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7/23/2019 IOE Syllabus(civil-3rd-year)
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1
B.E.
InstituteofEngineering
CivilIII
Year
IPart
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3
4.
John. H. Mathews, Kurtis Fink ," Numerical Methods Using MATLAB 3rd
edition",PrenticeHallpublication
5. JAAN KIUSALAAS,"NumericalMethods inEngineeringwithMATLAB",
CambridgePublication
Evaluation scheme:
The questions will cover all the chapters of the syllabus. The evaluation scheme
will be as indicated in the table below
* There could be aminor deviation in the marks distribution
Chapters Hours Marksdistribution*
19 16
2
3 8 16
4 8 16
5 6 106 6 10
7 8 12
Total 45 80
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6
References
1 DarkovAetal.,1979,StructuralMechanics,MirPublishers,Moscow.
2 Ghali A, Neville A M, 1989, StructuralAnalysis,AUnified Classical and
MatrixApproach,ChapmanandHall.
3
Joshi H R, 1991, Theory
of
Structure
II
Course
Manual, Institute of
Engineering,TribhuvanUniversity,Katmandu.
4 Norris C H, Wilbur J B, Utku S, 1991, Elementary Structural Analysis,
McGrawHillInternational Editions,CivilEngineeringSeries.
5 PanditGS,GuptaSP,1981,StructuralAnalysis,AMatrixApproach,Tata
McGrawHillPublishingCompanyLimited,NewDelhi.
6 Reddy C S, 1981, Basic StructuralAnalysis, Tata McGrawHill Publishing
CompanyLimited,NewDelhi.
7 Wang C K, 1983, Intermediate Structural Analysis, McGrawHill
International Editions,CivilEngineeringSeries.
EvaluationScheme
Thequestionswillcoverallthechaptersofthesyllabusasfaraspracticable.
Theapproximatemarkallocationtothequestionsisproposedtobeas
indicatedinthetablebelow:
Chapters Hours Markdistribution*
1
8
15
2 12 25
3 15 25
4 4 5
5 6 10
Total 45 80
*Theremaybeminorvariationinmarksdistribution
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9
EditionNewAgeInternationalpublishers,2000
4. Soil mechanics and Foundation Engineering K. R. Arora Standard
PublisherDistribution1997
5.
A Text Book of Soil Mechanics and Foundation Engineering in SI units
V.N.S.MurthyUBSPublishersDistributorsLtd.FourthEdition1993.6.
A Text Book of Foundation Engineering, Dr. R.K.Poudel and R.Neupane,
1stEdition,2006.
7. Pile Foundation Analysis and Design H.G.Poulos and E.H.Davis, John
WileyandSons,1980
EvaluationScheme:
Thequestionswillcoverallthechaptersinthesyllabus.Theevaluationscheme
willbeasindicatedinthetablebelow:
Chapter HoursMark
Distribution*
1. 1 2
2. 6 12
3. 10 16
4. 3 4
5. 3 4
6. 6 12
7.
3 6
8. 6 12
9. 4 8
10. 3 4
Total 45 80
*Theremaybeminordeviationinmarksdistribution.
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11
WATERSUPPLYENGINEERING
Lecture
:
3
Year
:
III
Tutorial : 1 Part : I
Practical : 1
CourseObjective:
This course is aimed at teaching the students the functions of the various
componentsofthewatersupplysystem,waterresourcesandtheirutilization,
determination of water demand, water quality, intake construction, water
treatmenttechnologyandconstructionofwatermainsanddistribution.
1. Introduction [2hours]
1.1.
Importanceofwater
1.2. Definitionoftypesofwater
1.2.1.
Pureandimpurewater
1.2.2. Potableandwholesomewater
1.2.3. Pollutedandcontaminatedwater
1.3.
Historicaldevelopmentofwatersupplysystem
1.4.
Objectives
of
water
supply
system
1.5.
Schematicdiagramoftypicalwatersupplysystem
1.6. Componentsofwatersupplysystemandtheirfunctions
2. SourcesofWater [4hours]
2.1. Classificationofsourcesofwater
2.2. Surfacesources
2.2.1.
Rivers
2.2.2.
Streams
2.2.3.
Lakes
2.2.4.
Ponds
2.2.5.
Impoundedreservoir
2.2.6. Numericaloncapacitydetermination ofimpoundedreservoir
2.3. Groundsources
2.3.1.
Confinedandunconfinedaquifers
2.3.2.
Springs
2.3.3.
Wells
2.3.4.
Infiltrationgalleriesandwells
2.4.
Selectionofwatersources
3. QuantityofWater [5hours]
3.1.
Percapitademandofwater
3.2. Designandbaseperiods
3.2.1. Typicaldesignandbaseperiods
3.2.2. Selectionbasis
3.2.3. Designandbaseyears
3.3. Typesofwaterdemand
3.3.1. Domesticdemand
3.3.2. Livestockdemand
3.3.3. Commercialdemand
3.3.4. Public/municipaldemand
3.3.5.
