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Templates - Indian Institute of Technology Delhi PDF

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Departmental UG Curriculum Implementation Committee DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI Structure for BTech Degree in Civil Engineering (i) Credits distribution 170 (155 + 15 non graded core) 1. Departmental credits 77 (65 – 80) a. Core 59 (55 – 70) b. Elective 18 (at least 10) 2. Outside department credits 68 (55 – 70) a. BS 22 b. EAS 18 c. Huss 15 d. Programme linked 13 (15 maximum BS/EA/ES) i. Civil Engg Materials 3 credits (3-0-0) ii. Mechanics of Fluids 5 credits (3-1-2) iii. Mechanics of Solids 5 credits (3-1-2) 3. Open category credits 10 4. Non-graded core requirement 15 (ii) Proposed slotting pattern for core + Elective + Programme Linked + Open Cat courses III PLC1 DC1G PLC2 PLC3 Bio/EnvSt HuSS1 Intro Dept, (23/25) (2-0-2) (3-0-0) (3-1-2) (3-1-2) (3-0-2/2-0-0) (3-1-0) DCP1G DCP2S, IV DC2S DC3G DC4W DC5E EnvSt/Bio HuSS2 DCP3G, (23.5/25.5) (3-0-0) (3-0-0) (3-1-0) (3-0-2) (2-0-0/3-0-2) (3-1-0) DCP4W DCP5S, V DC6S DC7G DC8W DC9T DC10S DC11S DCP6G, (22) (2-0-0) (3-1-0) (3-0-2) (3-0-0) (3-0-0) (3-0-0) DCP7T VI DC12S DC13S DC14W DC15E OC HuSS3 DCP8S (21) (3-0-0) (2-0-0) (3-0-2) (3-0-2) (3-0-0/2) (3-1-0) (0-0-2) VII DE1 DE2 DE3/OC DE4 DE5/OC HuSS4 DCP9S, (15.5/19.5) (3-0-0/2-0-2) (3-0-0/2-0-2) (3-0-0/2-0-2) (2-0-0) (2-0-0) (3-0-0) SC1 (0-0-8) VIII DE6 DE7 DE8/OC DE9 DE10/OC OC DE11/SC2 (14/20) (3-0-0/2-0-2) (3-0-0/2-0-2) (3-0-0/2-0-2) (2-0-0) (2-0-0) (3-0-0/2) (0-0-8/12) Page 1 of 6 (iii) List of core courses SNo Course type Credits Name of Course Section Lecture (with/without Lab) Courses 1 PLC1 3 (2-0-2) Civil Engg Materials CED - Structural Engg 2 PLC2 5 (3-1-2) Mechanics of Fluids Outside Department (AM) 3 PLC3 5 (3-1-2) Mechanics of Solids Outside Department (AM) 4 DC1G 3 (3-0-0) Engg Geology Geotechnical Engg 5 DC2S 3 (3-0-0) Structural Analysis I Structural Engg 6 DC3G 3 (3-0-0) Soil Mechanics Geotechnical Engg 7 DC4W 4 (3-1-0) Hydraulics Water Resources Engg 8 DC5E 4 (3-0-2) Elements of Surveying Environmental Engg 9 DC6S 2 (2-0-0) Construction Management Structural Engg 10 DC7G 4 (3-1-0) Geotechnical Engg Geotechnical Engg 11 DC8W 4 (3-0-2) Engineering Hydrology Water Resources Engg 12 DC9T 3 (3-0-0) Transportation Engg I Transportation Engg 13 DC10S 3 (3-0-0) Structural Analysis II Structural Engg 14 DC11S 3 (3-0-0) RC Design Structural Engg 15 DC12S 3 (3-0-0) Steel Design Structural Engg 16 DC13S 2 (2-0-0) Construction Practices Structural Engg 17 DC14W 4 (3-0-2) Design of Hydraulic Structures Water Resources Engg 18 DC15E 4 (3-0-2) Environmental Engg Environmental Engg Separate Lab Courses 1 DCP1G 1 (0-0-2) Engineering Geology Lab Geotechnical Engg 2 DCP2S 1 (0-0-2) Structural Analysis Lab Structural Engg 3 DCP3G 1 (0-0-2) Soil Mechanics Lab Geotechnical Engg 4 DCP4W 1 (0-0-2) Hydraulics Lab Water Resources Engg 5 DCP5S 1.5 (0-0-3) Structures & Material (Concrete) Lab Structural Engg 6 DCP6G 1 (0-0-2) Geotechnical Engg Lab Geotechnical Engg 7 DCP7T 1 (0-0-2) Trans Engg Lab Transportation Engg 8 DCP8S 1 (0-0-2) Structures & Material (Steel) Lab Structural Engg 9 DCP9S 1.5 (0-0-3) Structural Desi gn & Detailing Structural Engg (iv) Distribution of Core Credits among various Sections SNo Section Core Credits 1 Structural Engineering 24 2 Geotechnical Engineering 13 3 Water Resources Engineering 13 4 Environmental Engineering 04 5 Transportation Engineering 04 6 Surveying 04 Total Core Credits 62 (v) Proposed Slots for Electives – 18 credits SNo Course type Credits Slots in Semester 1 DE1, DE2, DE3 3 (3-0-0/2-0-2) 3 slots in VII Semester 2 DE4, DE5 2 (2-0-0) 2 slots in VII Semester 3 DE6, DE7, DE8 3 (3-0-0/2-0-2) 3 slots in VIII Semester 4 DE9, DE10 2 (2-0-0) 2 slots in VIII Semester 5 DE11 (Project) 4 (0-0-8) No slot is required in VII and VIII Semesters Page 2 of 6 Students opting for Specialisation only are allowed to register DE11 (Project) in VII Semester as Core and rest students may take DE11 (Project) in VIII Semester as an Elective. (vi) List of Elective courses SNo Name of Course Credits Section DEE1 Industrial Waste Management 3-0-0 Environmental Engg DEE2 Environmental Assessment Methodologies 3-0-0 Environmental Engg DEE3 Air and Noise Pollution 3-0-0 Environmental Engg DEE4 Solid & Hazardous Waste Management – PG 3-0-0 Environmental Engg DEE5 Environmental Risk Assessment – PG 3-0-0 Environmental Engg DEE6 Environmental Impact Assessment– PG 3-0-0 Environmental Engg DEE7 Life Cycle Analysis & Design for Environment– PG 3-0-0 Environmental Engg DEE8 Emerging Technologies for Environmental Management– PG 3-0-0 Environmental Engg DEE9 Thermal Technologies for Waste Management– PG 3-0-0 Environmental Engg DEE10 Design of Water & Waste Water Facilities– PG 3-0-0 Environmental Engg DEE11 Ecology & Eco-system Dynamics– PG 3-0-0 Environmental Engg DEE12 Environmental Systems Analysis– PG 3-0-2 Environmental Engg DEG1 Site Investigation & Ground Improvement 3-0-0 Geotechnical Engg DEG2 Rock Engineering 3-0-0 Geotechnical Engg DEG3 Design of Foundations & Retaining Structures 3-0-0 Geotechnical Engg DEG4 Slopes and Earth Dams 2-0-0 Geotechnical Engg DEG5 Geoenvironmental Engineering 3-0-0 Geotechnical Engg DEG6 Underground Structures 2-0-0 Geotechnical Engg DEG7 Geotechnical Design Studio 2-0-0 Geotechnical Engg DEG8 Soil Dynamics 3-0-0 Geotechnical Engg DEG9 FEM in Geotechnical Engineering 3-0-0 Geotechnical Engg DES1 Structural Dynamics & Earthquake Engineering 3-0-0 Structural Engg DES2 Structural Mechanics & FEM 2-0-2 Structural Engg DES3 Structural Stability & Plastic Analysis 3-0-0 Structural Engg DES4 Advanced Structural Analysis 3-0-0 Structural Engg DES5 Offshore Structures 3-0-0 Structural Engg DES6 Prestressed Concrete: Theory & Applications 3-0-0 Structural Engg DES7 Industrial Structures 2-0-0 Structural Engg DES8 Advanced Concrete Design 3-0-0 Structural Engg DES9 Advanced Concrete Technology 2-0-0 Structural Engg DES10 Advanced Concrete Mechanics 2-0-0 Structural Engg DES11 Advanced Steel Design 3-0-0 Structural Engg DES12 Masonry & Composite Structures 3-0-0 Structural Engg DES13 Construction Equipment 3-0-0 Structural Engg DES14 Construction Project Management 3-0-0 Structural Engg DES15 Infrastructure Planning & Management 3-0-0 Structural Engg DES16 Temporary & Enabling Structures 2-0-0 Structural Engg DES17 Advanced Concrete Lab 0-0-2 Structural Engg DET1 Sustainable Transportation Systems: (i) Non- 2-0-0 Transportation