Ibn Khaldoun University Faculty of Engineering
Republic of Yemen
Ibn Khaldoun University
Department of Civil Engineering
CIVIL ENGINEERING
General Outlines
The abbreviations, various codes and other definitions are given a follows:
Abbreviations
UR – University Requirement
FR – Faculty Requirement
CE – Civil Engineering
MT – Mechatronic Engineering
CSE – Computer Science and Engineering
ECE – Electronics and Communication Engineering
IT – Information Technology
L – Lecture Hours, T – Tutorial Hours, P – Practical Hours, CH –Credit Hour
Definition of the Credit Hour (CH)
One lecture (L) hour per week per semester is assigned to one credit.
Two tutorial (T) hours per week per semester are assigned to one credit. However, if it is less than two hours no credit is given.
Three practical (P) hours per week per semester are assigned to one credit. However, if it is less than three hours no credit is given.
Practical Summer Training (Non-credit Requirement)
The student is required to spend minimum period of eight weeks during summer vacations as a part of B.Sc. degree requirement in a factory, public/private engineering establishments or an industrial enterprise. Upon the completion of each period a technical report is to be submitted.
Course Numbering
The three digits of the number denoting a course will be used with the following criteria.
1-The first digit will correspond to the level at which the course is offered.
2-The second digit will be usually used to identify different areas within thedepartment.
3-The last digit will be odd for courses given in the first semester, and even for courses
given in the second semester, and zero for courses given in both semesters.
University and Faculty Requirement (UR & FR) Course Areas Code number :
Humanities: 0 – Languages, 1 – Social Science
Basic Sciences: 2 – Mathematics, 3 – Physics, 4 – Chemistry
Engineering Science and Arts: 5 – Eng Arts, 6 – Eng Sciences
University requirements
Course Code / Course Title / CreditUR 101 / Arabic Language I / 2
UR 103 / Arabic Language II / 2
UR 102 / English Language I * / 3
UR 104 / English Language II* / 3
UR 161 / Islamic Culture / 2
UR 151 / Introduction to computer ** / 3
Total Number of Hours / 15
* English Courses will be enhanced through Intensive English Proficiency Practice.
** For Engineering May be introduced under other Course name
Faculty Requirements
Subject / CreditsMathematics 1 / 4
Physics 1 / 3
Descriptive Geometry / 3
Workshop Technology / 3
Chemistry / 4
Mathematics 2 / 4
Physics 2 / 4
Geometrical Drawing / 3
Introduction to Computer / 3
Mathematics 3 / 4
Principle of Electrical Installation / 3
Thermodynamics / 3
Technical English / 3
Mathematics 4 / 3
Basics to Computer Programming / 3
Total / 50
Codes for Different Areas
0 - Engineering Science
1 - Structural Engineering
2 - Water Resources Engineering
3 - Geotechnical Engineering
4 - Transportation Engineering
5 - Environmental Engineering
6 – Construction and Management
7 - Engineering Practice
Core Courses
Course No. / Course Name / CreditsCE 201 / Civil Engineering Drawing I / 3
Engineering Mechanics / 3
CE 203 / Engineering Geology / 3
CE 204 / Surveying I / 3
CE 202 / Civil Engineering Drawing II / 3
CE 212 / Mechanics of Solids / 3
CE 214 / Civil Engineering Materials / 3
CE 262 / Building Construction / 3
CE 301 / Surveying II / 3
CE 311 / Structural Analysis I / 3
CE 361 / Concrete Technology and Testing / 3
CE 321 / Fluid Mechanics / 3
CE 312 / Structural analysis II / 3
CE 332 / Soil Mechanics / 3
CE 314 / Reinforced Concrete Design I / 3
CE 322 / Engineering Hydraulics / 3
CE 352 / Environmental Engineering I / 3
CE 411 / Structural Analysis II / 3
CE 413 / Reinforced Concrete Design II / 3