Industrialdemand
3.3.6. Firefightingdemand
3.3.7. Lossandwastage
3.3.8. Totalwaterdemand
3.4. Variationindemandofwater
3.5. Peakfactor
3.6. Factorsaffectingdemandofwater
3.7.
Populationforecasting necessityandmethods
3.7.1.
Arithmeticalincreasemethod3.7.2. Geometricalincreasemethod
3.7.3.
Incrementalincreasemethod
3.7.4. Decreaserateofgrowthmethod
3.8.
Numericalonpopulationforecastingandwaterdemands
4. QualityofWater [5hours]
4.1.
Impuritiesinwater,theirclassificationandeffects
4.1.1. Suspendedimpurities
4.1.2.
Colloidalimpurities
4.1.3. Dissolvedimpurities
4.2.
Hardnessandalkalinity
4.2.1.
Typesofhardness
4.2.2. Typesofalkalinity
4.2.3. Relationbetweenhardnessandalkalinity
4.2.4. Numericalonhardnessandalkalinity
4.3. Livingorganismsinwater
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4.3.1.
Algae
4.3.2.
Bacteria
4.3.3.
Viruses
4.3.4. Worms
4.4. Waterrelateddiseases
4.4.1. Waterbornediseases
4.4.2. Waterwasheddiseases
4.4.3. Waterbaseddiseases
4.4.4. Watervectordiseases
4.4.5. Transmissionroutes
4.4.6. Preventivemeasures
4.5. Examinationofwater
4.5.1.
Physical examination of water(tests for temperature, color
andturbidity)
4.5.2.
Chemical examination of water (tests for pH, suspended,
dissolvedandtotalsolids)
4.5.3.
Biologicalexaminationofwater(multipletubeandmembrane
fermentationmethod),mostprobablenumber
4.6. Waterqualitystandardfordrinkingpurpose
5. Intakes [3hours]
5.1. Definition
5.2. Siteselectionofanintake
5.3. Classificationofintake
5.4. Characteristics ofintake
5.4.1.Riverintakes
5.4.2.Reservoirintake
5.4.3.
Springintake
6. WaterTreatment [14hours]
6.1.
Objectivesofwatertreatment
6.2.
Treatmentprocessesandimpurityremoval
6.3.
Screening
6.3.1.
Purpose
6.3.2. Coarse,mediumandfinescreens
6.4. PlainSedimentation
6.4.1.
Purpose
6.4.2. Theoryofsettlement
6.4.2.1.
DerivationofStoke'slaw
6.4.2.2.
Temperatureeffectonsettlement
6.4.3.
Idealsedimentationtank
6.4.4.
Typesofsedimentationtank
6.4.5. Designofsedimentationtank
6.4.6. Numericalontheoryanddesignofsedimentationtank
6.5. Sedimentationwithcoagulation
6.5.1. Purpose
6.5.2. Coagulants(typesandtheirchemicalreactions)
6.5.3. Mixingdevices(purposeandtypes)
6.5.4. Flocculationtanks
6.5.5. Clarifier
6.5.6. Jartest
6.6.
Filtration
6.6.1. Purpose
6.6.2. Theoryoffiltration
6.6.3. Typesoffilters
6.6.3.1. Slowsandfilter
6.6.3.2. Rapidsandfilter
6.6.3.3. Pressurefilter
6.6.4.
Numericalondimensionsandunitsoffilters
6.7.
Disinfection 6.7.1. Purpose
6.7.2.
Methodsofdisinfection(introduction only)
6.7.3. Chlorination(theory,chlorinedemand,chlorinedose,residual
chlorine,contacttime
6.7.4. Types of chlorine (hypochlorites, chloramines, liquid/gas
chlorine)
6.7.5.
Forms of chlorination (plain chlorination, pre chlorination,
post chlorination, double chlorination, multiple chlorination,
breakpointchlorination,superchlorination,dechlorination)
6.7.6.
Factorsaffectingefficiencyofchlorination
6.8. Softening
6.8.1. Purpose
6.8.2. Removaloftemporaryhardness
6.8.2.1. Boilingmethod
6.8.2.2.
Limetreatmentmethod
6.8.3.
Removalofpermanenthardness
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6.8.3.1.
Limesodamethod
6.8.3.2.
Zeolitemethod
6.8.3.3.
Ionizatonmethod
6.9. Miscellaneoustreatments
6.9.1. Aeration
6.9.1.1. Purpose
6.9.1.2. Methodsofaeration
6.9.2. Removalofironandmanganese
6.9.3. Removalofcolor,odorandtaste
7. ReservoirsandDistributionSystem [6hours]
7.1. Systemofsupply
7.1.1. Continuoussystem
7.1.2.