Engg motorised transport, (ii) Public and Intermediate public transport Page 3 of 6 DET2 Introduction to Intelligent Transportation Systems 2-0-0 Transportation Engg DET3 Traffic Flow Modeling Basics 2-0-0 Transportation Engg DET4 Engineering Behavior of Pavement Materials 2-0-0 Transportation Engg DET5 Airport Engineering 2-0-0 Transportation Engg DET6 Railway Engineering 2-0-0 Transportation Engg DET7 Transportation Infrastructure Management 2-0-0 Transportation Engg DET8 Logistics and Freight Transport 2-0-0 Transportation Engg DEW1 Water Resources Management 3-0-0 Water Resources Engg DEW2 Groundwater 2-0-0 Water Resources Engg DEW3 Water Power Engineering 2-0-2 Water Resources Engg DEW4 Groundwater & Surface-water Pollution 2-0-0 Water Resources Engg DEW5 Water Resources Systems 2-0-0 Water Resources Engg DEW6 Computational Aspects in Water Resources 1-0-4 Water Resources Engg DEW7 Urban Hydrology 2-0-0 Water Resources Engg DEW8 River Mechanics 2-0-2 Water Resources Engg DEW9 Mechanics of Sediment Transport – PG 3-0-0 Water Resources Engg DEW10 Geo-informatics 2-0-2 Water Resources Engg DEW11 Fundamental to Geographic Information Systems 2-0-2 Water Resources Engg DEW12 Fundamental to Remote Sensing 2-0-2 Water Resources Engg DEW13 Frequency Analysis in Hydrology 2-0-0 Water Resources Engg (vii) Specialisation – 20 Credits (10 in Lieu of OC + 10 Additional as Project) SNo Course type Credits Slots in Semester 1 SC1 (Project) DE11 4 (0-0-8) No slot is required in VII Semester 2 SC2 (Project) 6 (0-0-12) No slot is required in VIII Semester 3 SC3, SC4 4/5/6 2 slots in VII Semester 4 SC5, SC6 4/5/6 2 slots in VIII Semester In addition to these 20 Specialisation Core (SC) Credits, a student needs to earn 8 Credits from the basket of elective courses of the Specialisation. (viii) Basket of Courses for Specialisation – 18 Credits (Core + Elective) SNo Specialisation Course Name Credits Course type Core Courses 1 Environmental Solid & Hazardous Waste Management 3-0-0 SC-E Engg Environmental Systems Analysis 3-0-2 SC-E Air and Noise Pollution 3-0-0 SC-E Elective Courses Industrial Waste Management 3-0-0 SE-E Environmental Assessment Methodologies 3-0-0 SE-E Environmental Risk Assessment 3-0-0 SE-E Environmental Impact Assessment 3-0-0 SE-E Life Cycle Analysis & Design for 3-0-0 SE-E Environment Emerging Technologies for Environmental 3-0-0 SE-E Management Thermal Technologies for Waste 3-0-0 SE-E Management Page 4 of 6 Design of Water & Waste Water Facilities 3-0-0 SE-E Ecology & Eco-system Dynamics 3-0-0 SE-E Core Courses 2 Geotechnical Geoenvironmental Engineering 3-0-0 SC-G Engineering Geotechnical Design Studio 2-0-0 SC-G Soil Dynamics 3-0-0 SC-G Underground Structures 2-0-0 SC-G Elective Courses Site Investigation & Ground Improvement 3-0-0 SE-G Rock Engineering 3-0-0 SE-G Slopes and Earth Dams 2-0-0 SE-G Design of Foundations & Retaining Structures 3-0-0 SE-G FEM in Geotechnical Engineering 3-0-0 SE-G Core Courses 3 Structural Structural Mechanics and FEM 2-0-2 SC-S Engineering Structural dynamics and earthquake engineering 3-0-0 SC-S Advanced concrete design 3-0-0 SC-S Advanced steel design 3-0-0 SC-S Elective Courses Structural stability and plastic analysis 3-0-0 SE-S Advanced structural analysis 3-0-0 SE-S