ITM UNIVERSITY
Naya Raipur, Raipur
B.Tech (Bachelor of Technology)
Third Year Engineering Syllabus
Sixth Semester
Department of Civil Engineering
2016
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Civil Engineering Branch
B.Tech Sixth Semester Syllabus Teaching and Examination Scheme
Subject Subject Name Teaching
Examination Scheme
Code Scheme
Th.+Tut Pr. Theory Marks Term Practical Total (L+T) (P) Internal End Work (External)
Assessment Sem. (Internal)
CT‐1 CT‐ 2 CT Exam
AVG
301601 Operation Research Techniques 06 ‐ 30 30 30 70 ‐ ‐ 100
301602 Engineering Hydrology 04 ‐ 30 30 30 70 ‐ ‐ 100
301603 Environmental Engineering ‐ II 04 ‐ 30 30 30 70 ‐ ‐ 100
301604 Steel Structures 04 ‐ 30 30 30 70 ‐ ‐ 100
301605 Transportation Engineering ‐ II 04 ‐ 30 30 30 70 ‐ ‐ 100
301606 Concrete Technology 04 ‐ 30 30 30 70 ‐ ‐ 100
301607 Computer Aided Design and Drafting Lab.
‐ 02 ‐ ‐ ‐ ‐ 15 35 50
301608 Steel Structures Lab. ‐ 02 ‐ ‐ ‐ ‐ 15 35 50
301609 Transportation Engineering ‐ II Lab.
‐ 02 ‐ ‐ ‐ ‐ 15 35 50
301610 Concrete Technology Lab. ‐ 02 ‐ ‐ ‐ ‐ 15 35 50
301611 Entrepreneurship Skills
‐ 02 ‐ ‐ ‐ ‐ 15 35 50
301612 Project ‐ IV ‐ 04 ‐ ‐ ‐ ‐ 50 100 150
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Subject Code: 301601 Subject Name: Operation Research Techniques
Lectures: 6 Hrs/Week Theory Exam Duration: 3 Hrs
Detailed Syllabus Topics
Unit ‐1 : Operation Research And Modeling – An overview, Linear programming problem(L.P.P)‐ Graphical method, Simplex method, Big – M method, Two phase method, Duality in L.P.P – Dual problem, Dual Simplex Method, Application of L.P.P
Unit ‐2 : Transportation Problem – Introduction, Transportation table, finding an initial feasible
solution‐ Northwest corner method, Least – cost method, Vogel‟s approximation method, Test for optimality‐ MODI method. Assignment problem – Introduction, Solution methods of assignment problem, complete enumeration method, Transportation method, simplex method, Dual of the assignment problem.
Unit ‐3 : Games And Strategies – Introduction, Two person zero sum games, the maximum and minimum principle, Games without saddle point – Mixed strategies, Graphic solution of 2×n and m×2 games. Dominance property, Arithmetic method for N X N games. General solution of M X N rectangular games.
Unit ‐4 : Queuing Theory – Introduction, Elements of a queuing system, Little‟s theorem, Classification of queuing models, Poisson queuing system model‐I (M/M/1):(∞/FIFO), model‐ II(M/M/1):(∞/SIRO), model‐III(M/M/1):(N/FIFO). Sequencing Problem – Introduction, Optimum sequence algorithm, Problem of complex sequencing.
Unit ‐5 : Network Analysis‐Introduction, Network : Basic components, Logical sequencing, Rules of network construction, concurrent Activities, critical path analysis, probability considerations in PERT, Distinction between PERT and CPM.
Recommended Books:
1. Operations Research, Kantiswaroop, Manohar Gupta & Manmohan, S Chand Publications 2. Operations Research: An introduction 8/E, H. Taha, Person education. 3. Operations Research , R. Panneerselvam , PHI Pub. 4. Problem and solution of operation research, P.K. Gupta , D.S. Hira, S Chand Publications.
5. Project planning and control with PERT and CPM, B.C.Punmia& K.K. Khandelwal,
Laxmi publications. 3 | P a g e
Subject Code: 301602 Subject Name: Engineering Hydrology
Lectures: 4 Hrs/Week Theory Exam Duration: 3 Hrs
Detailed Syllabus
Topics
Unit – I : Introduction: Hydrology, definition, engineering hydrology, and its importance, development of hydrology and allied science, hydrological cycle, hydrological evolution and brief description of its components, the earth and its atmosphere, importance of temperature, humidity, and wind in hydrological study.