CE 415 / Foundation Engineering / 3
CE 441 / Transportation Engineering I / 3
CE 451 / Environmental Engineering II / 3
CE 421 / Engineering Hydrology / 3
CE 471 / Civil Engineering Course Project / 1
CE 412 / Reinforced Concrete Design III / 3
CE 442 / Transportation Engineering II / 3
CE 462 / Construction Engineering and Management / 3
CE 414 / Steel Design I / 3
CE 422 / Water Resources Engineering / 3
CE 472 / Coastal Engineering Fundamentals / 3
CE 511 / Steel Design II / 3
CE 561 / Construction Estimating and Cost Control / 3
CE 573 / Contracts and specifications / 2
CE 571 / Main project / 4
CE 573
Total / 100
Elective Courses
Course Name
/Credits
Elective I / 3Elective II / 3
Total / 3
Elective I
Course No. / Course Name / CreditsCE513 / Dynamics Of Structures / 3
CE515 / Concrete Tanks / 3
CE517 / Finite Element Method / 3
CE521 / Hydraulic Structures / 3
CE523 / Numerical Methods in Water Resources Engineering / 3
CE525 / Computer Aided Analysis and Design in Water Resources Engineering / 3
CE527 / Irrigation & Drainage Engineering / 3
CE531 / Advanced Geo-technical Engineering / 3
CE533 / Rock Mechanics / 3
CE541 / Traffic Engineering / 3
CE543 / Ports & Harbour Engineering / 3
CE553 / Environmental Control / 3
CE555 / Industrial Waste / 3
Elective II
Course No. / Course Name / CreditsCE512 / Matrix Methods of Structural Analysis / 3
CE514 / Concrete Bridges / 3
CE516 / Prestressed Concrete Design / 3
CE518 / Shell Design / 3
CE522 / Groundwater Engineering / 3
CE524 / Coastal Engineering / 3
CE532 / Earth Pressure and Retaining structures / 3
CE534 / Soil Stabilization / 3
CE542 / Airport Engineering / 3
CE544 / Advanced Highway Engineering / 3
CE546 / Urban Transportation Planning / 3
CE552 / Environmental Pollution / 3
CE554 / Waste Water Reclamation and Reuse / 3
Category-wise List of Courses
Course Category / CreditsUniversity Requirements / 18
Faculty Requirements / 50
Departmental Requirements (core) / 100
Electives / 6
Total / 174
DISTRIBUTION OF COURSES
FIRST YEAR
1st. Semester
Course No. / Course Name / L / T / P /C
UR101 / English Language I / 2 / 2 / 0 / 3FR121 / Mathematics I / 3 / 2 / 0 / 4
FR131 / Physics I / 2 / 2 / 0 / 3
FR150 / Workshop Technology / 2 / 0 / 3 / 3
FR151 / Arabic Language 1 / 2 / 2 / 0 / 3
FR153 / Geometrical Drawing / 2 / 0 / 3 / 3
Chemistry / 2 / 2 / 3 / 4
Total / 15 / 10 / 9 / 23
* / Mathematics (Supplementary) / 2 / 2 / 0 / 0
2nd. Semester
Course No. / Course Name / L / T / P / CUR102 / Arabic Language 2 / 3 / 2 / 0 / 3
UR104 / English Language II / 3 / 0 / 0 / 3
FR122 / Mathematics II / 3 / 2 / 0 / 4
FR132 / Physics II / 3 / 1 / 2 / 4
FR154 / Descriptive Geometry / 2 / 0 / 3 / 3
General Culture / 3 / 0 / 0 / 3
FR152 / Introduction to Computer / 2 / 1 / 2 / 3
Total / 19 / 6 / 7 / 23
SECOND YEAR
3rd Semester:
Course No. / Course Name / L / T / P / CUR201 / Civil Engineering Materials / 2 / 0 / 3 / 3
FR201 / Technical English / 2 / 2 / 0 / 3
FR221 / Mathematics III / 3 / 2 / 0 / 4
FR260 / Engineering Mechanics / 3 / 2 / 0 / 3
EE205 / Principles of Electrical Engineering. / 2 / 2 / 0 / 3
CE201 / Civil Engineering Drawing I / 2 / 0 / 3 / 3
CE203 / Engineering Geology / 2 / 0 / 3 / 3
Total / 16 / 8 / 9 / 22
4th. Semester
Course No. / Course Name / L / T / P / CFR222 / Mathematics IV / 3 / 1 / 0 / 3
FR262 / Thermodynamics / 2 / 1 / 2 / 3
CE204 / Surveying I / 2 / 1 / 2 / 3
CE212 / Mechanics of Solids / 2 / 2 / 0 / 3
CE202 / Civil Engineering Drawing II / 2 / 0 / 3 / 3
CE262 / Building Construction / 2 / 2 / 0 / 3
CE214 / Basics to Computer programming / 2 / 1 / 2 / 3
Total / 15 / 8 / 9 / 21
THIRD YEAR
5th Semester
Course No. / Course Name / L / T / P / CUR311 / Islamic Culture / 2 / 2 / 0 / 3
FR321 / Soil Mechanics / 2 / 1 / 2 / 3