Intermittentsystem
7.2. Clearwaterreservoirs
7.3. Servicereservoirs
7.3.1. PurposeandConstruction
7.3.2. Typesofservicereservoirs
7.4. Numericaloncapacitydeterminationofservicereservoirs
7.5. Layoutofdistributionsystem
7.5.1.
Treesystem
7.5.2.
Gridironsystem7.5.3. Ringsystem
7.5.4.
Radialsystem
7.6. Designofdistributionsystem
7.6.1.
Pipehydraulics
7.6.2. Designcriteria
7.6.3. Designsteps
7.6.4.
Hardcrossmethod
7.7. Numerical on design of branched and looped water distribution
systems
8. ConveyanceofWater [3hours]
8.1.
Pipematerials
8.1.1. Requirementsofgoodmaterial
8.1.2.
Typesof pipe material CI,GI, steel, concrete, PVC, PPR, DI
pipes
8.2. Pipejoints
8.2.1. Purpose
8.2.2.
Types socket and spigot, flanged, expansion, collar and
screwedsocketjoints
8.3.
Layingofpipes
9. ValvesandFittings [3hours]
9.1.
Valves
9.1.1. Purpose
9.1.2. Typessluice,reflux,safety,airanddrainvalves
9.2.
Fittings
9.2.1. Purpose
9.2.2.
Typesstopcocks,watertaps,bends,reducers,tees
9.3.
Breakpressuretankpurposeandconstruction
9.4.
Publicstandpost
9.4.1.
Purpose
9.4.2. Location
9.4.3.
flows
9.4.4. Construction
9.5.
Maintenanceofwatersupplysystem
9.5.1. Necessity
9.5.2.
Methodsregularandemergency
References:
1
BC. Punmia, Ashok Kuamr Jain and Arun Kumar Jain, "Water Supply
Engineering",LaxmiPublications(P)Ltd.,NewDelhi,1998
2 P.N.Modi,"WaterSupplyengineering",StandardBookHouse,Delhi,1998
3
G.S. Birdie and J.S. Birdie, "Water Supply and Sanitary Engineering",
DhanpatRaiPublishingCompany(P)Ltd,.NewDelhi,2002
4 K.N. Duggal, "Elements of Environmental Engineering"' S. Chand and
companyLtd..,NewDelhi,1997
Practical:
1.
Determinationoftemperature,color,turbidityandpH2. Determinationofsuspended,dissolvedandtotalsolids
3.
DeterminationdissolvedoxygenbyWinklermethod
4.
Determinationofoptimumdoseofcoagulantbyjartestapparatus
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Tutorials:
1. Introduction (1hour)
Definitions, Schematic diagrams of typical Urban and Rural water supply
systems
2.
Sourcesof
Water
(1
hour)
Definitions,Numericaloncapacitydeterminationof impoundedreservoir
byanalyticalmethod
3. QuantityofWater (2hours)
Definitions,Numerical onpopulation forecastingbyArithmetical Increase
Method,GeometricalIncreaseMethod,IncrementalIncreaseMethodand
Decrease Rate of Growth Method, Numerical on determination of water
demandsofacommunity
4. QualityofWater (2hours)
Definitions,
Relation
between
hardness
and
alkalinity,
Numerical
on
hardnessandalkalinity,Numericalonwaterquality
5. Intakes (1hour)
Definitions,TypicalfiguresofRiver,ReservoirandSpringintakes
6. WaterTreatment (3hours)
Definitions, Derivation of Stoke's law of settlement, Design criteria of
sedimentation tank, Numerical on theory and design of sedimentation
tank,Numericalondeterminationofsizeandnumbersoffilters,Numerical
onchlorinedemand,chlorinedoseandresidualchlorine
7. ReservoirsandDistributionSystem (3hours)
Definitions, Consumption pattern, Criteria of service reservoir capacity
determination, Numerical on determination of service reservoir capacity,
Pipe hydraulic, Design criteria of distribution systems, Derivation of flow
correctionbyHardyCrossMethod
8. ConveyanceofWater (1hour)
Definitions,Typicalfiguresofpipejoints
9. ValvesandFittings (1hour)
Definitions,Typicalfiguresofvalves
EvaluationScheme:
Thequestionswillcoverallthechaptersofthesyllabus.Theevaluationscheme
willbeasindicatedinthetablebelow.
ChaptersLecture
Hours
Tutorial
Hours
Marks
Distribution*
1 2 1 4
2 4 1 4
3 5 2 8
4 5 2 8
5 3 1 8
6 14 3 247 6 3 16
8 3 1 4
9 3 1 4
Total 45 15 80
*Theremaybeminorvariationinmarksdistribution
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9. Masonrystructuresunderlateralloads [5hours]
9.1. Performanceofmasonrystructuresinlateralloads
9.2. Failurebehaviorofmasonrystructuresinlateralloads
9.3.
