Semester System 20-05-04 (final) send to engineering council
-
Upload
shariq-khan -
Category
Documents
-
view
105 -
download
0
Transcript of Semester System 20-05-04 (final) send to engineering council
Department of Civil Engineering,N-W.F.P University of Engineering and Technology, Peshawar
Semester-1
1 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-101Serial No.: ________________
Course Title: Engineering Mechanics
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective for Session: _____________________ Effective To: ___________________
Concept of measurement of mass, force, time and space, system of units, Fundamental & Derived
units, conversion of units, required accuracy of results
General Principles of static’s, Vector addition, subtraction and products,
Resultant of distributed (linear & non linear) force systems,
General conditions of equilibrium of co-planer forces, Laws of triangle, parallelogram and polygon
of forces,
Types of Beams, supports and loads, simple cases of axial forces, shear forces and bending
moment diagrams,
Problem involving friction on flat surfaces
Geometrical properties of plane areas
Work, energy, power, impulse, momentum, conservation of momentum and energy
Rectilinear and curvilinear motions, Tangential and normal components of Acceleration, Simple
harmonic motion,
Books Recommended
Engineering Mechanics, 4th edition by Irving H. shames, Prentice Hall
2 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-101Serial No.: ________________
Course Title: Engineering Mechanics
Type: Lab Contact Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Roof Truss
To find the various forces in various parts of wall crane
To verify the line of polygon on various forces
To find coefficient of friction between various materials on inclined plan
To verify the principle of moment in the disc apparatus
Helical block
To draw a load efficiency curve for a screw jack
3 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-102Serial No.: ________________
Course Title: Engineering Drawing for Civil Engineers
Type: Theory Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction: Drawing Instrument & their use. Types of lines & letters. Scales Dimensions & their Types. Planning of a Sheet. Types of Engineering Drawings.
Geometric Constructions & Engineering Curves, Parabola, Ellipse & Hyperbola. Projections:
Concept of Projection. Types of Projections, Orthographic Projection. 1st Angle & 3rd Angle Projection Orthographic Projection of Points, Simple lines, simple planes & simple solids. Three Views of an object. Sectional Views.
Isometric Views from given orthographic Views. Free Sketches. Of solid objects & building drawings. Building Drawings.
Building symbols. Types of building drawings, proposed drawing, submission drawing, Working drawing &
completion drawing. Introduction to Bridge Drawings.
Books Recommended:1. Essentials of Drafting by James D. Bethune.2. Engineering Drawing by N.D. Butt.
4 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-102Serial No.: ________________
Course Title: Engineering Drawing for Civil Engineers
Type: Lab Contact Hours: 04
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Drawing Exercises: Planning of sheet & practicing lines & letters. Orthographic Projections of given model, Sectional Views. Steel Structure Connections detail. Preparation of Plan, Elevation & Section of Single story simple buildings. Isometric & other three dimensional Views. Free Hand Sketches.
5 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-103 Serial No.:_________________
Course Title: Computer Applications & Communications Skills
Type: Lab Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Part – A: Computer Applications1. Introduction to Computer Hardware2. Introduction to Operating Systems3. Introduction to Word Processors4. Introduction to Spread Sheets5. Introduction to Presentation Software
Recommended Books:1. Mastering OfficeXP, Professional Edition, by Gini Cortrte
Part – B: Communication Skills1. Brain Storming Process2. Analysis of Topic3. Audience Analysis4. Sequencing the Presentation Material5. Detailing of Material6. Preparing Conclusion7. Question & Answer Sessions8. Preparation of Presentation in Software9. Presentation to Audience10. Participating in seminars and interviews11. Presenting Conference Papers
Recommended Books:1. Communication Skills ,University of Phoenix2. Technical Report Writing Today, Pauley & Riodian
6 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: EE-105Serial No.: ________________
Course Title: Electrical Technology
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Power Systems layout, generation, transmission, distribution and utilization of electric power
Electrical Elements and circuits
Electrical current, voltage, power, energy, Ohm’s law, inductance, capacitance, Kirchoffs laws. Introduction
to node voltage and loop current methods
Principle of House wiring and Industrial wiring
Diode Transistor and simple rectifier circuit.
Electrical know how related to experimental design instrumentations like corrosion rate measurements,
strain gauges, LDT’s LVDT’s. Etc.
Books Recommended
Theraja, B.L. Electrical Technology, S. Chand (21st or 26th edition)
7 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: BSI-101Serial No.: ________________
Course Title: Islamite & Pakistan Studies
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective for Session: _____________________ Effective To: ___________________
8 of 107
(Part-A)
NWFP University of Engineering & Technology Peshawar
9 of 107
(Part-B)
Document Type: Course Outline Department: Civil Engineering
Course No.: BSI-104Serial No.: ________________
Course Title: Applied Linear algebra
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Vector Algebra: Introduction to scalars and vectors, Vectors in the plane, Scalar and vector products, Lines in R 2, R 3 and planes, Spheres, Orthogonal projections, Perpendicular distance from a point to a line and a plane, Vector spaces, Subspaces, Linear combinations, Linearly dependent and Independent set of vectors, Spanning of a vector spaces, Bases of a vector spaces and its applications in engineering and Business.
Matrix Algebra: Introduction to matrices, Matrix operations, Inverse Matrix, Rank of a Matrix, Echelon form of a Matrix and its applications in our daily life situation problems, i-e in line-communication as Air-lines, Telephone-lines, Connecting cities by roads.
Determinants: Determinants and its properties, Inverse of a matrix, Rank of a matrix, linearly dependent and independent by determinants.
Linear system of equations: Independent, Dependent and Inconsistent system of equations and its graphical representation, Trivial and non-trivial solutions of homogeneous system of linear equations and its applications as linear models in Business, Economics, Science, Electric Circuits and other branches of engineering. Solution of linear system of equations by determinants and its applications as Leontief input-output matrix of the economy, Coding and decoding theory.
Linear Transformations: Reflection operators, Projection operators, Rotation operators, Shear in x and y directions, Dilation and Contraction.
Eigenvalues and Eigenvectors: Eigenvalues and eigenvectors and its applications as deformation, Markov processes as Mass-transit problems, Forecasting of weather and to develop the solution of the system of differential equations for mechanical system/electrical system and civil engineering, especially in public health engineering problems.
Book recommended: David C Lay, Linear Algebra and its Application, 2nd Edition, Addison-Wesley Publication Jan 1998
10 of 107
Department of Civil Engineering,N-W.F.P University of Engineering and Technology, Peshawar
Semester-2
11 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-104Serial No.: ________________
Course Title: Mechanics of Solids-I
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Simple stress and strain
Types of stresses and strains
Load extension diagram for different materials
Hook’s law, Modulus of elasticity
Lateral and volumetric strain. Poisson’s ratio
Temperature stresses and compound bars
Theory of torsion of solid and hollow circular shafts
Advanced cases of shear force and bending moment diagrams for statically determinate beams.
Relationship between Load, Shear and Moment.
Theory of simple bending, Neutral Axis, Resisting moments and section modulus.
Shear stresses in mono-symmetric beams
Deflection of beams by double integration, moment area and conjugate beam methods
Books recommended:
1. Strength of Materials by Andrew Pytel and Ferdinand L. Singer
2. Mechanics of Materials by E.P. Popov
12 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-104Serial No.: ________________
Course Title: Mechanics of Solids-I
Type: Lab Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Investigation of Hook’s law that is the proportional relation between force and stretching in elastic deformation,
Determination of torsion and deflection, Measurement of forces on supports in statically determinate beam, Determination of shear forces in beams, Determination of bending moments in beams, Measurement of deflections in statically determinate beam, Measurement of strain in a bar Bend test steel bar; Yield/tensile strength of steel bar;
13 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-105Serial No.: ________________
Course Title: Computer Programming for Civil Engineers
Type: Theory Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction to Programming & Visual Basic Visual Basic Code Components Data Types Variables Control Structures Procedures Arrays File I/O operations
Reference Books:Visual Basic 6 by Deitel & Deitel, T.R. Nieto
14 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-105Serial No.: ________________
Course Title: Computer Programming for Civil Engineers
Type: Lab Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Visual Basic Code Components (program examples) Data Types (program examples) Variables (program examples) Control Structures (program examples) Procedures (program examples) Arrays (program examples) File I/O operations (program examples) Programming related to Civil Engineering
1. Matrix addition, subtraction and multiplication.2. Beam analysis program for simply supported, cantilever, Overhanging Beam3. Program for finding resultant of forces and its angle4. Program for stress analysis of composite bars
15 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-106Serial No.: ________________
Course Title: Civil Engineering Materials
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Cements, Ceramics, and Refractories:Manufacture, properties, and application of lime, cement, ceramic and bricksMortars and concrete, Pozzolanic material, effects of various chemicals on cement and concrete. Methods of protection, strength and test of building stone. Quarrying and dressing of stone.
Timbers:Varieties and uses of important timbers, method of seasoning and sawing Decay, seasoning and preservation of timber, laminated materials.
Glass and Plastics: Composition, varieties, properties and use of glass, plastic, laminates and adhesive.
Metals:Composition and properties of ferrous and non ferrous metals used in civil engineering. Effect of various heat treatments on the properties of steel and its alloys. Corrosion and methods of corrosion control. Properties of thermal insulation material for use in buildings.
Paints and Varnishes:Composition, preparation, properties, test and uses of paints, plasters, varnishes and distempers.
Other Materials: Acoustical material and geo-textiles, properties and uses of asphalt, bitumen, rubber and asbestos, laminates and adhesive.
Books recommended:1. Neville A. Properties of Concrete, English Language Book Society2. Smith R. C. Material of Construction, McGraw-Hill
16 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-106Serial No.: ________________
Course Title: Civil Engineering Materials
Type: Lab Contact Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
1. Gradation of coarse aggregate2. Gradation of fine aggregate3. Fineness of cement4. Setting time
Normal Consistency Initial Setting time Final Setting time
5. Tensile Strength of Briquette6. Compressive strength of mortar cube7. Soundness test of Cement8. Density of Cement9. Slump Test
17 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: BSI-102Serial No.: ________________
Course Title: Calculus
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective for Session: _____________________ Effective To: ___________________
Single Variable Calculus:
Basic concepts of single variable function, Continuous, discontinuous and piecewise continuous functions, Periodic, odd and even functions, algebraic functions, Transcendental functions and its graphical representations, Applications of functions in our daily life situations.