CE301 / Surveying II / 2 / 1 / 2 / 3
CE311 / Structural Analysis I / 2 / 2 / 0 / 3
CE361 / Concrete Tech. & Testing / 2 / 0 / 3 / 3
CE 321 / Fluid mechanics / 2 / 1 / 2 / 3
Total / 12 / 7 / 9 / 18
6th Semester:
Course No. / Course Name / L / T / P / CUR312 / Foundation Engineering / 2 / 1 / 2 / 3
CE312 / Structural Analysis II / 2 / 2 / 0 / 3
CE332 / Coastal Engineering Fundamentals / 2 / 2 / 0 / 3
CE314 / Reinforced concrete Design I / 2 / 2 / 0 / 3
CE322 / Hydraulics / 2 / 1 / 2 / 3
CE352 / Environmental Engineering I / 2 / 2 / 0 / 3
Total / 12 / 10 / 4 / 18
* / Summer Training / 4 weeks
FOURTH YEAR
7th semester
Course No. / Course Name / L / T / P / CCE411 / Structural analysis III / 2 / 2 / 0 / 3
CE413 / Reinforced Concrete Design II / 2 / 2 / 0 / 3
CE415
CE441 / Transportation Engineering I / 2 / 2 / 1 / 3
CE451 / Environmental Engineering II / 2 / 1 / 2 / 3
CE421 / Engineering Hydrology / 2 / 2 / 0 / 3
CE471 / Steel Design 1 / 2 / 2 / 0 / 3
Total / 12 / 11 / 3 / 18
8th Semester:
Course No. / Course Name / L / T / P / CCE412 / Reinforced Concrete Design III / 2 / 2 / 0 / 3
CE442 / Transportation Engineering II / 2 / 1 / 2 / 3
CE422 / Water Resources Engineering / 2 / 2 / 0 / 3
CE414 / Steel Design 2 / 2 / 2 / 0 / 3
CE462 / Construction Management / 2 / 2 / 0 / 3
CE472 / Course Project / 0 / 0 / 3 / 1
Total / 10 / 9 / 5 / 16
* / Summer Training / 4 weeks
FIFTH YEAR
9th Semester
Course No. / Course Name / L / T / P / CFR561 / Contracts and specifications / 2 / 0 / 0 / 2
CE561 / Construction Estimating and Control / 2 / 2 / 0 / 3
CE511
Elective I / 2 / 2 / 0 / 3
CE573 / Elective 2 / 2 / 2 / 0 / 3
CE571
Total / 8 / 6 / 0 / 11
10 th Semester
Course No. / Course Name / L / T / P / CCE572 / Main Project / 0 / 4 / 6 / 4
Total / 0 / 4 / 6 / 4
Practical training for four weeks is required after fourth year. The objective of this training is to gain practical experience in real engineering applications at the work place. Evaluation is based on daily performance, supervisors, input, student's report, and short representation.
The Elective course groupings are listed as below.
Elective I
Course No. / Course Name / L / T / P / CCE513 / Dynamics Of Structures / 3 / 1 / 0 / 3
CE515 / Concrete Tanks / 3 / 1 / 0 / 3
CE517 / Finite Element Method / 3 / 1 / 0 / 3
CE521 / Hydraulic Structures / 3 / 1 / 0 / 3
CE523 / Numerical Methods in Water Resources Engineering / 3 / 1 / 0 / 3
CE525 / Computer Aided Analysis and Design in Water Resources Engineering / 3 / 1 / 0 / 3
CE527 / Irrigation & Drainage Engineering / 3 / 1 / 0 / 3
CE531 / Advanced Geo-technical Engineering / 3 / 1 / 0 / 3
CE533 / Rock Mechanics / 3 / 1 / 0 / 3
CE541 / Traffic Engineering / 3 / 1 / 0 / 3
CE543 / Ports & Harbour Engineering / 3 / 1 / 0 / 3
CE553 / Environmental Control / 3 / 1 / 0 / 3
CE555 / Industrial Waste / 3 / 1 / 0 / 3
Elective II
Course No. / Course Title / L / T / P / CCE512 / Matrix Methods of Structural Analysis / 3 / 1 / 0 / 3
CE514 / Concrete Bridges / 3 / 1 / 0 / 3
CE516 / Prestressed Concrete Design / 3 / 1 / 0 / 3
CE518 / Shell Design / 3 / 1 / 0 / 3
CE522 / Groundwater Engineering / 3 / 1 / 0 / 3
CE524 / Coastal Engineering / 3 / 1 / 0 / 3
CE532 / Earth Pressure and Retaining structures / 3 / 1 / 0 / 3
CE534 / Soil Stabilization / 3 / 1 / 0 / 3
CE542 / Airport Engineering / 3 / 1 / 0 / 3
CE544 / Advanced Highway Engineering / 3 / 1 / 0 / 3
CE546 / Urban Transportation Planning / 3 / 1 / 0 / 3
CE552 / Environmental Pollution / 3 / 1 / 0 / 3
CE554 / Waste Water Reclamation and Reuse / 3 / 1 / 0 / 3
DESCRIPTION OF COURSES
FR 131 Physics I (2-2-0) 3
1-Mechanics: physical quantities, units measurement, Newton’s laws of motion, work energy, and linear momentum collisions.