Unit‐ II : Precipitation: Definition anticipation, artificial rains, types of precipitation, orthographic, conventional and cyclonic, factors affecting precipitation with reference to physiographic divisions of India Measurement of precipitation: non automatic and automatic rain gauges, selection of site ,density and adequacy of rain gauge stations, optimal number of rain gauge, radar measurement of rainfall, mass curve, supplementary rainfall data missing records, intensity duration frequently and depth area duration analysis
Unit – III : Infiltration: definition, mechanism, factors affecting infiltration, infiltration indices, measurement, application, problems. Evaporation and transportation: definition, mechanism and factors affecting evaporation, evaporation estimations by pan, water budget, energy budget and imperial formula, control of evaporation. Evapo‐transpiration and its measurement. Interception
and its measurement.
Unit – IV : Runoff: Source and components of run‐off, classification of streams, factors affecting and area velocity method. Hydro‐graphics: flood hydrology, definition, typical flood hydrograph and its components, base flow and base flow separation, unit hydrograph, theory, S‐curve and its use, instantaneous UHG.
Unit – V : Geo‐Hydrology: Introduction, occurrence and distribution of ground water, water table and water table maps, aquifer, aquiclude, aquitard and aquifuge. Groundwater exploration, electrical resistivity method, confined and unconfined aquifer, porosity, permeability, specific yield, specific retention, Darcy‟s law, introduction to hydraulic wells, open wells, safe yield test.
Recommended Books: 1. Engineering Hydrology – K. Subramanya (Tata McGraw Hill) 2. A Text Book of Hydrology – Dr. P. Jaya Rami Reddy (Laxmi Publications) 3. Hydrology Principles and Analysis – H.M. Raghunath (New Age International Publication) 4. Applied Hydrology – VenTe Chow, David R. Maidment, Larry W. Mays (McGraw Hill) 5. Applied Hydrology – Linsely R.K. Kohler, M.A. and J.L.H. Paulhus (McGraw Hill) 6. Hydrology for Engineers and Planners – Cassidy W.C. (Iowa State University Press)
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Subject Code: 301603 Subject Name: Environmental Engineering ‐ II Lectures: 4 Hrs/Week Theory Exam Duration: 3 Hrs
Detailed Syllabus
Topics Unit‐I : General Aspects of Environment Engineering‐System of collection and conveyance of sewage‐ separate and combined systems. Patterns of sewage collection systems. Quantity of storm water and sanitary waste water sewn Types, Shapes, Hydraulic Design (Capacity, Size, Grade, etc.)
Unit‐II: Construction of sewer – Shoring, Trenching and laying to grade. Sewer materials Sewer Appurtences – manhole street inlets, storm water overflows, inverted syphons, flushing and ventilation. House plumbing systems‐sanitary fitting And appliances , traps, anti‐syphonage, inspection chambers and intercepting traps. Sewage pumping‐ location of pumping station and types of pumps. Sewer testing and maintenance.
Unit‐ III : Physical and chemical characteristics of wastewater, significance of BOD, COD, BOD rate constant, Sewage treatment flow sheet, site selection for sewage treatment plant Preliminary and Primary treatment – Screens , Grit chambers, Primary settling tank (including simple design)
Unit‐IV : Secondary treatment‐Principle of Biological Treatment Activated sludge process,
trickling filter, Methods of disposal‐ disposal on land and in water stream, Sewage farming, self
purification of stream . Sludge digestion, sludge drying beds.
Unit‐V: Rural sanitation‐Pit privy, aqua privy, bio‐gas recovery. Septic tank including soak pit,
(including design problem) Sullage collection and disposal.
Recommended Books: 1. Environmental Engineering – Peavy& Rowe (Tata McGraw Hill, New Delhi).
2. Waste Water Engineering – S.K. Garg (Khanna Publication).
3. Waste Water Engineering – B.C. Punmia (Laxmi Publication, New Delhi)
4. Environmental Science and Engineering – Henry and Heinke (Pearson Education).
5. Waste Water Engineering – Metcalf Eddy (Tata McGraw Hill, New Delhi).
6. Introduction to Environmental Science – Y Anjaneyulu (B S Publications).
7. Environmental Science and Engineering – henry and heinke (Pearson Education).
8. Waste Water Engineering – Metcalt Eddy (Tata McGraw Hill, New Delhi)
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Subject Code: 301604 Subject Name: Steel Structures
Lectures: 4 Hrs/Week Theory Exam Duration: 3 Hrs
Detailed Syllabus
Topics
Unit –I : Steel as a structural material, various grades of structural steel properties; various rolled steel sections and their properties. Introduction to I.S. 800,808,816,875 etc. Introduction to Plastic Analysis, Shape Factor, Plastic hinge formation Collapse Mechanism for beams Design of axially loaded members: (a) Tension members. (b) Compression members. Design of roof truss: Load assessment for DL, LL and WL.