Inplaneandoutofplanebehaviorofmasonrystructures
9.4.
Ductilebehaviorofreinforcedandunreinforcedmasonrystructures9.5.
Calculationofstressesforlateralloads
9.6.
Elementsoflateralloadresistingmasonrysystem
10. Testingofmasonryelements [3hours]
10.1.
Compressivestrengthofbricksandwalls
10.2.Diagonalsheartest
10.3.Nondestructivetests Elasticwavetomography,Flatjack,Pushshear
testandothers
Laboratories
PartI:ConcreteTechnology
1. Gradation/Properties ofaggregates
2.
ConcreteMixdesign:Nominalmix,DoE,ACIandISMethod
3. Testofconcretecubes,cylinders,prisms
4.
Nondestructivetesting
PartII:MasonryStructures
5.
TestofbricksonCompression
6. TestofwallonCompression
7. DemonstrationofNondestructivetest
References
1.
A.M. Neville, J.J. Brook, Concrete Technology, International Students'
Edition
2. M. S. Shetty, Concrete Technology: Theory and Practice, S. Chand, New
Delhi,2005
3. P.K.Mehta,Pauloj.M.Monteiro,Concrete,Microstructure, Propertiesand
Materials,UniversityofCalifornia,Berkley(IndianEdition)
4.
A.S. Arya, Masonry and Timber Structures including earthquake resistant
Design,NemChandraandBros,Roorkee,1987
5. A.W.handry,B.P.Sinha,S.R.Davies,An IntroductiontoLoadBearingBrick
Design,UniversityofEdinburgh,1981
6. P. Dayaratnam, Brick and Reifnorced Brick Structures, Oxford and IBH
PublishingCo.Pvt.Ltd.1987
7.
IS456,2000
8. IS383,1970
9. IS1905/SP20
10.
NepalNationalBuildingCode(NBC)109,1994
Evaluationscheme
Thequestionswillcoverallthechaptersinthesyllabus.Theevaluationscheme
willbeasindicatedinthetablebelow:
Chapters
Hours
Marks
distribution*
1 4 6
2 3 6
3 6 12
4 3 6
5 6 12
6 3 6
7 4 6
8 8 12
9 5 8
10 3 6
Total 45 80
*Theremaybeminorvariationinmarksdistribution
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Tutorials:
1. Estimationofmissingrainfalldata (1hour)
2. Testforinconsistenciesofrainfalldata (1hour)
3.
Estimationofmeanrainfalloveranareaby3methods (1hour)
4.
EstimationofPotentialevapotranspirationbyPenmansequation (1hour)5.
UseofHortonsequationandproblemsrelatedto
infiltrationindices (1hour)
6. Dischargecomputationbyvelocityareaandslopeareamethods (1hour)
7. Determinationofstageatzerodischargeandpreparationofrating
curve (1hour)
8. Derivationofunithydrographsfromisolatedandcomplexstorms (2hour)
9. Derivationofunithydrographsofdifferentdurations (1hour)
10. DrainagebasinCharacteristics (1hour)
11.
Estimationof
design
frequency
of
adesign
flood
(1
hour)
12.
Estimationoffloodsbyplottingpositionsanddistributions (1hour)
13.
EstimationoffloodsbyRationalandEmpiricalmethods (1hour)
14. FlowroutingandClarkUH (1hour)
Practical:
RainfallRunoffSimulation
Fieldvisitatmeteorologicalstation
Streamflowmeasurementbyvelocityareamethod(Currentmeterand
Floats)
Streamflowmeasurementbydilutiontechniques.
RecommendedBooksandReferences:
1.
EngineeringHydrologybyK.Subramanya,TataMcGrawHillPublishingCo.,NewDelhi
2. AppliedHydrologybyV.T.Chow,D.R.MidmentandL.W.Mays,McGrawHill
International
3.
EngineeringHydrologybyR.S.Varshney,NemChand&Bros.,Roorkee
4. HydrologyforEngineersbyLinsley,KohlerandPaulhus,McGrawHill
InternationalCo.
5. EngineeringHydrologybyB.L.Gupta,StandardPublishersandDistributors,
NewDelhi
EvaluationScheme:
Thequestionswillcoverallthechaptersinthesyllabus.Theevaluationscheme
willbeasindicatedinthetablebelow
Chapter
Hours
Marks
Distribution*
1 2 4
2 8 12
3 8 14
4 8 14
5 7 14
6 7 14
7 5 8*Theremaybeminorvariationinmarksdistribution
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19
B.E.
InstituteofEngineering
Civil
III
Year
II
Part
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3. WritingProposal 6periods
3.1. Introduction
3.2.
Partsoftheproposal
3.2.1.
Titlepage3.2.2.
Abstract/Summary
3.2.3.
Statementof Problem
3.2.4. Rationale
3.2.5. Objectives
3.2.6.