2-Waves and sound: simple harmonic motion, damping oscillations, forced oscillations resonance, waves, superposition and interference, standing waves resonance, and Sound.
3-Optics: nature of light , optical phenomena , optical devices, and wave optics.
FR 132 Physics II (3-1-2) 4
1-Thermal Physics: Thermometry thermal expansion, heat calorimetery, gas Laws kinetic theory of gases, heat transfer, and thermodynamics.
2-Mater in bulk and Fluids: states of matter deformation of solids, hydrostatics, and hydrodynamics.
3-Electricity and magnetism: electric &magnetic fields, Dc &AC current circuits, electrical energy & capacitance, and inductance.
4-Structure and properties of materials: crystalline vs. amorphous materials, crystallography, classification of materials, and properties of materials (mechanical, thermal, electrical dielectric, optical properties)
FR 132 Physics Lab(3-1-2) 4
This course combines simple experiments covering the fundamental concepts of mechanics, waves, optics, properties of matter, and electricity and magnetism.
CE 201Civil Engineering Drawing I (2-0-3)3
Introduction. Isometric and perspective, shade and shadow. Conventional representation of building materials, types of foundation. General principles in the stone masonry construction. Types of bricks, types of walls. Classification and methods of arch construction classification of lintels. Location of doors, windows and their types. Classification of stairs, balustrades. Classification of roofs, floor. Structural details for the building.
Engineering Mechanics(2-2-0)3
Preliminary principles (measurements and units), Force vectors (Newton's Laws and equilibrium, Forces as vectors), Resultant of force systems, Particle equilibrium, Rigid body equilibrium(two and three dimensional equilibrium)
CE 203Engineering Geology (2-2-0)3
Introduction. Mineralogy, identification of minerals, physical properties, common rock forming minerals. Petrology, Igneous rocks, sedimentary rocks, metamorphic rocks. Structural geology, dip and strike, folds, faults, unconformities, joints, structures due to denudation, mountain building. Physical Geology, rock weathering and soils, work of wind, work of rivers, work of sea. Hydrogeology, sources of water, hydrological cycle, geological work of groundwater, occurrence, hydrological properties of rocks, wells and springs.
CE 204Surveying I (2-1-2)3
Principles of surveying, classifications, Linear Measurements –direct and indirect methods, chain surveying, compass surveying, Traverses, Levelling and contouring, equipment and methods, computation of areas and volumes.
CE 212Mechanics of Solids (3-2-0)3
Introduction- Definition of stress, Equations of equilibrium, General case of plane stress, Principal stress, Maximum shear stress; Mohr’s circle of stresses, Centroidal properties of plane area; Concepts of strains, Strain displacement relations, principal strains, Plane strain; Elastic constants, stress-strain relationships; Torsion of shafts; bending and shear stresses of beam, Combined stress; Strain energy methods; stability; torsion
.
CE 202Civil Engineering Drawing II (2-0-3)3
Introduction; History of architecture; Principles of architectural design; Orientation of buildings; Factors affecting orientation; Functional requirements of buildings; Ventilation, Functional requirements of ventilation; Architecture and environment, Effect of climate in architectural design; Small design project.
CE 262Building Construction (3-1-0)3
Definition and purposes of building, concept of foundation, masonry constructions, framed structure and partitions, miscellaneous structures, cement concrete, temporary supporting structures and concrete construction, floor and flooring types, roof types, piles.