Unit –II : Structural Fasteners: Behavior of bolted and welded connections (types, Designation, properties, permissible stresses), failure of bolted and welded joints. Strength of bolt and strength
of weld.
Unit –III : Design of simple bolt and welded connections. Moment resistant bolted and welded connection (bending and torsion) Design of connection: Beam to beam, beam to column
Unit –IV : Design of simple and built up beams: Laterally restrained and
unrestrained,(symmetrical as well as unsymmetrical section). Curtailment of flange plates.
(Design of welded plate girder.)
UNIT‐V : Design of single rolled steel section column subjected to axial load and biaxial moment including base design. Design of axially loaded built up columns. Laced and battened
(Column bases, slab base and moment resistant bases).
Recommended Books: 1. Limit State Design of Steel Structures – S. K. Bansal, TMH publications 2. Design of Steel Structures – Dr. B. C. Purnia, A. K. Jain et.al., Media Publications 3. Design of Steel Structures – L. S. Negi, TMH publications 4. Design of Steel Structures – S. Ramamrutham, Dhanpatrai & Sons 5. Design of Steel Structures Vol – I, B. C. Purnia, A.K. Jain et.al., - Arihant publications
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Subject Code: 301605 Subject Name: Transportation Engineering – II
Lectures: 4 Hrs/Week Theory Exam Duration: 3 Hrs Recommended Books:
1. Railway Engineering – S.C. Saxena& Arora (Dhanpat Rai Publications 2. Railway Engineering – Rangawala (Charotar Publications) 3. Principles of Traffic and Highway Engineering –Garber ,hoel 4. Traffic Engineering and Transport Planning – Kadiyali, L.R. (Khanna Publishers, Delhi, 1996)
5. Transport Planning and Traffic Engineering – Flaherty, CAO (John Wiley & Sons, Inc., New York, 1997)
6. Principles of Urban Transport Systems Planning – Hutchinson, B.G. (Scripta Book Company,
Washington, D.C., 1974)
7. Modelling Transport – Ortuzar, title D. and Willumson, L.G. (John Wiley & Sons, New York, 1995) 7 | P a g e
Detailed Syllabus
Topic
Railway track cross-section, coning of wheels, rail cross-section, weight of rail,
Unit-I length of rail, wear of rails, creep of rails, rail joints and welding of rail, sleepers,
various types, spacing and density fastenings, ballasts.
Unit-II Grading, cant and cant deficiency, transition curves, widening of gauges on curves.
Point and crossing, design of turn outs various types of track junctions, signalling and
interlocking, signals, and control of movements of trains.
Traffic engineering administration : definition , traffic engineering, functions,
Unit-III organisation of the traffic engineering. Transportation system management, statistical
methods of traffic engineering. Theory of traffic flow. Fundamental diagram of
traffic flow, lighthill and witham‟s theory , the queuing theory, transportation
survey , land use transport models
Methods of trip distribution, uniform factor method, average factor method, frator
Unit-IV method, furness method, limitations of growth factor methods, elementary gravity
model. Trip classification, multiple regression analysis, trip rate analysis, category
analysis. Road accident analysis
Unit-V Tunnel Engineering. Consideration in tunnelling shape and size, methods of tunnel,
constructions, tunnelling in soft soil and rocks, lining of tunnels, ventilations,
drainage of tunnels.
Subject Code: 301606 Subject Name: Concrete Technology
Lectures: 4 Hrs/Week Theory Exam Duration: 3 Hrs
Detailed Syllabus
Topics
Unit – I : Concrete Making Materials :Aggregates classification, IS Specifications, Properties, Grading, Methods of combining aggregates, specified grading‟s, Testing of aggregates, Types of Fibers. Cement, Grade of cement, Chemical composition, Testing of cement, Hydration of cement, Structure of hydrated cement, Special cements. Water : Quality of water for concrete mixing, suitability
Unit – II : Fresh Concrete : Properties of fresh concrete, Hardened concrete, Strength, Elastic properties, Creep and shrinkage, Variability .Efficiency of mixing. Workability Measurement – Slump cont test, compacting factor test, Factor affecting workability. Segregation, bleeding, voids, permeability. Hot weather concreting. Underwater concreting, Conveyance of concrete, Placing of concrete. Compaction‐ vibrators. Curing of concrete Significance, methods of curing, IS code on curing. Maturity of concrete.