Differential Calculus:
Limits and continuity, Interpretation of a derivative, Geometric interpretation, Total differential and its applications in our daily life situations, The use of a table of different type derivatives, Higher order derivatives, Tangents and normals, Approximation of a function at a particular point by Taylor's and Maclaurin's series, Maximum and minimum values of a function, The first derivative test, The second derivative test, Point of inflexion and its applications in business and engineering.
Integral Calculus:
Basic concepts of integration, A table of integral formulas, Some rules of integration, Definite integrals, The area bounded by a curve, Integration by parts, Integration as the limit of a sum, Volume of revolution, and its applications in our daily life situations
Multivariate Calculus:
Basic concepts of multivariate function, Level curves and surfaces, Limits and continuity, Partial differentiation, Geometric interpretation, higher partial derivatives. Tangent planes, Total differential, Vector functions and its differentiation and integration, The directional derivative, The gradient, Scalar and Vector fields, Normal property of the gradient, Divergence , Curl, Tangent planes and normal lines, Extrema of functions of two variables, Second partials test, Extreme value theorem, Method of Constrained optimization and Lagrange multipliers.
Books Recommended
Robert Davison, Addison Wesley, Mathematics for Engineers Antom, H. Calculus and Analytic Geometry, Johney Wiley and Sons. Toff and Mckay, Practical Mathematics S.A.H.Rizvi, Engineering Mathematics
18 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: BSI-117Serial No.: ________________
Course Title: Engineering Geology Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction to Geology
Importance of Geology for Civil Engineering ProjectsPhysical properties and identification of common rocks forming minerals
Rocks formation and classification:a. According to the mode of occurrencesb. According to the Silica contents
Weather and erosion:Weather classification, fresh, slightly weathered, moderately weathered etc.
Discontinuity classification:Joints, faults and other fractures, micro structural features, such as lamination, cleavages, foliations, spacing of discontinuities as close, wide, medium etc,
Description of Rock masses as thickly bedded or thinly beddedIdentification of filling in joints, sand clay and breccias etcColor of grains, description with respect to the rock color and identification as a course grained, hardness classification as soft with respect to test
Geological classification and identification of Rocks by geological namesIdentification and subordinate constitutions in rocks samples such as seams or branches of other types of minerals for example, Dolomite, Lime stone, Calcareous sand stone, sand.
Classification of Durability of Rocks in Dry and wet condition with durability testEngineering and physical properties of rocksGeological technical properties of rocks used as building stones, as a decorated stones and as a industrial rocks such as color, luster, streak, specific gravity, water absorption and unit weight etc.
Brief Introduction to structural Geology:
19 of 107
Plate Tectonics with respect to the global application, earthquakes, causes of earthquakes, protective measures against earthquakes and zoning of earth quakes in Pakistan
Role of geology in selection of sites for dams, reservoirs, tunnels and other civil engineering structures
Brief introduction of local geology
20 of 107
Department of Civil Engineering,N-W.F.P University of Engineering and Technology, Peshawar
Semester-3
21 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-201Serial No.: ________________
Course Title: Mechanics of Solids-II Type: Theory Credit Hours 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
1. Analysis of stresses and strains at a point due to combined effect of axial force, shear force and
bending moment
2. Mohr’s circle for stresses and strains
3. Relationship between elastic constants
4. Theories of Failure
5. Unsymmetrical Bending
6. Shear Stresses in mono-symmetric beams
7. Shear stress distribution in unsymmetrical beams
8. Shear flow, shear center, concentration of stresses
9. Thick and thin walled cylinders
10. Analysis of curved beams and beams on elastic foundation
11. Short eccentrically loaded columns
12. Core of a section
13. Rankine Gordon formula for intermediate columns, slenderness ratio
14. Eccentrically Loaded Columns
15. Inelastic behavior of beams in flexure
16. Shape factor of a section.
Books recommended:
1. Strength of Materials by Andrew Pytel and Ferdinand L. Singer
2. Mechanics of Materials by E.P. PopovNWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
22 of 107
Course No.: CE-202Serial No.: ________________
Course Title: Construction Engineering & Graphics
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Construction Engineering.
Building Construction:Site Selection for a building, Orientation and Setting out for construction
Layout Techniques:Layout Techniques with special reference to buildings. Excavation in different types of soils
Masonry construction Types of stone and brick masonry; bonds in brick masonry, Alignments, Plumbs, leveling & cambering.
Form workForm work for general in-situ construction, props, bracing and horizontal shuttering platforms.
Damp proofing in building, Interior and exterior surface finishes
Various types of floors & roofing systems, planner & non-planer roofing system, roof treatments.
Expansion joints and construction joints
Wood work in building construction
Other Engineering Projects.An over view of construction aspects of different types of engineering projects, e.g. buildings, retaining structures, bridges
Construction specification
Common defects in building construction their causes and remedial measures
23 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-202Serial No.: ________________
Course Title: Construction Engineering & Graphics
Type: Lab Contact Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Graphics
Architectural Drawings, Structural Drawings, Plumbing and Electrical Work.
Computer Aided Drawing (AutoCAD) General and basic know how related to computer aided drafting, e.g., coordinate system, drawing setup procedure, basic draw commands, basic edit commands; Layers, creating test and defining styles options, block and drawing import/export options; Cross hatching, save and plot (2D) and isometric drawings. Use of Auto CAD in drawing plans, elevation and section of single and double-storey buildings
24 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-203 Serial No.: ________________
Course Title: Structural Analysis-I
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective for Session: _____________________ Effective To: ___________________
INTRODUCTION TO STRUCTURAL ANALYSIS: Definition of structure, types of structures: pin jointed and rigid jointed. Types of structural members.
Types of beams, supports and loads. Stability of structures. Redundancy. Determinate and indeterminate structures, Degree of indeterminacy. Sign conventions for bending moment and shear force etc.
ANALYSIS OF STATICALLY DETERMINATE RIGID JOINTED PLANE FRAMES: Definition. Analysis of determinate frames.
ANALYSIS OF DETERMINATE PLANE TRUSSES: Definition and common types of trusses. Classification of co-planar trusses. Methods of analysis of
trusses; Method of joints, Method of sections, Graphical method.
ROTATIONS AND DEFLECTIONS: Deflection diagrams and elastic curves. Castigiano’s theorem for trusses beams and frames. Unit load
method. Theorem of virtual work for trusses beams and frames.
ARCHES: Definition. Linear arch. Eddy’s theorem. Three hinged parabolic and circular arch. Bending Moment
and shear force diagrams. Influence lines for shear, thrust and moment.
INFLUENCE LINES: Definition. Influence lines for statically determinate beams and paneled girders. Influence lines for reaction, shear and bending moment of statically determinate beams and paneled
girders. Influence lines for axial forces in trusses. Influence lines for composite structures.
TRAVELLING LOADS: Maximum bending moment and shear force at any section. Criterion for maximum moment and shear. Absolute maximum bending moment.
CABLES AND SUSPENSION BRIDGES: Cables. Stiffened suspension bridges with three hinged stiffening girders. Shear force and bending moment diagrams.
25 of 107
THREE MOMENT EQUATION: Derivation of 3-moment equation. Application of 3-moment equation to the analysis of indeterminate
beams.
RECOMMENDED BOOKS Wang, C.K. Intermediate Structural Analysis, McGraw Hill West, H.H. Analysis of Structures, John Wiley & Sons. Hibbeler, R.C. Structural Analysis, Prentice Hall.
26 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-203 Serial No.: ________________
Course Title: Structural Analysis-I
Type: Lab Contact Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Demonstration of various types of structures and supports. Demonstrate the stability of structures using model structures. Determination of the horizontal thrust and maximum bending moment in a three hinged parabolic
arches. Determination of the horizontal thrust and maximum bending moment in a two hinged parabolic
arches. Determination of the deflections and rotations in overhanging beams. Demonstration of influence line Investigation of the buckling struts Determination of shear center
27 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-204Serial No.: ________________
Course Title: Introduction to Town Planning & Architecture
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
ArchitectureHistorical DevelopmentGeneral introduction to history of architecture; Emergence/Development of Islamic Architechure.
InfluencesGeographical, climatic, religious, social, historical.
PrinciplesTruth or purpose & beauty.
QualitiesStrength, vitality, grace, breadth and scale.
FactorsProportion, color and balance.
Use of MaterialsStone, wood, metals, concrete, composites, ceramics.
General Treatment to Plan of BuildingsWalls and their construction; Openings and their position, character and shape; Roofs and their development and employment; Columns and their position, form and decoration; Molding and their form decoration, Ornament as applied to any buildings.
Town PlanningDefinitionsTrends in urban growth; Objectives of town planning; Modern planning in Pakistan and abroad.
Preliminary StudiesStudy of natural resources, economic resources, legal and administrative problems, civic surveys and preparation of relevant maps.
28 of 107
Land Use PatternsVarious theories of land use pattern. Location of Parks and recreation facilities, public and semi-public buildings, civic centers, commercial centers, local shopping centers, public schools, industry & residential areas.
Street PatternsLay out of street, road crossing & lighting; Community planning
City ExtensionsSub Urban development, Neighborhood Units, Satellite Town and Garden City
Urban PlanningIssues related to inner city urban design and emergence/up gradation of squatter settlements.Introduction to Urban & Regional Planning using GIS
Books RecommendedBroddbent, G. J.C. Anthony, Emerging Concept in Urban Space Design, VanNostrand Reinhold Co. Ltd.Snyter, J.C. Introduction to Urban Planning, Milwaukee McGraw Hill Book Co. Fletcher, S.B. A History of Architecture. The Athlone Press.
29 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: ME-210Serial No.: ________________
Course Title: Mechanical Technology
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Basics of Thermodynamics: Thermodynamic systems, Laws of thermodynamics, Laws of perfect gases Energy equation Internal Energy, Enthalpy and entropy of the working fluids
Prime Movers: Internal combustion engines: type, working principle, cycle operation and performance, Steam Engines Steam Turbines Air-compressors
Air-Conditioning: Introduction to Air-conditioning and refrigeration. Heating and cooling load and its calculations,
comfort chart, outline of AC systems
30 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: ME-210Serial No.: ________________
Course Title: Mechanical Technology
Type: Lab Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Practical # 1: To study the different components of petrol engine.