CE 214Civil Engineering Materials (2-0-3)3
Clay products, bricks, lime, cement, mortar, aggregates, timber, ferrous metal, steel, paints, plastics and glass, miscellaneous materials.
Coastal Engineering Fundamentals (2-2-0)3
Introductiontocoastalengineering.Reviewofuidowprinciples related to surface waves, linear wave theory, wave properties and transformations. Short-versus long-period waves. Wave forces. Energy and momentum. Radiation stresses. Introduction to wave modelling software.
Construction Estimation and Cost Control (2-2-0)3
Fundamental denition and concepts of estimation. Conceptual estimation. Schematic estimation. Detailed estimation. Building systems. Measurements.Pricing. Computer tools and applications. Bidding extensions of estimation to cost accounting.
Construction Engineering and Management (2-2-0)3
Planning, scheduling, and control of construction operations using Critical Path Method(CPM). Concepts of networking techniques, including activity-on-node (precedence) and activity-on-arrow. Network computations, resource allocation and levelling, and time/cost trade-offs. The course is supplemented with a 3-hour weekly session in various computer applications in construction engineering and management, and site visits to major projects
CE 301Surveying II (2-1-2)3
Theodolite traversing - equipment and methods, measurements of horizontal and vertical angles, Tachometric surveying, Curves – different types – elements – setting procedures, Triangulation, Photogram metric terms, Photo-interpretation and remote Sensing, others measurements, Theory of errors – Estimation of most probable values.
CE 311Structural Analysis I (2-2-0)3
Analysis of statically determinate beams, frames, trusses and arches, including determination of reactions and internal forces.Deflection of simply supported beams and cantilever beam, using double integration method, moment area method and conjugate beam methods.
CE 361 Concrete Technology and Testing (2-0-3)3
Introduction to concrete as a structural material. Concrete mix design. Mixing, transporting and placing of concrete. Properties of fresh concrete. Compaction of concrete. Curing of concrete. Properties of hardened concrete. Shrinkage and creep of concrete. Permeability and durability of concrete. Special concrete and concreting processes.
CE 321Fluid Mechanics (2-1-2)3
Introduction; Fluid properties and classification of fluids. Pressure and pressure measurements; Fluid static's and Fluids in rigid body motion; Equilibrium of floating bodies. Fluid flow kinematics; Energy equation and its Applications; Momentum Equation and its Applications; Dimensional analysis and modelling criteria.
CE 312Structural Analysis II (2-2-0)3
Deflection of statically determinate frames and plane trusses, using strain energy method (unit load method). Influence lines and effect of moving loads on simply supported beams(criteria for max. reaction, shear force and bending moment). Absolute max. B.M.Construction of influence line diagram for member forces in simple trusses.
CE 332Soil Mechanics (2-1-2)3
Introduction-Soil Definition, Formation, types; Weathering. Index properties. Derivation of basic equations, Inter-relations, Simple engineering tests, Grain size distribution, hydrometer analysis, Consistency of cohesive soils, identification and classification of soils. Soil compaction. Permeability. Principle of effective stress,, Quick condition. Seepage, Equationof continuity, Lap Lucian equations, Flow potential, Flow nets, Phreatic line,. Dupuit’s solution, Schaffernak solution, CAS Grande's solution. Consolidation, Consolidation settlement, Terzaghi Theory of consolidation, Degree of consolidation. Shear strength-Introduction, Basic concepts, Mohr’s circle, Shear testing of soil.
CE 314Reinforced Concrete Design I (2-2-0)3
Introduction, Design Philosophies, Design methods, Codes of Practice. Limit state design, Ultimate limit state, Serviceability limit state, Load combinations, Design stress-strain curves for materials. Section Design-Rectangular sections, T-sections, L-sections, Singly and Doubly reinforced sections. Shear, Bond and Torsion- Design of shear reinforcements, Anchorage, Bonds, Laps, Joints, Torsion reinforcements. Deflection and Cracking- Deflection limits and checks, Modification factors for tension and compression reinforcements, Cracking limits and control, Bar spacing control. Design of slabs- types of slabs, Design methods, Design of One-Way and Two-Ways slabs - Simply supported and restrained-, bending and shear force coefficients, Sketching and detailing of slab reinforcements.
CE 322Hydraulics (2-1-2)3
Flow Regimes. Laminar Flow; Frictional head loss; Velocity distribution. Introduction To boundary layer theory. Turbulent flow in closed conduits; Friction factor. Pipe flow; Pipe networks. Open channel flow; Normal and critical flows; Steady hydraulic jump; Gradually Varied Flow; Water surface profiles.
