated with erosion, assessment of actual annual soil loss by erosion and its impact on agricultural production and productivity. Erosion control measures on various classes of lands i.e. contour cultivation, strip cropping, terracing, afforestation, pastures, etc. contouring and terracing, and earthwork estimation. Role of vegetation in soil and water conservation, grassed waterway and its design. Gully control measures: Design of gully control measures including permanent structures i.e. drop spillway, drop inlet spillway, chute spillway, stream bank erosion, mechanics of wind and water erosion, wind erosion control, water harvesting structures.
Module II: Irrigation and Drainage Engineering (20 marks)
- Land grading and layout. Estimation of cut and fill least cost method. SoilWaterPlant relationship, water requirements of different crops and irrigation scheduling, direct and indirect methods of soil moisture measurements, measurements of irrigation water. Irrigation methods. Water conveyance and control. Surface irrigation methods. typical network of canal irrigation systems and their different physical components. Determination of canal capacity. Canal alignment and consideration for alignment. irrigation efficiencies. Sprinkler irrigation, components, design of sprinkler system. Drip irrigation, components, and design of drip system. Selection and design of pump sets used in irrigation. aquifer parameters, hydraulics of wells, steady and unsteady flow, well log, and well development. Agricultural drainage: Introduction, its purpose, and benefits. Surface drainage, drainage coefficient, types of surface drainage systems, design of surface drains; subsurface drainage, purpose, and benefits. Design parameters of drainage: hydraulic conductivity, drainable porosity, and water table. Design and layout of surface and subsurface drains, depth and spacing of drains and drainage outlets, Hooghoudt’s and Ernst’s drain spacing equations. Pumps are used in agricultural drainage.
Module III: Farm Machinery and Power Engineering 10 marks
- Classification of Internal combustion (IC) engine terminology, Otto diesel cycle, engine components, Fuel supply system, Lubrication system, Cooling
system and Governing system, steering system, hydraulic system. Types of tractors, brakes, and power transmission systems. Tillage, primary and secondary
tillage equipment, Selection of sowing and planting equipment and their calibration, Selection, and calibration of sprayers and dusters. Principles, selection, and operation of harvesting and threshing machinery. Earth moving equipments, Cost analysis of farm machinery and equipment.
Module IV (Agricultural Processing Engineering) 05 marks
- Various size reduction machinery and material handling equipments used in agricultural processing. Types of separation equipments based on size, shape
, and surface characteristics. Mode of heat transfer and types of heat exchangers. Psychometric chart and its application in drying. EMC and its determination, Principles of drying and drying equipments, and Grains storage structures. Principles of food preservation and thermal processing.