Practical # 2: To study the cooling system of automobile engine.
Practical # 3: To study the lubrication system of automobile engine.
Practical # 4: To study the ignition system of automobile engine.
Practical # 5: To study the fuel system of automobile engine.
Practical # 6: To study the air-intake system of automobile engine.
Practical # 7: To study the 2-Stroke Reciprocating Engine.
Practical # 8: To study the vapor compression system.
Practical # 9: To study different components of refrigeration and air-conditioning system.
Practical # 10: The layout of boiler room.
Practical # 11: To study the boiler of the steam engine power plant.
Practical # 12: To study the steam Engine of the steam engine power plant.
Practical # 13: To study the turbine of the steam engine power plant.
Practical # 14: To study the condenser of steam engine power plant.
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
31 of 107
Course No.: BSI-206Serial No.: ________________
Course Title: Differential Equations Type: Theory Credit Hours 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Ordinary Differential Equations: Basic concepts of ordinary differential equation, General and particular solutions, Initial and boundary conditions, Linear and nonlinear differential equations, Solution of first order differential equation by separable variables and its applications in our daily life situations, The techniques like change of variable, homogeneous, non-homogeneous, exact, non-exact, linear and nonlinear Bernoulli could be used in case of complications. Solution of second order differential equation by theory of operators and its applications as forced and free oscillations, The extension of second order solution criteria to higher order differential equations, Solution of the system of differential equations by theory of operators and its applications in our daily life situations.
Partial Differential Equations: Basic concepts, Linear and nonlinear p.d.equations, Quasi linear and Quasi nonlinear p.d.equations, Homogeneous and non-homogeneous p.d.equations, Solutions of p.d.equations, Boundary and initial conditions as Dirichlet condition, Neumann condition, Robbins/Mixed condition, Classification of p.d.equations as Elliptic, Parabolic and Hyperbolic.Analytic solution by separation of variables of the Steady-State Two-Dimensional Heat equation/Laplace equation and Unsteady-State One-Dimensional Heat equation/Diffusion equation with homogeneous and nonhomogeneous boundary conditions. D'Alembert's solution of Two-Dimensional Wave equation with homogeneous and nonhomogeneous boundary conditions.
Fourier Series: Periodic waveforms and their fourier representations, Calculating a fourier series, Fourier series of odd and even functions, Half range fourier series, Fourier series solution for the above p.d.equations.
Books Recommended Kreyszig, E.Advanced Engineering Mathematics, Wayne and Erson. Abell & Braselton, Brooks /Cole, Modern Differential Equations, Second edition
32 of 107
Department of Civil Engineering,N-W.F.P University of Engineering and Technology, Peshawar
Semester-4
33 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-205 Serial No.: ________________
Course Title: Fluid Mechanics
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective for Session: _____________________ Effective To: ___________________
Introduction:Introduction to fluid Mechanics & its classification.History of fluid Mechanics Application of Fluid mechanics in Civil Engineering.Distinction between solids and fluids.
Physical Properties of Fluids:Density, Specific weight, Specific Volume, Specific gravity, Viscosity.Newton’s Law of viscosity. Surface tension. Compressibility of fluids.
Fluid Statics:Static pressure, Pressure height relationship, absolute and gauge pressure,Measurement of Pressure, Barometer, Bourdon gauge, Pizometer tube, simple and differential manometer, Basic principal of various pressure measuring instruments.Forces on submerged plane and curved bodies. Buoyancy and Stability of submerged and floating bodies.
Fluid Kinematics:Basics Concept about steady and unsteady flow, Laminar and Turbulent flow, Path lines, stream line, stream tube, uniform and non uniform flow.
Basic Equations:Continuity Equation, Energy Equation and Momentum Equation.Application of Energy Equation and Continuity Equation to incompressible fluids.
Fluid Measurement:Venturimeter, Orifices, Mouth pieces and Nozzles, pitot tube, Weirs and Notches.
Flow through Pipes:Laminar Flow through pipes, Darcy’s Weisbach equation for flow through pipes,Hydraulic and Energy gradient lines, Losses in Pipe lines. Transmission of Energy through Pipes
34 of 107
Flow through Open Channel:Uniform flow through open channels. Chezy’s and Manning’s formula for uniform Flow through open channels. Most efficient cross section of open channel.
Recommended Books Robert L.Daughetn, Joseph B. Franzini, Fluid Mechanics with Engineering applications E.H.Lewitt, Hydraulics and Fluid Mechanics
35 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-205 Serial No.: ________________
Course Title: Fluid Mechanics
Type: lab Contact Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective for Session: _____________________ Effective To: ___________________
Demonstration of various parts of Hydraulic Bench. Experimental Study of laminar and turbulent Flow. Experimental Study of tube gauges and Dead weight pressure gauges. Calibration of Orifices by Various Methods. Calibration of venturimeter. Calibration of Rectangular and Triangular Notch. Verification of Bernoulli’s theorem. Determination of Metacentric height. Study of Various losses through Piping arrangements.
36 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-206 Serial No.: ________________
Course Title: Surveying-I
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective for Session: _____________________ Effective To: ___________________
IntroductionSurveying instruments; chains, tapes, steel bands, their types & uses.
Chain SurveyingRanging & Chaining of Survey lines. Field work & Plotting of Chain survey
Compass SurveyingPrismatic Compass& Surveyor compassUses, Bearings, Local attraction, Fieldwork & Plotting.
Plane Table SurveyingParts and accessories. Methods of surveying. Two-point and three-pointproblems.
LevelingGeneral principle. Types of levels and their temporary and permanentadjustments. Methods of levelling. Reduction of levels, Preciselevelling and Trigonometric Leveling.
Theodolite. Types and uses of theodolites. Temporary andpermanent adjustments. Measurement of horizontal and verticalangles.
Tacheometrical surveyingMethods of tacheometrical surveying. Field work and computations.
TraversingTraversing with prismatic compass, theodolite and plane table, computationsand adjustments of traverse, transformation of Co-ordinates
37 of 107
Omitted Measurements
Calculation of Areas and VolumesEarthwork calculations. D.M.D. method, Simpson rule and trapezoidal rule..Books Recommended
Kavanash,B. Surveying principles and Application, Prentice Hall Irvine, W. Surveying for Construction, McGraw Hill. Davis, R.E. Surveying Theory and Practice, McGraw Hill.
38 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-206 Serial No.: ________________
Course Title: Surveying-I
Type: Lab Contact Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective for Session: _____________________ Effective To: ___________________
Practice on measurement of distances and introduction to measuring instruments Chain Surveying and plotting Compass Traversing Plane Table by methods of radiations and Intersections Two Points Problem Three Points Problem Level adjustments by two-peg method. Profile and Cross-Sectioning Theodolite traversing.
39 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-207 Serial No.: _________________
Course Title: Engineering Economics
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Basic Concepts Introduction to Engineering Economics Time Value of Money Different Methods of Analysis (Present Worth Analysis, Annual Worth Analysis etc.) Concept of Internal Rate of Return & Its use in Engineering Projects Various Types of Costs (Maintenance, Repair, Other Overhead Costs etc. ) & Benefits & Its Use
in Engineering Projects Economical Life of Construction Equipment Inflation Depreciation & Its Types Cost Escalation Introduction to Break Even Analysis & Its Application to Engineering Project Sensitivity Analysis Demand and Supply Analysis Theory of Pricing & Theory of Production and Laws of Return Funding, Funding Agencies and Planning Commission Types of Business Organizations Labor problems, Labor Organization, Prevention and Settlement of Disputes
Recommended Books:1. Donald G. Newman2. E.Peul Degarmo
40 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-208 Serial No.: ________________
Course Title: Structural Analysis-II
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Method of Consistent Deformation:Analysis of statically indeterminate beams, frames and trusses. Castigliano's second theorem (Method of least work).
Slope Deflection MethodDerivation of equation, Analysis of continuous beams and portal frames without joint movement. Analysis of continuous beams and portal frames due to yielding of supports. Analysis of portal frames with joint movement. Analysis of closed frames and multistory portal frames.
Moment Distribution MethodConcept, Distribution and carry over factors, Analysis of continuous beams and portal frames without joint movement. Analysis of continuous beams and portal frames due to yielding of supports. Analysis of continuous beams and portal frames with joint movement. Analysis of multistory portal frames.
Plastic AnalysisElastic versus Plastic Analysis in Steel Design, Upper & Lower Bound Theorems, Statical Moment & Mechanism Methods. Design of Beams, Propped Cantilever, Fixed ended & Continuous beams & frames, Design ExamplesAnalysis of ArchesAnalysis of two hinged circular and parabolic arches with supports at different levels.Influence Lines for Indeterminate BeamsUse of Clark Maxwell and Betti’s Theorm, Law of Reciprocal Deflections, Influence lines for moment and reactions in proposed cantilevers. Influence lines for support reaction of two and three span continuous beams. Influence lines for Shear Force and Bending Moment at any section of the beam.
Books Recommended1. Wang, C.K. Intermediate Structural Analysis, McGraw Hill.2. West, H.H. Analysis of Structures, John Wiley 7 Sons.3. Hibbeler, R.C. Structural Analysis, Prentice Hall.
41 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-209Serial No.: ________________
Course Title: Soil Mechanics-I
Type: Theory Credit t Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Soil FormationSoil and its constituents, weathering of rocks and types of soils. Description and Identification of soil (Visual-Manual Procedure), Mineralogy of soil solids.
Physical PropertiesWater content, void ratio, porosity, degree of saturation, specific gravity, unit Weight and their determination, Atterberg limits, sieve analysis, hydrometer and Pipette analysis, Stoke’s law, grain size distribution.
Soil Classification, Grain size classification, Bureau of soils,. M.I.T., Unified, AASHTO and ASTM Classification systems. Textural Classification by triangular chart, united soil classification system, AASHTO soil classifications.
Permeability and SeepageDefinition, Hydraulic gradient, Darcy's Law, Factors affecting permeability, Permeability of stratified soils, Laboratory and field determination of coefficient of permeability.Seepage force, quick sand condition, flow nets, boundary conditions, graphical method of flow net construction, determination of quantity of seepage, two dimensional flow, Laplace Equation, seepage through earth dams, design of filters
CompactionDefinition, Compaction fundamentals, Moisture density relationships,Standard Proctor test and modified AASHO test for compaction, Factors affecting compaction, Compaction equipment, properties and structure of compacted soils, Specifications, field control and measurement of in-situ density, CBR test.