CE 352Environmental Engineering-I(3-1-0)3
Water cycle and source of water. Rain fall and run off. Estimation of water consumption. Population studies and forecasting. Quantity of water. Fluctuation in demand of water. Quality of water. Disinfection. Conveyance of water. Pumps. Surface water collection work. Treatments. The water standards.
CE 411Structural Analysis III (2-2-0)3
Analysis of statically indeterminate structures, using method of consistent deformation, slope deflection method and moment distribution method. Approximate method for analysis of multi-storey frames.
CE 413 Reinforced Concrete Design II (2-2-0)3
Ribbed Slabs- Design considerations, Design procedure, Shear, deflection and crack control. Flat Slabs- Analysis and Design, Shear, deflection and crack control. Stair Slabs- Design of transverse and longitudinal spanning stair slabs. Columns-Types, Loads, Design considerations, Short and slender columns subjected to axial loads, uniaxial moment and biaxial bending, Braced and unbraced columns. Foundations- general considerations, Design of axially and eccentrically loaded pad bases, Design of strip wall footings.
CE 415Foundation Engineering (2-1-2)3
Introduction to foundation engineering. Stress distribution in soil- Introduction, Boussinesq’s equation, Westergard’s equation, New mark's influence diagram, Vertical Stress variation, Fandom's method. Foundation settlement. Bearing capacity of soils. Pile foundations. Lateral earth pressure. Stability of slopes.
CE 441Transportation Engineering I(2-2-1)3
Introduction; Highway Planning-Transportation Demand, Factors affecting demand, Highway classification, Planning surveys; Traffic forecasting. Geometric Design. Highway Material Pavement Design. Highway Construction and Maintenance.
CE 451Environmental Engineering -II (2-1-2)3
General- sewerage system. Pumping station and rising main. Composition and characteristics of sewage. Treatment works. Activated sludge treatment. Oxidation pond, construction and design. Sewerage of isolated areas. Sewage disposal works.
CE 421Engineering Hydrology (3-1-0)3
Introduction to hydrologic cycle and its various components. Physical land surface process- Evaporation, rainfall, interception, infiltration and stream flow. Hydrologic measurements. Flood estimation by unit hydrograph theory, synthetic unit hydrograph, elementary flood frequency analysis, reservoir sizing. Hydrologic flood routing in reservoirs and channels, Groundwater hydraulics.
CE 471Civil Engineering Course Project (0-0-3)1
Analytical, design, experimental, or field work carried out in accordance with a pre-approved project plan under the supervision of department members.
CE 412 Reinforced Concrete Design III (2-2-0)3
Foundations- Design of combined bases for columns, Raft slab/ slab and beam construction. Retaining Walls- Types, Earth Pressure, Design procedure. Framed Buildings- Types and structural action, Loading on beams, Arrangement and critical loading, Shear and moment envelopes, Moment redistribution in beams, Curtailment of bars, Design of different members in building frame.
CE 442Transportation Engineering II (2-2-0)3
Traffics Engineering; Airport Engineering; Docks and Harbours, Docks, Break waves;, Material handling equipment.
CE 422Water Resources Engineering(2-2-0)3
Input Studies, Soil-Water-plant relationship and assessment of irrigation requirement. Irrigation system, canal design, regime concept of stable channel design, tractive force, method of stable channel design, reservoir studies, storage works and diversion works, canal regulation works, transition sub critical flow, cross drainage works, design of falls and modules, design principles of gravity dam sections, spillway types, energy dissipaters.
CE 414Steel Design I (3-2-0)3
Structural steels, tension members, structural fasteners, welding, compression members, beams(laterally supported), continuous beam design.
CE 511Steel Design II(2-2-0-)3
Design of Plate Girders; Gantry girders; Design of prestresed steel tanks; Circular tanks including their staging,; Design of steel stack; Plastic analysis of steel structures.
CE 571Main Project(0-4-6)4
The objective of the project theme is the intensification of engineering knowledge, skills and proficiency in solving a problem in the area of civil engineering. Students are expected gain subject-specific job-related experience. Project works are examined by an authorised committee. The objective of the project theme is the intensification of engineering knowledge, skills and proficiency in solving a problem in the area of civil engineering. Students are expected gain subject-specific job-related experience. Project works are examined by an authorised committee.
Elective I
CE 513Dynamics of structures (2-2-0)3