Procedure/Methodology
3.2.7. CostestimateorBudget
3.2.8. Timemanagement/Schedule
3.2.9. Summary
3.2.10. Conclusion
3.2.11.
Evaluationorfollowup
3.2.12.
Workscited
4. Reports
4.1.InformalReports 6periods
4.1.1.
MemoReport
4.1.1.1. Introduction
4.1.1.2.
Parts
4.1.2.
LetterReport4.1.2.1. Introduction
4.1.2.2. Parts
4.2.
Project/FieldReport 3periods
4.2.1.
Introduction
4.2.2. Parts
4.3.
Formalreport 9periods
4.3.1.
Introduction 4.3.2.
TypesofFormalReports
4.3.2.1. ProgressReport
4.3.2.2. FeasibilityReport
4.3.2.3.
Empirical/ResearchReport
4.3.2.4.
TechnicalReport
4.3.3.
PartsandComponentsofFormalReport
4.3.3.1. Preliminarysection
4.3.3.1.1.
Coverpage
4.3.3.1.2. Letteroftransmittal/Preface
4.3.3.1.3. Titlepage
4.3.3.1.4.
Acknowledgements
4.3.3.1.5.
TableofContents4.3.3.1.6.
Listoffiguresandtables
4.3.3.1.7.
Abstract/Executivesummary
4.3.3.2. MainSection
4.3.3.2.1.
Introduction
4.3.3.2.2. Discussion/Body
4.3.3.2.3. Summary/Conclusion
4.3.3.2.4. Recommendations
4.3.3.3.
4.3.3.3Documentation
4.3.3.3.1.
Notes(Contextual/footnotes)
4.3.3.3.2. Bibliography
4.3.3.3.3. Appendix
5. WritingResearchArticles 2periods
5.1. Introduction
5.2.
Procedures
References
1. Konar, Nira (2010), Communication Skills for Professional PHI Learning
PrivateLimited,NewDelhi.
2. Kumar,Ranjit(2006),ResearchMethodology, PearsonEducation.
3.
Laxminarayan, K.R (2001), English forTechnicalCommunication.Chennai;
Scitechpublications(India)Pvt.Ltd.
4. Mishra,Sunitaet.al.(2004),Communication SkillsforEngineers,Pearson
EducationFirstIndianprint.
5.
Prasad,P.et.al(2007),ThefunctionalAspectsofCommunicationSkillsS.K.
Kataria&sons.6.
Rutherfoord, Andrea J. Ph.D (2001), Basic Communication Skills for
Technology,PearsonEducationAsia.
7. Rizvi,M.Ashraf(2008),EffectiveTechnicalCommunication.TataMcGrawHill.
8.
ReinkingAJameset.al(1999),StrategiesforSuccessfulWriting:Arhetoric,
research guide, reader and handbook, Prentice Hall Upper Saddle River,
NewJersey.
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DESIGNOFSTEELANDTIMBERSTRUCTURES
Lecture
:
4hrs
Year
:
IIITutorial : 2hrs Part : II
CourseObjective:
Makestudentscapabletodesignordinarysteelandtimberstructures.
Preparestudentsforadvancedknowledgeondesignofcomplexsteeland
timberstructures.
1. SteelStructuresandtheirAnalysisandDesign [4hours]
1.1.
IntroductiontoSteelStructures
1.2.
StructuralSteelandClassificationofSteelSections
1.3.MethodofAnalysisandDesign
1.4.
DesignProcessandBasisforDesign
2. WorkingStressDesignMethod [2hours]
2.1.
BasicAssumptionsinWorkingStressDesign
2.2.
ServiceLoadandPermissibleStresses2.3.
DesigninTension,Compression,BendingandShear
3. LimitStateDesignMethod [3hours]
3.1.SafetyandServiceabilityRequirementsofStructure
3.2.
DifferentLimitStatesforSteelDesign
3.3.
DesignStrengthofMaterialsandDesignLoads
3.4.LimitStateofStrength
3.5.
LimitStateofServiceability
4. ConnectionsinSteelStructures [10hours]
4.1.TypesofConnections
4.2.
WeldedConnections
4.2.1.Weldsandwelding
4.2.2.Designofsimpleweldedconnections
4.2.3.
Designofeccentricweldedconnections
4.3.BoltedConnections
4.3.1.
Boltsandbolting
4.3.2.
Design
of
simple
bolted
connections
4.3.3.
Designofeccentricboltedconnections
4.4.
IntroductiontoRivetedConnection
5. TensionMembers [4hours]
5.1.TypesofTensionMembers
5.2.
SectionalAreaofTensionMember
5.3.DesignofTensionMembersofSimpleandBuiltUpSection
5.4.
DesignofLugAngle
5.5.
TensionSplice
6. CompressionMembers [10hours]
6.1.TypesofCompressionMember
6.2.