Unit – III : Strength Of Concrete :Gain of strength, Wet ratio, Factor affecting compressive strength w/c ratio. Type of cement, air entrainment, mixing water, Admixtures, curing conditions. Relation between cracking in compression. Impact strength fatigue strength. Shear strength, Bond between concrete & reinforcement. Modulus of elasticity, Poison‟s ratio. Testing of Hardness of Concrete: Compression test‐ cube strength & cylinder strength their relation, Splitting test. Abrasion resistance. Accelerated curing tests, Causes, types, prevention, repairs of cracks – materials and methods Non Destructive tests.
Unit – IV : Mix Design – Process, Statistical relation between mean & characteristic strength, Variance, Standard deviation. Factor affection mix properties. Degree of quality control. Design mix by Road note no. 4 (BS). IS:10262:2009. Additives and Admixtures: Types of admixtures, Natural products‐Dietomaceo use arth BypproductsPozzolones. Fly ash, silica fume, rice husk ash, G.G. blast furnace slag water proofing agents.
Unit ‐ V : Concreting Methods: Process of manufacturing of concrete, methods of transportation, placing and curing ‐ Extreme weather concreting, special concreting methods, Vacuum dewatering ‐ underwater concrete, special from work.
Recommended Books: 1. Civil Engineering Materials (2nd Edititon) – Shan Somayaji (Prentice Hall Inc., 2001) 2. Materials for Civil and Construction Engineers – Mamlouk, M.S. and Zaniewski, J.P. (Prentice
Hall Inc., (1999) 3. Properties of Concrete – Neville, A.M., (Pitman Publishing Limited, London) 4. Concrete Technology – Shetty M.S., (S.Chand and Company Ltd. Delhi)
5. Materials for Civil and Highway Engineers (4th Edition) – Derucher, K.Korfiatis. G. and
Ezeldin, S. (Prentice Hall Inc., 1999) 6. High Performance Concrete – Aitkens (McGraw Hill, 1999) 7. Concrete Technology – M.L. Gambhir (Tata McGraw Hill) 8. Concrete Technology – R.S. Varshney (Oxford, IBH Publishers)
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Subject Code: 301607 Subject Name: Computer Aided Design and Drafting
Practical: 2 Hrs/Week
Detailed Syllabus
Term work: Term work shall consist of record of the following experiments:
I] Practical submission work:
A] Sketch book: 1. Minimum 30 free hand sketches of various building elements should be drawn on the
sketch book.
2. Line plans of various types of buildings. (minimum 5 assignments)
3. The sketch book and line plans will be submitted for evaluation.
B] Drawing sheets: Following drawing sheets should be drawn with the help of AutoCAD (A1 size).
6. Development of line plan for residential building. (Two assignments –One for single storied building and another for two storied building.)
7. Submission drawing for residential building including its planning and with area
and parking statements and all other details as per the norms and local bye‐laws.
(Two assignments)
8. Submission drawing of multistoried Public / Educational / Health / Community building.(One assignment). All these drawings will be printed and submitted for evaluation.
II] Manual drawing:
1. Line plan for a public building on graph sheet. (One assignment)
2. Two point perspective of the single Residential building neglecting small building elements. (One assignment on A1 size sheet) All these drawings will be drawn / printed and submitted for evaluation
Recommended Books:
1. George Omura, “Mastering AutoCAD”, BPB Publications 2. Sham Tickoo, Anurag, “AutoCAD 2013 for Engineers &Designes”, Khanna Publications 3. Kogent Learning Solutions, “In Simple Steps AotuCAD 2014”, Dreamtech Press 4. Shork, “Beginning AutoCAD – Exercise Workbook”, BPB Publications
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Subject Code: 301608 Subject Name: Steel Structures Lab. Practical: 2 Hrs/Week
Detailed Syllabus
Term work: Term work shall consist of record of the following experiments: Detail design and drawing of the following steel structures on A2 size drawing sheets :-
1. Columns, base plates and their foundations
2. Grillage foundation
3. Plate Girder (Welded)
4. Flanges & Web‟s design
5. Gusseted base
6. Design of web and flange splices
More experiments must be there with reference to the contents of subject code 301604
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Subject Code: 301609 Subject Name: Transportation Engineering -II Lab
Practical: 2 Hrs/Week
Detailed Syllabus
Term Work: The candidate shall submit experiments in the following:
LIST OF EXPERIMENT 1. Drawing a Railway track 2. Trip distribution method by „ Gravity model‟
3. Trip distribution method by “Fratar method” 4. Trip distribution method by “Furness method” 5. Speed analysis of any highway by “ regression method “
6. Road accidents analysis by “chi-squared distribution” 7. Any site visit in planned city
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Subject Code: 301610 Subject Name: Concrete Technology Lab.