Vertical stresses in soilsDefinition, stresses caused by self weight of soil, Geostatic stresses, stresses caused by point loads and uniformly distributed loads: Boussinesq and Westerqaard theories, Pressure bulb, stress distribution diagram on horizontal and vertical planes; stress at a point outside loaded area, Newmark’s charts and 2:1 Method
42 of 107
Soil ExplorationImportance of soil exploration, soil exploration methods; probing, test trenches and pits, auger boring, wash boring, rotary drilling, Percussion drilling and geophysical methods, soil samples, Disturbed and undisturbed samples, In-situ tests (SPT, CPT and PLT)
Introduction of related Software
Books Recommended An Introductoin to Mechanics of Soils and Foundation by “John Atkinson” Soil Mechanics by R.F.Craig Principles of Geotechnical Engineering by Braja M. Das.
43 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-209Serial No.: ________________
Course Title: Soil Mechanics-I
Type: Lab Contact Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Identification of Soil (Visual Manual Procedure) Determination of Moisture content of soil Determination of specific gravity of soil Determination of liquid limit of soil Grain-size analysis of soil (including both mechanical and hydrometer analysis) Determination of Plastic limit and Plasticity Index of soil Determination of shrinkage limit of soil Classification of soil according to AASHTO and USCS Modified/Proctor Compaction Test Constant Head Permeability test (Granular Soil) Falling Head Permeability (Granular and Fine grained soils)
44 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: BSI-208Serial No.: ________________
Course Title: Numerical Analysis
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Interpolation and extrapolation; Finite differences, forward, backward and central differences and its operators form, Linear and higher order interpolating polynomials, Newton's Gregory forward & backward difference interpolation formulas and its utilization as extrapolation, Lagrange’s interpolation, Numerical differentiation based on differences,
Numerical integration; Trapezoidal and Simpson's approximations, Romberg integration process,
Numerical Solution of non-linear equations; Bracketing and iteration methods and its applications as multiple root methods,
Direct solution of the system of linear equations; Gauss-elimination, Direct and indirect factorization, symmetric factorization, tri-diagonal factorization, Iterative methods like Jacobi's iteration and Gauss-Seidel iteration,
Numerical solution of initial value problems; Single-Step methods and its comparison with Taylor's series expansion, Multi-Step methods, Higher order differential equations, System of differential equations,
Numerical solution of linear and nonlinear boundary value problems.
Book Recommended Prof. Mumtaz Khan, Numerical Methods for Engineering, Science and Mathematics, 2nd Edition Prof. Mumtaz Khan, Ordinary & Partial Differential Equations With Numerical
Techniques for Engineering, Science and Mathematics, 2nd-edition Schaun’s series, Numerical Analysis. McGraw Hill.
45 of 107
Department of Civil Engineering,N-W.F.P University of Engineering and Technology, Peshawar
Semester-5
46 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-301Serial No.: ________________
Course Title: Structural Analysis-III
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Flexibility Methods at Level-IBasic Concept, Development of Mathematical Models of Flexibility method, Analysis of statically indeterminate beams, frames & trusses using flexibility methods.
Stiffness Methods at Level-IBasic Concept, Development of Mathematical Models of Stiffness method, Analysis of statically indeterminate beams, frames & trusses using Stiffness methods.
Introduction to Finite Element Method
Basic concepts of structural dynamicsTypes of time varying loads, Equations of motion, free vibration and forced vibration, single degree & multi degree freedom of structures, generalized mass approach. Earthquake Forces on Structures.
Books RecommendedHibbler, R.C. Structural Analysis, Prentice Hall
47 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-302Serial No.: ________________
Course Title: Soil Mechanics-II
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Shear Strength of Soil:Definition, peak, Ultimate, and residual shear strength, analysis of stress using Mohr circle, Pole method of finding stress along a plane, Mohr-Coulomb failure criterion and shear strength parameters, Direct shear test, tri-axial compression test, unconfined compression test, vane shear test, Mohr’s envelopes for different types of soils under different test conditions stress path, critical state conceptConsolidation SettlementDefinition of effective stress, total stress, and pore water pressure and their relationship, response of effective pressure with change in total stress, definition of 1-D consolidation, consolidation analogy wrt spring system, consolidation test, definition of pre-consolidation pressure, normally consolidated clay, over-consolidated clay, under consolidated clay.
Lateral Earth PressureActive, Passive earth pressure and at-rest earth pressures, Rankine’s theory, Coulomb theory and Culmann method for determining lateral earth pressure, Coulomb’s and Rankine’s theories. Lateral earth pressure due to surcharge load, effect of water table on earth pressure, sloping ground, Culman’s method, types of retaining structures, failure criteria of earth retaining structures, stability analysis of earth retaining structures
Stably of slopesBasic Definition, types of failure, analysis of plane transnational slip, finite slope with circularly cylindrical failure surface, modes of cylindrical failure, untrained/total stress analysis.
Earth DamsTypes of earthen dams, components and their functions. Stability of earth dam, steady seepage, and rapid draw down design, consideration s and typical cross-section. Method of seepage control.Introduction to Geotechnical Software package
Reference for Laboratory Work: Soil Properties, Testing, Measurement, and Evaluation by Cheng Liu, and Jack B. Evett
Relevant ASTM Standards
48 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-303Serial No.: ________________
Course Title: Hydraulics
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Steady Flow through Pipes:Reynolds Number and its significance, instability of viscous flow, turbulent flow through pipes, velocity profile in turbulent flow, pipe roughness, Nickurade’s experiments, Moody diagram, branching of pipes in series and parallel.
Elementary Hydrodynamics:Ideal and real fluids, differential equation of continuity, rotational and irrotational flow, stream function and velocity potential function. Circulation and vorticity, brief description of flow fields, flow net and its limitations
Forces on Immersed bodies:Development of boundary layer on immersed bodies, elementary theory of friction drag and pressure drag, simple lift and drag equations and their application to engineering problems, separation of boundary layer.
Unsteady Flow:Flow through pipes and orifices and over weirs under varying heads, water hammer and its elementary analysis.
Hydraulics Machinery:Impulse momentum equation, forces on moving flat and curved vanes, impulse and reaction turbines, specific speed, characteristics curves, cavitations and draft tube, governing of turbines, turbine efficiencies. Centrifugal pumps, classification, specific speed, characteristic curves and cavitations.
Books Recommendeda. Fluid Mechanics with Engineering Applications, 8th Edition, by Robert L. Daugherty, Joseph B. Franzini, and E. John Finnemore
b. Fundamentals of Fluid mechanics by Bruce R. Munson, Donald F. Young, and Theodore H. Okiishi
49 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-303Serial No.: ________________
Course Title: Hydraulics
Type: Lab Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Reynolds number experiment
Forces on submerged bodies
Flow through orifice
Flow through weirs (V. notch, rectangular weir)
Efficiency of pelton wheel
Efficiency of single stage centrifugal pump
Impacts of jet on various blades
To investigate the variation of friction head along a circular pipe with the mean flow
velocity in the pipe
50 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-304Serial No.: ________________
Course Title: Surveying-II
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
THEODOLITE TRAVERSINGMethod of Running Traverses with TheodoliteTraverse computationsTransformation of Co-ordinates Omitted Measurements
SETTING OUT WORKSComputations and setting out Method for:Simple Circular CurvesCompound CurvesReverse curvesTransition curves Vertical curves
GEODETIC SURVEYING
(a)TriangulationClassification of triangulation systemsIndivisibility of triangulation systemsBase Line Measurement Correction to Measured lengthMeasurement of Horizontal AngleSatellite Stations
(b) Precise Traversing Methods of Running Traverses
TRIGNOMETRIC LEVELING Theory and Object of Trigonometric Leveling ComputationsCONTOURINGMethod of contouring Characteristics of Contour lines
51 of 107
Interpolation Plotting of Contour Maps
HYDROGRAPHICAL SURVEYING Object of hydrographical surveying Horizontal & Vertical ControlShore line SurveysSounding Methods of Sounding
TUNNELIING Surface Alignment Setting out from EndsTransferring Alignment Under groundTransferring levels under ground Under Ground Bench Marks
PHOTOGRAMMETRY Elements and uses of terrestrial Photogrametory
ASTRONOMY Definition of various Astronomical Terms Co-ordinate SystemsLocal and standard timeMethods of Determining Azimuth Longitude and Latitude by solar observations
Books Recommended Kavanash,B. Surveying principles and Application, Prentice Hall Irvine, W. Surveying for Construction, McGraw Hill. Davis, R.E. Surveying Theory and Practice, McGraw Hill.
52 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-304Serial No.: ________________
Course Title: Surveying-II
Type: Lab Conctact Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Study and Use of advanced surveying equipment Trignometrical Leveling Contouring Simple Curve Compound Curve Transition Curve
53 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-305Serial No.: ________________
Course Title: Introduction to Construction Machinery
Type: Lab Contact Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Construction Machinery: Roads
Dumper (Dumping Truck), Excavator (Backhoe), Different type of Roller; sheep foot roller, pneumatic roller, static roller Dredger Loader (shovel) Road marking Machine Paver Finisher Grader Pre-stressing Jack Water truck/tanker Trenching Machine
Buildings Concrete mixer, Concrete pump, Concrete conveying truck, External/Internal surface vibrator Concrete Mixing & Batching Plant, Tower crane, Crane, Forklift, Bob cut, Stone crushing Plant Core Cutting Machine Asphalt/Concrete Cutter Truck Mounted Crane Manual operated Rammers Vibratory Plate compactor
Recommended Books:Construction Planning, Equipment, and Methods by Peurfoy/Schexvatdor
54 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: BSI-309Serial No.: ________________
Course Title: Probability & Statistics
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Probability: Sets, Applications of Venn Diagrams, Introducing probability, Mutually exclusive events, The addition law of probability, Complementary events, Concepts from communication theory, Problems related to engineering, Conditional probability, The multiplication law, Independent events, Baye's formula, Permutations and combinations, Multiplication principle, Problems related to engineering, science and management, Applications of counting, Bernoulli trials, Binomial probability, Markov chains, Probability distribution, Expected value, Decision making, Problems related to engineering and management.