BucklingBehaviorofColumn
6.3.DesignofColumnofSimpleandBuiltUpSection
6.4.DesignofLateralBracingofCompressionMember
6.5.DesignofEccentricallyLoadedColumn
6.6.DesignofColumnBases
6.6.1.
Axiallyloadedcolumnbases
6.6.2.Eccentricallyloadedcolumnbases
6.7.
DesignofColumnSplices
7. FlexureMembers [13hours]
7.1.
TypesofBeams
7.2.DesignofSimpleBeam
7.3.DesignofBuiltUpBeam
7.4.DesignofPlateGirder
7.4.1.Elementofplategirders
7.4.2.Preliminarydesign
7.4.3.Designforbending,shear,deflectionandlateralstability
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7.4.4.
Curtailmentofplate
7.4.5.Designofwebandflangesplice
8. DesignofRoofTrusses [4hours]
8.1.
TypesofRoofTrussandComponentsofRoofTruss
8.2.
LoadsonRoofTruss
8.3.DesignofRoofComponents
PARTB:TIMBERSTRUCTURES
9. TimberStructuresandDesignMethods [2hours]
9.1.
IntroductiontoTimberStructures
9.2.
StructuralTimberandFactorsAffectingtheStrengthofTimber
9.3.DesignMethodsandBasisforDesign
10. JointsinTimberStructures [2hours]
10.1.
TypesofJoints
10.2.DesignofBoltedJoints
10.3.DesignofNailedJoints
11. DesignofCompressionMembers [3hours]
11.1.
TypesofTimberColumns
11.2.DesignofTimberColumn
11.3.
IntroductiontoColumnBases
12. DesignofFlexureMember [3hours]
12.1.
TypesofBeams
12.2.DesignofTimberandFlitchedBeam
CourseProject:
ACourseProjectonintegrateddesignofabuilding/industrialstructure
Referencebooks:
1. Limit State Design of Steel Structures S.K. Duggal Tata McGrawHill
PublishingCom.
2. DesignofSteelStructuresK.S.SaiRam,PEARSONEducation
3.
DesignofSteelStructuresL.S.Negi,TataMcGrawHillPublishingCom.
4. DesignofSteelStructuresRamChandra, StandardBookHouse
Evaluationscheme
Thequestionswillcoverallthechaptersinthesyllabus.Theevaluationscheme
willbeasindicatedinthetablebelow:
Chapter HoursMarks
Distribution*
1 4 4
2 2 4
3 3 4
4 10 12
5 4 6
6 10 127 13 14
8 4 6
9 2 4
10 2 4
11 3 6
12 3 4
Total 60 80
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10. Causesandpreventionofcracksinbuildings (2hours)
10.1.Cracks in different components of buildings (walls, roofs, floors,
plasters,windows,RCC,jointsetc.)
10.2.CausesofcracksandRemedialmeasurestocracks
11. Earthquakeprotection&Retrofittinginbuilding (3hours)
11.1.EarthquakeProtectionofBuildings
11.2.
TechniquesofRetrofitting andRetrofittingmaterials
11.3.Destructiveandnondestructivetestsinbuildings
12. Otherservicesinbuilding (4hours)
12.1.Watersupply&sanitation
12.2.
Electrification,CCTVandTelephonenetwork
12.3.
FireProtection
12.4.
Rainwaterharvesting
Assignments: [10marks]
1. Drawings of site plan, foundation trench plan, section and timbering of
foundationtrench.
2. Detaileddrawingsoffoundationstructures.Bondingdetailsofjunctionof
walls.
3.
Detailed
drawings
of
important
building
components
(foundation,
plinth,
andsuperstructure).
4.
Detailingofframesandshuttersofdoorsandwindows;
5.
Drawingplanandsectionofdogleggedstaircase.
6. Isometric view, plan and sections of scaffolding, shoring and
underpinning.
7. Septictank,soakpitandisometricviewofpipelayout.
8. Layoutdrawingofpower,lightcircuitandothernetworks.
Tutorial: 1hour/week
In tutorial class students will be taught to design a residential/office building
andpreparecompleteworkingdrawingswithessentialdetails.
Note:
Student will be allowed to prepare a building plan to work out detailed
drawingsfortutorialexercises.
References:
1. WBMckay,ELBSPublication"BuildingConstruction"
2.
Goyal,M.M.,"HandbookofBuildingConstruction:Theessentialsourceof
standardconstructionpractices",2004,ThomsonPress,
3. Chudey & Greeno, Butterworth & Heinemann, "Building Construction
Handbook",1998
4.
ReidE.,"UnderstandingBuildings",,MITpress
5. Pahari,B.,"PassiveBuilding:Concept&Design",2002,ISBN:9993334243
6. Buildingcode(NS,IS)
7. S.C.Rangawala,"BuildingConstruction"
8.