Practical: 2 Hrs/Week Detailed Syllabus
Term work: Term work shall consist of record minimum ten experiments out of the following; List of Experiments
1. To determine the Normal consistency of cement. 2. To determine initial and final setting times of cement. 3. To determine soundness of cement. 4. To determine compressive strength and tensile strength of cement. 5. To determine particle shape , texture and elongation/ flakiness index of aggregate . 6. Sieve analysis and particle size distribution of aggregate. 7. To determine crushing value test, Impact value and Abrasion value of given aggregate. 8. To determine Bulk Density, Specific Gravity, Absorption & Moisture Content of Aggregate. 9. To determine Bulking and Percentage silt in sand. 10. To determine Workability ‐ Slump test, Compaction factor of concrete. 11. Concrete mix design Road note 4 method, I.S. Method and ACI Method. 12. To determine Compressive strength of concrete cube. 13. To determine the quality of concrete by using Rebound hammer/ Ultrasonic Pulse Velocity
Instrument.
Any other experiments with reference to the contents of subject code 301606.
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Subject Code: 301611 Subject Name: Entrepreneurship Skills Practical: 2Hrs/Week
Detailed Syllabus Term work: Term work shall consist of record of atleast TWO of the following -:
• Any INDUSTRY / COMPANY • Any RESEARCH INSTITUTE UNDER CSIR OR SCIENTIFIC GROUPS • Any SOFTWARE TECHNOGICAL PARK OF INDIA Centre‟s • Any SOFTWARE DEVELOPMENT CENTRES (ISO CERTIFIED) • Any Government Recognized Training Centre • Any Training Centre / Programme recognized by ITM University Raipur or ITM
Group of Institutions The record must be based on the following factors ‐:
8. Industry / Company / Research Institute (Better if ISO certified) are to be considered 9. Studies and Observations must be done w.r.t. the following
a) Detail Company Profile which also includes Employment Growth
b) Name of the Products that is dealt by the company
c) Raw Material Required (based on Quantity and Quality) d) Process for Production
e) How Environmental Protection is being handled by the Company?
f) How Quality of the products is controlled?
g) What is the status (demand and Supply) of such products in the market?
h) Comparative Studies about the products by other companies (if any)
i) How targets are set?
j) What are the key-factors that are playing the role for setting up the targets?
k) How many Employees are Involved in achieving such targets?
l) Whether any possibility of generating any additional Employment for that
Company? If Yes, then How?
m) Inventory / Stock Control of the Products
n) How marketing of the Products are done? What is the actual cost of the Product
when produced? Perform Cost – Benefit Analysis. o) Any other factors that will help the Society for better prospects
10. As an Entrepreneur what modifications are required in the above studies and observations
‐: a. Detect the General problems b. Methods Applied to Solve such Problems c. Flowchart and Algorithm to solve Problem d. Basic Methodology / Methods required to solve such problem e. Methods to Protect the Environment (if any) f. Any Employment and Infrastructural Growth g. Practical Implementations h. Final Analysis and Conclusions i. Any help to the Society for achieving more prospects
Please Note: ‐ Based on the above a power point presentation must be given by the candidate 13 | P a g e
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Subject Code: 301612 Subject Name: Project ‐ IV
Practical: 4Hrs/Week
Detailed Syllabus
Term work: Term work shall consist of report / thesis submitted based on the topic of one good Engineering / Research based problem.
1. Formation of team, selection of topic : Presentation on different project topics, Team formation
including students and guide, Literature review in Library and internet on different project topics,
Selection of Project topic and objectives
2. Site Visits (If required): Before undertaking the project design, team should visit sites where the
project is already implemented and get acquainted with different perspectives. They should meet
experienced personalities in the area and take their advice.
3. Preliminary Design: After selection of topic, the team should carry out further literature review
and then come out with the preliminary design of the project in the form of drawing and
explanation.
4. Semester Project Progress Report: A semester project progress report should be prepared
comprising the work done as said above. The report should be presented before the Department
faculty and subject experts.
The Report / Thesis must contain the following:‐
1. Well‐defined Case – based Problem
2. Motivation to select such problem
3. General approach to solve such problems
4. Methods Applied to Solve such Problems
5. Flowchart and Algorithm to solve Problem
6. Basic Software and Hardware required to solve such problem
7. Practical Applications
8. Final Observations and Conclusions
9. Any help to the Society through the above said Problem.
Please Note:‐ Based on the above work a power point presentation must be given by the candidate and
defended with positive attitude. The candidate will be appreciated if he / she present his / her work in a
Conference or publish his / her work in a reputed Journal
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