Statistics: Mean value, Measures of central tendency, Measures of variation, Standard deviation, Expected value of a random variable, Standard deviation of a random variable, The poisson distribution, The uniform distribution, The exponential distribution, The normal distribution, The standard normal, The unstandard normal.
Books Recommended Blind, D.A. & R.D. Mason, Basic Statistics for Business & Economics, Irwin Publishers Erwin Kreyszig, Advanced Engineering Mathematics, 8th Edition, John Wiley & Sons Publication
55 of 107
Department of Civil Engineering,N-W.F.P University of Engineering and Technology, Peshawar
Semester-6
56 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-306Serial No.: ________________
Course Title: Hydraulics and Software Applications
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Non Uniform Flow in Open Channels:Specific energy and critical depth, dynamic equation of gradually varied flow, surface profile, humps and constrictions, abruptly varied flow cases, hydraulic jump, flow measurement in open channels, broad crested weirs, venture flumes & critical depth flumes.
Sediment Transport in Open Channels:Properties of individual particles, fall velocity, movement of bed and suspended load, collection and analysis of field data.
Hydraulic Similitude and Dimensional Analysis:Similarity Laws, various dimensionless numbers and their significance, model analysis and scale ratio, Rayleigh’s method and Buckingham pie-theorem of dimensional analysis.
Computer Applications:Modeling Concepts, Common Hydraulics Models, Applying Models, Advantages of Computer Models, Introduction to HEC-RAS modeling, small project using hydraulic soft wares
Books Recommended: Fluid Mechanics with Engineering Applications, 8th Edition, by Robert L. Daugherty, Joseph B.
Franzini, and E. John Finnemore HEC-RAS Software Manual
57 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-306Serial No.: ________________
Course Title: Hydraulics and Software Applications
Type: Lab Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Find coefficient of discharge for Board Crested Weir
Find coefficient of discharge for critical depth venturi meter
Find loss of energy through hydraulic jump
To plot the specific energy diagram for a constant flow through hydraulic jump
Determine the coefficient of discharge for partial flume
Case studies-computer models
58 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-307Serial No.: ________________
Course Title: Geo-Tech & Foundation Engineering
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
FOUNDATIONSDefinition, purpose and types, General requirements of foundations, Selection of foundation type
BEARING CAPACITY OF SHALLOW FOUNDATIONDefinition, Types of bearing capacities, modes of shear failures, Factors effecting bearing capacity, Sources of obtaining bearing capacity, Presumptive values, Terzaghi's and Meyerhof’s theories of bearing capacity, effect of load eccentricity on bearing capacity, Skempton’s equation for foundation on saturated sills and clays, Effect of Water table on bearing capacity , Plate load test, standard penetration test, and cone penetration test
FOUNDATION SETTLEMENTDefinition, types, components, causes and remedial measures; Immediate/elastic settlement, consolidation settlements, secondary settlements, proportioning footings for equal consolidation settlement, reliability of settlement computations, structures on fills, structural tolerance to settlement and differential settlements
FACTORS TO BE CONSIDERED IN FOUNDATION DESIGN Footing depth and spacing, displaced soil effects, Net Versus gross pressure (design soil pressure), erosion problem for structures adjacent to flowing water, water table fluctuation, foundations in sand and silt deposits, foundations on loess and other collapsible soils, foundations on unsaturated soils subject to volume change with change in water content, foundations on clays and clayey silts, foundation on residual soils, Geotechnical aspects of isolated, combined and strip footing design. Geotechnical aspects of raft foundation design
DEEP FOUNDATIONSTypes of pile foundations, Methods of constructing pile foundations, methods of load capacity of piles, types of hammers, dynamic load formulas, Static capacity of single bored/driven piles, negative skin friction, pile load test, efficiency of pile groups of driven/bored piles in cohesionless/cohesive soils, group capacity of piles, settlement of single and group piles,
SPECIAL TOPICSSoil improvement, dewatering of foundation, introduction to soil dynamics
59 of 107
INTRODUCTION TO SOFTWARE
Book Recommended Foundation Analysis and Design by Joseph E. Bowels (5th edition) Principles of Foundation Engineering by Braja M. Das
60 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-307Serial No.: ________________
Course Title: Geo-Tech & Foundation Engineering
Type: Lab Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Direct shear test Unconfined compression test Tri-axial compression test Vane shear test Consolidation test Standard penetration test Cone penetration Plate load test
61 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-308 Serial No.:_________________
Course Title: Civil Engineering Practice & Technical Report Writing
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Part – A: Civil Engineering PracticeScope of Civil Engineering Works, Measurement & Cost Estimation, Introduction to measurement & Cost Estimates, Rough Cost Estimates & Detailed Cost Estimates and use of Drawings, Preparation of Bill of Quantities & Engineers’ Estimate, Schedule of Rates & Its use in Various Government Departments, Measurement & Costing of Excavation, Retaining Walls, Beams, Concrete Piles & Roads, Measurement Books
Preparation & Interpretation of Specifications for various Civil Engineering Works, Rate & Cost Analysis for Construction Materials, Introduction to Various Types of Civil Engineering Contracts, Tendering Process for Various Engineering Contracts, Proposal Evaluation & Bid Evaluation, Contract Evaluation, Introduction to Claims, Escalation, Indexation, Arbitration and Litigation, Introduction to Software/spreadsheets used for Calculation of Quantities & Cost Estimations
Books:
Part – B: Technical Report WritingImportance of Technical Report Writing & Documentation, Qualities of Good Report, Main Parts of Technical Reports & their Functions, Introduction to various types of Technical Reports used in Civil Engineering (Technical Proposals, Financial Proposals, Progress Reports, Evaluation Reports etc.), Writing Business Letters, Writing Memos, Writing Notices, Writing Minutes, Writing and presenting Conference papers, Preparation of Resume (CV), Introduction to Software/Word processors used for Technical Report Writing
Books Recommended Pauley / Priordan, Technical Report Writing B.W Dutta, Civil Engineering Practice
62 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-308 Serial No.:______________
Course Title: Civil Engineering Practice & Technical Report Writing
Type: Lab Contact Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Part – A: Civil Engineering PracticeUsing spreadsheets for Measurement calculations & Cost Estimation, Preparing Detailed Cost Estimates in spreadsheet, Using CAD software for Drawings in cost estimation, Preparing sample Bar Bending schedules in CAD software, Preparation of Bill of Quantities & Engineers’ Estimate in spreadsheets, using spreadsheet for Measurement & Costing of Excavation, Retaining Walls, Beams, Concrete Piles & Roads
Using word processors for preparation of sample Specifications for various Civil Engineering Works, Rate & Cost Analysis for Construction Materials in spreadsheets, Writing/editing sample contracts
Part – B: Technical Report WritingPreparing sample technical proposal in word processor, Writing sample Technical Reports using word processor, Using word processor for writing cover letters, job applications, CVs, Writing sample Technical Proposals, Progress Reports, Evaluation Reports in word processor, Writing sample Business Letters in word processor, Writing Memos, Notices, and Minutes in word processor, preparing presentations using software (presentation of technical & financial proposals, project & progress presentation )
63 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-309 Serial No.: --------------------------
Course Title: Reinforced Concrete Design
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Reinforced Concrete Design Basic Principles of reinforced concrete design and associated assumptions; Behavior of Reinforced concrete members in flexure: Design philosophy, design codes, limit states, factor of safety and load factors Comparison of Working stress and Ultimate Strength Design Method
Ultimate Strength Methods Analysis and Design of prismatic and non-prismatic sections in flexure, Analysis and Design of one-way and two-way solid slabs with general
discussion on other slab systems Shear Stresses in reinforced concrete sections; Design for diagonal
tension, Design and detailing for bond, anchorage, development length, laps and
splices Serviceability criteria and checks for deflection, crack width and crack
spacing; Design of short column, Single column footing.
Recommended Books George Winter, Design of Concrete Structures
64 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-310 Serial No.: --------------------------
Course Title: Concrete Technology
Type: Theory Contact Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Concrete Technology Constituent Materials of concrete & their properties, Types of Cement, Hydration, setting & hardening of cement, Additives & Admixture for concrete Types of Concrete & their properties, Durability of Concrete Batching, mixing, transportation & placing of concrete, Properties of fresh & hardened concrete and factors affecting them, Mix design Quality control and inspection, Cracks in concrete and repair of concrete
Book Recommended A.M. Nevile, J.J. Brooks, Concrete Technology
65 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-310 Serial No.: --------------------------
Course Title: Concrete Technology
Type: Lab Contact Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Test on Aggregate: Test for Organic Impurities in Sands for Concrete (As per ASTM C33-94); Test for Soundness of Aggregates (ASTM C88-94); Test for Specific Gravity and Absorption of Coarse Aggregate (ASTM C127-94); Potential Alkali Reactivity of Aggregates
Test on Concrete: Compressive Strength Cylindrical Concrete Specimens; Test for Pulse Velocity through Concrete (ASTM C597); Test for Rebound Number of Hardened Concrete (ASTM C805); Test for Flexural Strength of Concrete (ASTM C78), Split tensile strength of Cylindrical concrete specimens(ASTM C496)
Study of ASTM Specifications: Specification for Portland Cement (ASTM C150); Specification for Concrete Aggregate (ASTM 33); Specification for Chemical Admixture for Concrete (ASTM C494, 778; Specification for Rebars (ASTM 615, 616 and 617)
66 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-311 Serial No.: ________________
Course Title: Transportation Engineering – I
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
INTRODUCTION
Modes of transportation, Characteristics of drivers, vehicles and roadway, classification of flow
Traffic Volume StudyTravel demand characteristics, types of volume data, data collection techniques, small network volume studies, cardon volume studies, origin and destination volume studies
Speed studiesdefinition; travel time, average speed, spot speed, running speed, design speed, spot speed study; methods of measuring of spot speed, factors affecting the spot speed, presentation of spot speed data
Highway geometric designTypical cross-sections of roads in urban and rural areas; components of geometric design of cross section, carriageway, lane width, shoulders, median, cross slope, side slope, right of way, Kerb
Highway capacityTypes of traffic capacity, determination of maximum capacities, factors affecting capacities
Traffic control devicesCarriage way marking, traffic signs and signals, purposes of channalization, channelization devices, traffic islands
Parking studyParking survey, types of parking facilities
Traffic accidentObjectives of traffic accident studies, causes of accident, traffic accident studies, measures to prevent traffic accident
67 of 107
Railway EngineeringElements of track. Types of gauges; Types of rail sections. Rail joints Creep and wear of rail; Fish Plat, bearing plates and check rails; Types of sleepers, their merits and demerits. Sleeper density, spacing and stiffness of track.; Types of ballast. Requirements for a good ballast, Renewal of a ballast. Formation of single and double track Formation failures; Selection of site for a railway station. Layout of stations and yards; Modern methods for construction of tracks. Maintenance, tools and organization
Airport EngineeringType & elements of Airport planning, Factors affecting Airport Site Selection;Airport Classification; Airport Drainage Systems; Various RunwaysConfigurations
Recommended book: Traffic Engg by Shane, Rose & Prassas (prentice Hall Publishers)
68 of 107
Department of Civil Engineering,N-W.F.P University of Engineering and Technology, Peshawar
Semester-7
69 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-401 Serial No.: ________________
Course Title: Structural Engineering Software Application
Type: Lab Contact Hours: 04
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction to various utilities of finite element based software for analysis and designAnalysis and Design of Concrete StructureModel preparationPlane, space frame,Plane truss,Shell Element, Foundation
70 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-402Serial No.: ________________
Course Title: Environmental Engineering-I
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction to environmental engineeringWater QuantityPopulation Forecast; Water uses & consumption; Types and variations in demand; Maximum demand & fire demand.Rural Water SupplyAppropriate Technology.Water QualityWater impurities & their health significance; Water quality standards, (U.S. & WHO, etc); water quality monitoring.Water DistributionsLayout and design of water transmission works and distribution networks, service reservoirs, Fixtures and their installation; Tapping of water mains.Water TreatmentTreatment of surface & ground water, screening, sedimentation, coagulation, coagulants & dosages; Filtration, design aspects of slow sand and rapid sand filters; Filtration rates, operation head loss, backwash and filter efficiency; Pressure filters; Fluoridation, hardness removal; lron & Manganese removal; Water softening methods; Water disinfection and chemicals; Use of chlorine, quantity, dosage and efficiency; Emergency treatment methods.Water Sampling and TestingSampling techniques and examination of water (physical, chemical and microbiological parameters).Disease, Water borne, foodborne, milkborne and vectorborne diseases.PollutantsEffects and control of environmental pollution; Toxic/hazardous wastes.Introduction to Relevant Software packages
Books Recommended Mackenzie L. Davis, David A. Cornwell, McGraw-Hill, Introduction to Environmental
Engineering Terence J. McGhee, McGraw Hill, Water Supply and Sewerage, 6th edition.