Ching,FDK,"BuildingconstructionIllustrated"
EvaluationScheme:
Thequestionswillcoverallthechaptersofthesyllabus.Theevaluationscheme
willbeasindicatedinthetablebelow.
Chapters HoursMarks
distribution*
1 7 16
2 5 834 8 16
56 5 8
78 7 12
910 6 8
1112 7 12
Total 45 80
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7. DepreciationandCorporateIncomeTaxes [6hours]
7.1. ConceptandTerminologyofDepreciation
7.2. BasicMethodsofDepreciation
7.2.1.
Straightlinemethod
7.2.2.
DecliningBalanceMethod7.2.3.
SinkingFundMethod,
7.2.4.
SumoftheYearDigitMethod
7.2.5. ModifiedAcceleratedCostRecoverySystem(MACRS)
7.3. IntroductiontoCorporateIncomeTax.
7.4.
AfterTaxCashflowEstimate.
7.5. GeneralProcedureforMakingAfterTaxEconomicAnalysis.
8. InflationandItsImpactonProjectCashflows. [4hours]
8.1. ConceptofInflation.
8.2.
MeasuringInflation
8.3.
EquivalenceCalculationUnderInflation
8.4. ImpactofInflationonEconomicEvaluation
Tutorials:
1.
Assignments,
2.
Quizzesand1Casestudy.
References:
ChanS.Park,ContemporaryEngineeringEconomics,PrenticeHall,Inc.
E.
Paul
De
Garmo,
William
G.
Sullivan
and
James
A.
Bonta
delli,
Engineering
Economy,MCMilanPublishingCompany.
James L. Riggs, David D. Bedworth and Sabah U. Randhawa, Engineering
Economics,TataMCGrawHillEducationPrivateLimited.
EvaluationScheme:
Thequestionswillcoverallthechaptersofthesyllabus.Theevaluationscheme
willbeasindicatedinthetablebelow.
Chapters Hours Marksdistribution
1 3 4
2 6 6
3 8 16
4 6 12
5 6 12
6 6 12
7 6 12
8 4 6
Total 45 80
*Theremaybeminorvariationinmarksdistribution
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DhanpatRaiPublishingCompany(P)Ltd.,NewDelhi,2002
4. K.N. Duggal, "Elements of Environmental Engineering", S. Chand and
CompanyLtd.,NewDelhi,1997
Tutorials:
1. QuantityofWastewater (2hour)
Definitions,Numericalsondeterminationofsanitarysewageandstorm
water,determinationonquantityofwastewaterforseparate,combined
andpartiallyseparatesystems
2. DesignandConstructionofSewers (2hours)
Designcriteriaofsewers,partialflowconditionsinsewers,Numericalson
designofsewersforseparateandcombinedsystems
3. SewerAppurtenances (0hour)
4.
Characteristicsand
Examination
of
Wastewater
(2
hours)
Definitions,NumericalsonBODandBODtesting
5. WastewaterDisposal (2hours)
Definitions,StreeterPhelp'sequationdescription,Numericalson
purificationofrivers/streamsanddegreeoftreatmentrequired
6. WastewaterTreatment (3hours)
Definitions,Numericalsongritchamber,sedimentationtank,trickling
filter,activatedsludgeprocessandoxidationpond
7. SludgeTreatmentandDisposal (2hours)
Definitions,Numericalonsludgevolumedetermination,volumemoisturerelationanddesignofdigesters
8. DisposalofSewagefromIsolatedBuildings (2hours)
Definitions,NumericalsondesignofVIPlatrine,Pourflushlatrine,Septic
tank,DrainfieldandSoakpit
9. SolidWasteDisposal (0hour)
EvaluationScheme:
Thequestionswillcoverallthechaptersinthesyllabus.Theevaluationscheme
willbeasindicatedinthetablebelow
Chapters
Lecture
Hours
Tutorial
Hours
Marks
Distribution*
1 2 0 4
2 4 2 4
3 4 2 8
4 3 0 4
5 5 2 8
6 6 2 8
7 12 3 24
8 4 2 8
9 3 2 8
10 2 0 4
Total 45 15 80
*Theremaybeminorvariationinmarksdistribution
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5.3.1.
TypesofRetainingStructures,RiverTrainingStructures,Land
SlideStabilizationStructuresandGullyControlStructures
6. HighwayMaterials [10hours]
6.1. IntroductionandClassificationofRoadMaterials
6.2.
SubgradeSoil
6.2.1. General
6.2.2.
CharacteristicsofSubgradeSoil
6.2.3.
DesirablePropertiesofSubgradeSoil
6.3. RoadAggregate
6.3.1. DefinitionandClassificationofRoadAggregates
6.3.2.
DesirablePropertiesofRoadAggregates
6.3.3. TestsonRoadAggregatesandtheirSignificance
6.3.4.