71 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-402Serial No.: ________________
Course Title: Environmental Engineering-I
Type: Lab Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Water ParameterPhysical Parameters:
Total Solids
Suspended Solids
Dissolved Solids
Turbidity
Conductivity
Color
Chemical Parameter PH value
Total hardness
Total alkalinity
Chloride
Sulphate
Coagulation Jar test
Bacteriological test Total coli form
Fecal coli form
72 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-403Serial No.: ________________
Course Title: lrrigation Engineering
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction
Definition, Necessity of irrigation, Water resources and irrigation system of Pakistan. Indus Basin Treaty,
water budget of Pakistan.
Water requirement of crops
Functions of irrigation water, Preparation of land for Irrigation, Crop/Base period, Duty and Delta of crop,
Relationship between duty and delta, Factors on which duty depends, Depth and frequencies, of irrigation,
Kharif-Rabi ratio, Optimization of irrigation water, irrigation efficiency, Uniformity co-effiecient, consumptive
use of water, effective rain fall, Net irrigation requirements. Field irrigation requirement, Gross irrigation
requirement. Estimation of consumption use, Blaney criddle/Hargreaves methods, Assessment of irrigation
water charges.
Methods of Irrigation
Classification of irrigation methods, Factors affecting the choice of irrigation methods. Surface methods,
Sub-surface irrigation methods.
Well Irrigation
Well hydraulic, methods of drilling wells and well development, yield of open wells, types of strainers,
design of tube wells, pumping machinery, quality of ground water for irrigation
Water Logging and Salinity
Causes and effects of water logging, measures to control water logging; drains and tube wells, reclamation
of saline soils
73 of 107
Canal Irrigation System
Alluvial and Non alluvial Canals; Alignment of canal; Distribution system for canal irrigation, Basic
definitions, determination of required canal capacity, Canal losses, Evaporation, Seepage, Empirical
formula for channel losses, Channel section for minimum seepage loss.
Design of Irrigation Channel
Design of stable channel, Regime Channels, Kennedy’s theory, critical velocity ratio, Kutter’s formula,
Manning’s formula, Lacey’s theory, Design procedure for Lacey’s theory, Estimation of transported
sediment, bed load equations, Meyer-peter’s and Einstein’s formula, Muneer and Qureshi formula, Design
procedure for lined/non-errodable irrigation channel, Maintenance of irrigation channels.
Books recommended
Sharma, R.K. and T.R. Sharma, Irrigation and Drainage, Vol-I to V o Dr. S.K. Garg, Irrigation Engineering
74 of 107
N-W.F.P University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-404 Serial No.: ________________
Course Title: Transportation Engineering – II
Type: Theory Contact Hours:_03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction Terms related to highway engineering, classification of highways, highway location and surveys in rural areas, highway location and survey in urban areas
Design of highway alignment Horizontal curves, super elevation, vertical curves, transition curves, curves widening, sight distance requirements
Structural Design of PavementsTypes of pavement, wheel loads, load distribution, characteristics, different methods for design of flexible pavements. Introduction to design of rigid pavements.
Highway IntersectionsIntroduction, intersection conflicts, types of intersection
Highway DrainageImportance of highway drainage, types of highway drainage, requirements of good highway, drainage system
Highway MaintenanceIntroduction, types of failures or Distresses in flexible Pavement, types of maintenance (Pavement evaluation and rehabilitation)
Highway MaterialsDesirable properties of sub grade, sub base and base course material, index properties, strength characteristic, laboratory tests for its suitability
Books: Highway engineering by hews and Oglesby Highway engineering by Khanna The AASHTO green book
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
75 of 107
Course No.: CE-404 Serial No.: ________________
Course Title: Transportation Engineering – II
Type: Lab Contact Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Modified Compaction Test To determine density in place by sand core method Determination of California Bearing Ratio Aggregate crushing value test Determination of aggregate impact value Determination of Los Angeles Abrasion Value Determination of Penetration Value of Bitumen Determination of Viscosity of Bituminous Material Determination of Softening Point of Bituminous Material Determination of Ductility of Bituminous Material Determination of Flash point and Fire Point of Bituminous Material Determination of Bitumen content by centrifuge extractor Determination of stripping value of road aggregate Determination of Marshall stability value
76 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-405 Serial No.: ________________
Course Title: Design of Concrete Structures
Type: Theory Contact Hours:03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Structural, Design & Drawing Analysis and design Integrated problems such as Residential/Commercial/Industrial Buildings including effects of wind and earthquake, Analysis and design of Overhead Water Tank; Analysis and design of Waffle Slab; Analysis and design of Retaining Wall;
Bridge Engineering Types of bridge; components Design of deck for a simple R.C.C bridge
Pre-stressed Concrete Principle of pre-stressing, Properties of high strength material used in pre-stressing; Importance of high strength concrete and steel used in pre-stressing, Introduction to various pre-stressing methods
Recommended Books George Winter, Design of Concrete Structures
77 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-406 Serial No.: ________________
Course Title: Hydrology
Type: Theory Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction, hydrology definition, hydrologic cycle, importance of hydrologyPrecipitationTypes of precipitation, factor affecting precipitation, measurement of precipitation, interpolation of precipitation data, double mass analysis missing precipitation and its estimation, average depth of precipitation.
EvaporationFactors affecting evaporation, Direct and indirect evaporation, measurement, evapotranspiration, potential evapotranspiration
Stream flowWater stage and its measurements, selection of site for stage record and metering section, methods of measurement of stream flow, interpolation of stream flow data
Runoff:Factors affecting runoff, estimating the volume of storm runoff
Hydrographs:Hydrograph characteristics, components of hydrograph, separation of base flow, estimation the volume of direct runoff, introduction to unit hydrograph, introduction to stream flow routing.
Floods:Importance of floods studies, causes of floods, seasonal distribution, design of floods, estimating magnitude and frequency, empirical formulasGround Water Hydrology:Introduction to groundwater flow, sources of discharges of ground water. Introduction to hydrologic modelsBook Recommended
a. Introduction to Hydrology by warren Viessman, Jr. and Gary L. Lewis, 4th Editionb. Hydrology for Engineers by ray K. Linsley, Max A. Kohler, and Joseph L. Paulhus (Latest edition)
78 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-406 Serial No.: ________________
Course Title: Hydrology
Type: Lab Contact Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Watershed modeling using computer software for various soil groups
79 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-407 Serial No.: ________________
Course Title: Project
Type: Lab Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Project assigned by faculty members to undergraduate students
80 of 107
Department of Civil Engineering,N-W.F.P University of Engineering and Technology, Peshawar
Semester-8
81 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-408Serial No.: ________________
Course Title: Project Planning & Management
Type: Theory Credit Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
1. Introduction to Project Planning & Management2. Definition of Engineering Project3. Role of Engineer in Project Management4. Job Description of Project Manager5. Project Cycle6. Introduction to Network Techniques7. Project Appraisals applied to Irrigations Schemes, Roads, Dams and Bridges
Project Planning, Scheduling and Controlling by Deterministic Models1. Project Activities & Introduction to Activity Based Management (ABM)2. Bar Charts3. Critical path Method (CPM) & Developing a Critical Path Schedule4. Determining the Minimum Total Cost of a Project5. Manual Versus Computer Analysis of Critical Path Methods6. Preparing a Project Schedule7. Scheduling Resources, Delivering Materials, Scheduling manpower8. Financing the Project, Job Layout, 9. Project Control during Execution, 10. Keeping Equipment Records11. Project Supervision12. Project Cost Control & Cost Control Records
Project Planning, Scheduling and Controlling by Probabilistic Models1. Introduction to Project Evaluation & Review Technique (PERT)2. Statistical tools including Mean, Variance and Standard Deviation, Probability Distribution, Beta
curves and center limit
1. International quality Movement2. Quality Management in Pakistan3. Introduction to ISO 9000:2000 with respect to Project Planning and Management4. The Auditing Process
Use of computer software in Project Planning & Management
82 of 107
Book Recommended Harold Derzner, Project Management
83 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-408 Serial No.:________________
Course Title: Project Planning & Management
Type: Lab Contact Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction to Various Software Used for Project Planning & Management Introduction to Various Software Used for Measurement & Cost Estimation Comparisons of Manual Versus Computer Analysis of Project Planning & Management Creating Project Plans from Scratch Defining Resource Pools & allocation of Resources Scheduling Preparing & Analyzing the Networks Estimating Costs & Catharsis of Project from Various Angles Optimizing Resources Publishing Project Information Project Planning & Management in Distributed Environment Controlling & Rescheduling Preparing Bill of Quantities & Engineer’s Estimate of Various Items of Works Assigning Materials Resource to Project Activities from BOQ Two Case Studies of Civil Engineering Project
84 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-409Serial No.: ________________
Course Title: Environmental Engineering-II
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Environmental legislation and regulationEnvironmental Impact Assessment
Estimation of sewage quantitiesRainfall intensity formulas, hydrograph & weather flow, sewage quantities; Variations and rates of flows; Velocity gradient & limiting velocities.
Characteristics of SewageSampling and testing TechniquesSampling techniques and examination of waste water (Physical, chemical and microbiological parameters). Design, construction and maintenance of sewage system Separate & combined systems; Types, shapes, size and materials of sewers; Sewer appurtenances, pipe strengths and tests.Construction & maintenance of sewer system and analysis; Diameter and gradient, sewer joints, grading, laying, jointing and testing of sewers.Municipal and industrial wastes; Water pollution, causes and control parameter; Effluent disposal guideline and standards; Pakistan National Environmental Quality Standards (NEQS).
Sewage Treatment and DisposalPrimary, secondary & tertiary treatment; Screening grit chamber, skimming tanks & sedimentation tanks; Activated sludge treatment, tricking filters, oxidation ponds, etc.Receiving body, assimilation capacity; Stream pollution and self recovery, sludge handling & disposal; Effluent re-use, Control and management of industrial waste waters.
Requirements and arrangement of building drainageSoil pipes, anti-syphon pipes and waste water pipes; sanitary fixtures and traps; House connection and testing of house drainage; Cross connection and back syphonage control.
Solid waste managementTypes, characteristics, sources and quantities of solid waste; Collection disposal and recycling.
Introduction to relevant software package
85 of 107
Books Recommended Gerard Kiely, McGrawHill International Edition, 1997, Environmental Engineering Metcalf and Eddy, 3rd edition, McGrawHill, Waste Water Engineering
86 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-409Serial No.: ________________
Course Title: Environmental Engineering-II
Type: Lab Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Waste Water ParameterPhysical parameters
Total solids
Suspended solids
Chemical parameters Dissolved Oxygen
Biochemical Oxygen Demand
Chemical Oxygen Demand
Total Alkalinity
Chloride
87 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-410Serial No.: ________________
Course Title: GIS/RS application to Civil Engineering
Type: Lab Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Introduction to GIS/RS, what is GIS and its capabilities? Import data Manage data Query and analyze data Visualize data
Components of GIS/RS (Hardware and Software) Basic Types of Spatial Data Types of GIS Data and Function Data input of GIS (use of GPS, Digitizing, Remote Sensing (RS), and Aerial
Photography) Understanding geographic data, referencing spatial data, what to evaluate in data Attribute, Features, themes and layers Introducing ArcVIEW how ArcVIEW is organized, exploring ArcVIEW, Extension use
in ArcVIEW Getting data into ArcVIEW understanding data source adding themes to a view,
understanding theme table Managing scale, changing the scale of a view, setting scale thresholds for themes Selection, features in a view, getting information about view selection features based on
their attributes Displaying and editing tables, changing the table display, editing values and adding
fields, summarizing fields Joining and linking table, joining tables, linking tables and creating hot links
88 of 107
1. Concept of point, line and polygon
2. Output Sources of GIS (Digital landscape models, Digital Cartographic Model and
Topographic Maps)
3. Application of GIS/RS to Civil engineering
4. Project
Software’s recommended: ArcGIS 8.3, ArcVIEW 3.2, Erdas Imagine 8.5, and AutoCAD Map
2000
Recommended Books:
GIS/RS application to Civil Engineering
89 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-411Serial No.: ________________
Course Title: Steel Structures
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
STEEL STRUCTURESIntroduction to structural design, design loads, safety factors and load factors. Specifications and codes of practice.
Introduction to ASD (Alternate Stress Design) and LRFD (Load and Resistance Factor Design) methods.
Fabrication and erection methods of steel structures; Design of members in tension, compression and flexure; Riveted, welded
and bolted connections; Design of roof truss and plate girder.
Introduction to relevant software packages.
Books RecommendedLothers, J.E. Steel Structures, National Book Foundation
Geylord, E.H. and C. N. Gaylord, Steel Structures, McGraw Hill Spiegel & Burner. Steel Structures, McGraw Hill.
90 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-412 Serial No.: ________________
Course Title: Hydraulic Structure
Type: Theory Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Diversion Head WorksDifference between weir, barrage and headworks, layout of diversion head works, the diversion weir, type and components of diversion weir, the canal head regulator, canal regulation and silt control at the headworks
Theories of seepage and design of weir and barrageCauses of failure by piping and direct uplift, safety against piping and uplift, Bligh’s theory, Lane’s theory and concept of flow nets, stream lines and equi-potential lines, critical gradient, khosla’s method of independent variables for determination of pressure and exit gradient below a weir or barrage. Khosla’s simple and standard profiles, design examples of barrage head regulator etc. cross regulator and its design
Canal outlets or modules Types of modules. Canal outlets, their definition and location, type of canal falls
Irrigation WorksFalls, flumes, outlets, cross drainage works, syhons and aqueduct
DamsLow and High dams, forces acting on dams, design and drawing of gravity dams; requirements of stability of dams, zonal method of dams, causes of failure of dams, spillway design and drawing; types of spillways: ogee spillway siphon spillways, free over fall spillwayEarth Dams; design and drawing, design criteria of earth dam, quantity of seepage, control of seepage line and seepage control, stability of slopes. Method of slope stabilityAnalysis (i) at the end of construction, (ii) sudden draw down case, (iii) steady seepageEnvironmental Impact of DamsRecommended Books
(i) Justin, J. D. Hinds J and Creager W.P, Engineering for dams II and III volume,(ii) Design of small dams, U.S Burea of Reclamation(iii) Dr. S.K. Garg, Irrigation Engineering
91 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-407 Serial No.: ________________
Course Title: Project
Type: Lab Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Project assigned by faculty members to undergraduate students in semester-7 will be
evaluated in this semester-8
92 of 107
Department of Civil Engineering,N-W.F.P University of Engineering and Technology, Peshawar
COURSES OFFERED BY CIVIL ENGINEERING TO OTHER
DEPARTMENTS
93 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Electrical Engineering
Course No.: CE-107 Serial No.: ________________
Course Title: Strength of Materials
Type: Theory Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Stress and Strain: Tension, Compression, and shear, Hook’s Law, Poission’s Ratio, Elastic Constants,
Axial Loading of Composite Bars and Temperature Effects, Impact Loading, Resilience, Strain Energy Due
to Simple Stresses, Stresses in Riveted Joints.
Engineering Materials: Strength Properties of Metals and Non Metallic Material. Mechanical Testing,
Elasticity from Elastic Behavior, Plasticity and flow, Stress, Strain Curves, Working Stresses, factor of
Safety.
Cylinders and Pipes: Stresses in then cylinders, hoop stresses and Longitudinal Stresses.
Shafts: Development of Torsion Formula for Circular Shafts; Solid and Hollow, Horse Power transmitted by
Shafts, Shaft Coupling, Closed Coil Helical Springs.
Shear and Moment in Determinant Beams: Definition of types of Beams, Concept of Shear and bending
Moment, Shear and Moment Diagrams, Relation between the load Shear and Moment.
RECOMMENDED BOOK
Strength of Materials by Singer. (2nd Edition)
94 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Chemical Engineering
Course No.: CE-108 Serial No.: ________________
Course Title: Strength of Materials and Engineering Mechanics
Type: Theory Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Strength of Material, Stress and Strain, Hook’s law, Young’s modulus and Poisson’s ratio, Loading,
Tension, Compression, Torsion and shear. Stress/strain diagrams. Yield and ultimate stresses. Proof and
design stresses. Safety factors. Strain energy. Stress concentration. Bending and bending moments.
Buckling, Longitudinal and circumferential stresses in cylinders and spheres. Principle stresses and
theories of failure, of inertia, Radius of gyration. Definition of work, energy, power, efficiency, Mechanical
advantage, momentum, Impulse, Horsepower.
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Chemical Engineering
Course No.: CE-108 Serial No.: ________________
95 of 107
Course Title: Strength of Materials and Engineering Mechanics
Type: Lab Contact Hours: 02
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
To verify the link Polygon for various uniplaner forces
To determine tension in various parts of a hanging cord
To verify the principle of moments on a bent lever
To calculate supporting reactions in a simply supported beam
To find forces developed in various parts of a simple roof truss
To find forces developed in various parts of a wall crane
To calculate moment of inertia of a flywheel by falling-weight method.
To calculate moment of inertia of a wheel (by rolling it down an inclined plave).
To calculate coefficient of friction between two materials on an inclined plane.
To calculate the coefficient of friction between the given bets and the cast iron pulley.
To calculate efficiency and to draw load efficiency curve for a screw jack.
To draw load-efficiency curve for a simple lifting crab.
To draw load-efficiency curve for a worm and worm wheel (Hellical Block).
To verify principle of moment by disc apparatus.
To draw load-efficiency curve for a wheel and axle.
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Electrical Engineering
Course No.: CE-210 Serial No.: ________________
Course Title: Hydraulics and Hydraulics Machenery
96 of 107
Type: Theory Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Hydrostatics: Properties of liquids; static pressure due to liquids; Hydrostatic force on area; devices for
measurement of static pressure.
Hydrokinematics: Laminar and turbulent flow of water; energy of flowing water; Bernoulli’s Equation;
forced vortex; centrifugal head impressed on revolving liquids.
Flow Measurements: Measurements of “Flow of water by pitot tubes. Orifice, Circular, rectangular and
triangular nozzles; venturimeters and weirs, Horse-power of jet of water.