ComparingGradationSpecificationandMethodofTranslating
Specification
6.3.5.
CombiningoftheAggregates
6.4. BituminousRoadBinders
6.4.1.
DefinitionandClassificationofRoadBinders
6.4.2. LiquidBitumen:CutbackBitumenandBitumenEmulsion
6.4.3.
TestsonBituminousBinders
6.5. BituminousMixes
6.5.1.
DefinitionandClassification
6.5.2. MarshalMethodofBitumenMixeDesign
Tutorials:
Thereshallberelatedtutorialsexercisedinclassandgivenasregular
homeworkexercises.
Laboratories:
(a)
LosAngelesAbrasionValueandCrushingValueof Aggregates
(b) PenetrationValue;Viscosity;SofteningPointandDuctilityofBitumen
(c) SkidResistanceTestonRoadSurface
(d) MarshallStabilityTestandAsphaltMixDesign
(e)
ExtractionofBitumenfromMixandGradationofAggregateafter
Extraction
ReferenceBooks:
1.
ATextbookonHighwayEngineeringandAirports,S.B.SehgalandK.I.
Bhanot,S.ChandandCo.PublishersLtd.,NewDelhi
2. Principles,PracticeandDesignofHighwayEngineering,S.K.Sharma,S.
ChandandCo.PublishersLtd.,NewDelhi3. HighwayEngineeringDr.S.K.KhannaandDr.C.E.G.Justo,NemChand&
BrosRoorkee(U.P.)
4.
HighwayEngineeringC.A.Flaherty,EdwardArnold(Publishers)Ltd.
5.
CourseManualonTransportationEngineeringP.M.Parajuli,Department
ofCivilEngineering,PulchowkCampus
EvaluationScheme:
Thequestionwillcoverallthechaptersinthesyllabus.Theevaluationschemewillbeasindicatedinthetablebelow:
Chapter HoursMark
distribution*
1.
4 8
2. 4 8
3.
18 32
4.
4 8
5. 5 8
6.
10 16
Total 45 80
*Theremaybeminorvariationinmarksdistribution
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9. WaterLoggingandDrainage [6hours]
9.1. Causes,effectsandpreventivemeasuresofwaterlogging
9.2. Waterlogginganddrainageofirrigatedland
9.3.
Surfacedrainagesystemsandtheirdesign
9.3.1. LayoutplanningforDrainage
9.3.2.
InternaldrainageofBundedfields
9.3.3.
Externaldrainage
9.3.4. Draindesign(waterlevel,maximum&minimumslopesand
crosssections)
9.3.5.
Remodelingofexistingnaturaldrains
9.4. Subsurfacedrainagesystemsandtheirdesign
9.4.1.Layoutofsubsurfacedrainagesystem
9.4.2.Flowofgroundwatertodrainsandspacingoftiledrains
Tutorials: [30hours]
1. Duty,DeltaandPeriodRelation [1hour)
2. IrrigationWaterRequirements (2hoours)
3. SoilMoistureIrrigationRelationandIrrigationInterval (2hours)
4.
Balancingdepthforexcavatingcanals (1hour)
5. Designofstablecanals (1hour)
6.
DesignofAlluvialcanals (2hours)
7.
Designoflinedcanals (1hour)
8.
DesignofGuideBundsandLaunchingApron (2hours)9. DesignofhydraulicstructuresusingKhoslasSeepageTheory (4hours)
10. DesignofslopingglaciesWeirbay (2hours)
11. DesignofCross&HeadRegulators (3hours)
12.
Designofpipeoutlet (1hour)
13.
DesignofVerticalDrop (2hpurs)
14. DesignofSiphonAqueduct (4hours)
15. Designofsurfaceandsubsurfacedrains (2hours)
Assignments&FieldVisit:
1.
Individual assignment on Irrigation Water Requirement using CROPWAT
Software
2. Field visit of an Irrigation System, group presentation and submission of
individualreport
Referencebooks:
1.
Theoryanddesignofirrigationstructures,volumeIandII,RSVarshney,
SCGuptaandRLGupta,NemChandandBros.,Roorkee,1979
2.
IrrigationEngineeringandHydraulicStructures,SKGarg,Delhi,1983
3. IrrigationEngineering,GurcharanSingh
4. DesignManualsforIrrigationprojectsinNepal,PDSPManuals,M.9
DrainageManual,1990
5. HydraulicStructures,P.Novaket.al.,SPONPRESS,2001
EvaluationScheme:
Thequestionswillcoverallthechaptersofthesyllabus.Theevaluationscheme
willbeasindicatedinthetablebelow.
Chapters Hours MarksDistribution
1. 4 5
2. 4 8
3.
3 54. 6 10
5.
8 12
6.
4 8
7. 6 12
8.
4 10
9. 6 10
Total 45 80
*Theremaybeminorvariationinmarksdistribution