Unsteady Flow: Discharge with varying heads; velocity of pressure waves; hammer pressure; value
opening and closing.
Dynamic force and Momentum: Pressure due to jet of water on flat plate; pressure on fixed curved
vanes, flow over a radial vane; jet propulsion.
Water-Turbines: Classification of turbines; reaction and impulse turbines; summary of equations for
problems on turbines; specific speed of turbines; The governing of turbines; Pelton wheel and Francis
turbine.
BOOKS RECOMMENDED
2. Fluid Mechanics by Daugherty and Franzini (McGraw Hill)
3. Hydraulics and Hydraulic Machinery by E.H.Lewitt. (Pitman and Sons).
4. Mechanics of Fluids by A.C.Shaw and D.A.Jobsnon (Longman).
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Minning Engineering
Course No.: CE-211 Serial No.: ________________
Course Title: Mechanics of Materials
Type: Theory Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
97 of 107
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Simple Stress and Strain
Kinds of stresses and strains. Load extension diagrams for different materials. Hook’s Law. Modulus of
elasticity. Lateral strain. Volumetric strain. Poisson’s Ratio. Temperature stresses and compound bars.
Advance cases of Shear force and bending moment diagrams for statically determinate beams.
Relationship between Load Shear and Moment
Stresses in Beams
Theory of simple bending: Moment of resistance and section modulus. Homogeneous and Non-
Homogenous Mono-beams. Shear Stresses in Mono-symmetric Beams
Circular Shafts
Theory of torsion of solid and hollow circular shafts
Books Recommended
1. Pytel, A.& F.L.Singer, Strength of Material, Harper & row Publishers, New York
2. E.P Popov Mechanics of Solids
Practicals:
1.Direct tensile Test
a) Defound Bar
b) Reduced Area Bar
2. Direct Compression Test
N_W.F.P University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Mining Engineering
Course No.: CE-210Serial No.: ________________
Course Title: Mechanics of Materials
Type: Lab Credit Hours: 01
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
98 of 107
Investigation of Hook’s law that is the proportional relation between force and stretching in elastic deformation,
Determination of torsion and deflection, Measurement of forces on supports in statically determinate beam, Determination of shear forces in beams, Determination of bending moments in beams, Measurement of deflections in statically determinate beam, Measurement of strain in a bar Bend test steel bar; Yield/tensile strength of steel bar;
Annexure-II
M.Sc Courses
99 of 107
Approved by Board of Studies of Department of Civil Engineering in its meeting held on April 14, 2004
100 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-5129Serial No.: ________________
Course Title: Advance Hydrology
Type: Theory Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
IntroductionHydrology Defined, Background, Possible Applications, Hydrologic Cycle, Hydrologic Analysis Process,
Precipitation, Types of Storms, Runoff Hydrograph,
Rainfall/Runoff RelationshipsAbstractions: Infiltration, Horton’s Model, Abstractions: Evapotranspiration, Interception, Depression Storage, Effect of Watershed Characteristics, Effect of Basin Characteristics
Frequency AnalysisPopulation Versus Samples, Probability, Histograms, Probability Density Function (PDF), Cumulative Density Function (CDF), Frequency Distribution Parameters, Mean, Standard Deviation, Return Period, Rainfall Frequency Analysis, Intensity - Duration - Frequency Curves
Gaged SitesAnnual Peak Flow Data, Frequency Distributions for Flow Data, Peak Flow TranspositionTime of ConcentrationSheet Flow, Iterative Sheet Flow Equation, Modified Sheet Flow Equation, Shallow Concentrated Flow, Channel and Pipe Flow,
Rational MethodRunoff Coefficient, Multiple Land Uses/covers, Rainfall Intensity, Rational Method Assumptions, Estimate Weighted C and Rainfall Intensity, Estimate Design Flow
SCS Graphical MethodRainfall Components, Peak Discharge, Runoff Depth, Losses, Curve Numbers (CN),SCS Soils Group Classifications, Multiple Land Uses/covers and Soils,
Regression EquationsPredictor Variables, Rural Regression Equations, Limitations of Regional Regression Equations, Urbanization, Basin Development Factor, Channel Modifications,
101 of 107
HydrographsUnit Hydrograph Duration, Convolution, Base Flow, Unit Hydrograph Sources, Dimensionless Unit Hydrograph, SCS Dimensionless Unit Hydrograph, SCS UH Time Parameters, Design Storm Duration for UHs, Limitations of the Unit Hydrograph,
Storage RoutingHydrograph Attenuation, Continuity Equation, Storage-Discharge, Reservoir Characteristics, Storage-Indication Curve
Channel RoutingFundamental Equations, Selected Methods, Rating Curve and Wave Celerity, Time and Space Increments, Computational Procedure, Selection Considerations
Storm Water ManagementSWM Facility Configuration, Storage Estimation Methods, Rational Formula Hydrograph Method, SCS TR-55 Method, Storage Ratio, Storage-Discharge, Reservoir Characteristics, Riser Stage - Discharge Curve
Computer ApplicationsModeling Concepts, Common Hydrologic Models, Applying Models, Advantages of Computer Models
Arid Lands HydrologyHydrologic Characteristics, Gauged Sites, Unadjusted Frequency Curve, Frequency Curves,Conditional Frequency Curve, Synthetic Frequency Curve, USGS SW Regression Equations, Transmission Losses
Snowmelt Hydrology
Book Recommended:a. United State Federal Highway Hydrology Manualb. Introduction to Hydrology by Warren Viessman, Jr. and Gary L. Lewis, 4th Edition
102 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-5152Serial No.: ________________
Course Title: Air Pollution Control and Assessment
Type: Theory Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
Air Pollutants: Aerosols (important definitions), Asbestos, Carbon, Monoxide etc., Criteria Air Pollutants, Ground Level Ozone, Hazardous, Air Pollutants (HAPs), Hydro chlorofluorocarbons (HCFCs), Lead, Nitrogen Oxides (NOx), Particulate Matter (PM), Propellants, Radon, Refrigerants, Substitutes, Sulfur Oxides (SO2), Volatile Organic Compounds (VOCs).
Air Pollution: Community Involvement, Industrial Air Pollution, State Implementation Plans, Stationary Sources, Testing, Transboundary Pollution, Urban Air Pollution.
Air Pollution Control: Abatement, Remediation, Treatment Air Pollution Effects: Acid Rain, Climate Change, Global Warming, Risk Assessment
Air Pollution Legal Aspects: Compliance, Enforcement, Guidance, Legislation, Permits, Regulations, Reporting, Standards
Air Pollution Monitoring: Emission Factor, Emission Inventory, Emissions, Measurement, Models, Monitoring
Air Quality: Air Quality Criteria, Air Quality Models, Attainment, Emission Factor, Emission Inventory, Emissions, Emissions, Measurement, Emissions Trading, Measurement, Models, Monitoring, Nonattainment.
Atmosphere: Climate Change, Ground Level Ozone, Ozone Depletion, Ozone Layer, Ozone Monitoring, Ozone Transport, Smog, Ultraviolet Radiation (UV).
Indoor Air Pollution: Carbon Monoxide, Environmental Tobacco Smoke, Fireplaces, Radon, Sick Building Syndrome.
Mobile Sources: Airplanes, Automobiles, Diesels and Locomotives, Engines, Fuels, Inspection and Maintenance, Lawn and Garden Equipment, Marine Engines, Trucks and Buses, Used Oil Recycling, Vehicle Emissions
Air Quality Modeling: Different software/Models in use for the Air Pollution
103 of 107
Books Recommended:a. Fundamental of Air Pollution by Richard W. Boubel, Donald L. Fox, D. Bruce Turner and Arthur C.
Stern, 3rd edition.
104 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-5128Serial No.: ________________
Course Title: GIS Application to Hydrologic and Hydraulics Modeling
Type: Theory Credit Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective for Session: _____________________ Effective To: ___________________
Geographic Information System (GIS): an Introduction to the technology, the future of Geographic Information System.
Desktop GIS: What it is and what it does, how it works, what you need to know about data Digital Elevation Model Issues in Water Resources Modeling.
Digital Elevation Model (DEM) Preprocessing for Efficient Watershed Delineation, Creating Watershed from Scratch with Feature Objects
Watershed Delineation from DEMs using WMS Model Watershed Delineation from TINs using WMS Model
Using HEC – I Interface Time of Concentration Calculation, Basic Parameter of TR- 55 model, An Introduction to TR- 55 model, An Introduction to HEC – II model, different cards etc., An Introduction to HEC-RAS Hydraulic model, Basic Inputs, Bridge and culvert modeling using HEC-RAS hydraulic model, Other features of HEC-RAS hydraulic model / Introduction to CheckRas,
Flood mapping using GIS ArcView: PreRas Process and PostRas Process, Workshop using TR – 55 and Introduction to HEC-RAS modeling, Workshop using HEC-RAS modeling, Workshop using ArcView GIS, PreRas and HEC-RAS Process, Workshop using HEC-RAS and CheckRas Process, Workshop using PostRas Process and Digital Orthoquads (DOQ’s)
Books Recommended:a. Hydrologic and Hydraulic Modeling Support with Geographic Information System by Dr. David
Maidment and Dr. Dean Djokic
b. Getting to Know ArcView GIS, the geographic information system for everyone, by Environmental System Research Institute, Inc.
105 of 107
NWFP University of Engineering & Technology Peshawar
Document Type: Course Outline Department: Civil Engineering
Course No.: CE-5153Serial No.: ________________
Course Title: Hazardous Waste Management
Type: Theory Contact Hours: 03
Approved Under Reference: _______________________________________________________________________
Verified By: ____________________________ Signature: _____________________
Date: _________________________________ Effective From: _________________
Effective For Session: _____________________ Effective To: ___________________
FundamentalsFundamental of Hazardous waste, The Regulatory Process, Fate and Transport of Contaminants, Toxicology
Current Management PracticesEnvironmental Audits, Pollution Prevention, Facility development and Operation
Treatment and Disposal MethodsPhysiochemical process, Biological Control Methods, Stabilization and Solidification, Thermal methods, Land Disposal
Site RemediationQuantitative Risk Assessment, Site and Subsurface Characterization, Remedial technologies
Book Recommendeda. Hazardous Waste Management by Michel D. LaGrega, Philip L. Buckingham, Jeffrey C. Evans and
Environmental Resources Management.
106 of 107