Offshore structures 3-0-0 SE-S Prestressed concrete: theory and applications 3-0-0 SE-S Industrial structures 2-0-0 SE-S Advanced concrete technology 2-0-0 SE-S Advanced concrete mechanics 2-0-0 SE-S Advanced concrete laboratory 0-0-2 SE-S Masonry and composite structures 3-0-0 SE-S Core Courses 4 Water Resources Water Resources Management 3-0-0 SC-W Engineering Groundwater 2-0-0 SC-W Water Power Engineering 2-0-2 SC-W Groundwater & Surface-water Pollution 2-0-0 SC-W Elective Courses Water Resources Systems 2-0-0 SE-W Computational Aspects in Water Resources 1-0-4 SE-W Urban Hydrology 2-0-0 SE-W River Mechanics 2-0-2 SE-W Mechanics of Sediment Transport 3-0-0 SE-W Geo-informatics 2-0-2 SE-W Fundamental to Geographic Information Systems 2-0-2 SE-W Fundamental to Remote Sensing 2-0-2 SE-W Frequency Analysis in Hydrology 2-0-0 SE-W Design of Water & Waste Water Facilities 3-0-0 SE-W Environmental Impact Assessment 3-0-0 SE-W Page 5 of 6 (Prof B Bhattacharjee) (Prof B R Chahar) (Prof KS Rao) (Chairman) (Convener & SI, WRE) (Member & SI, GE) (Prof BJ Alappat) (Dr S Bishnoi) Dr A K Swamy (Member & SI, EE & Sur) (Member & SI, StE) (Member & SI, TE) Chairman DFB (Head), Civil Engineering Page 6 of 6 Page 1 COURSE TEMPLATE 1. Department/Centre CIVIL ENGINEERING proposing the course 2. Course Title STRUCTURAL ANALYSIS-II (< 45 characters) 3. L-T-P structure 3-0-0 4. Credits 3 5. Course number 6. Status CORE (category for program) 7. Pre-requisites Structural Analysis-I (course no./title) 8. Status vis-à-vis other courses (give course number/title) 8.1 Overlap with any UG/PG course of the Dept./Centre NO 8.2 Overlap with any UG/PG course of other Dept./Centre NO 8.3 Supercedes any existing course NO 9. Not allowed for NA (indicate program names) 10. Frequency of offering Every sem 1st sem 2nd sem Either sem 11. Faculty who will teach the course 12. Will the course require any visiting NO faculty? 13. Course objective (about 50 words): To develop knowledge on the analysis of indeterminate structures 14. Course contents (about 100 words) (Include laboratory/design activities): Determinacy and stability; Method of consistent deformations-Matrix formulation, Application to beams, trusses and frames; Slope-deflection method and Moment-distribution method- Beams and frames with uneven loading, support settlements, dealing with symmetry and anti-symmetry, Non- sway and sway frames; Matrix stiffness method; Matrix flexibility method; Energy methods; Approximate methods of analysis; Direct stiffness method for computer applications including computational aspects and MATLAB Assignments Page 2 15. Lecture Outline (with topics and number of lectures) Module Topic No. of no. hours 1 Stability and determinacy-Static and Kinematic 3 2 Method of consistent deformations-Development and application to 4 beams, trusses and frames 3 Slope-deflection method-Development and application to beams and 8 frames 4 Moment-distribution method 6 5 Matrix stiffness method 6 6 Matrix flexibility method 6 7 Energy methods 3 8 Approximate methods of analysis; 2 9 Direct stiffness method for computer applications 4 10 11 12 COURSE TOTAL (14 times ‘L’) 42 16. Brief description of tutorial activities 17. Brief description of laboratory activities Module Experiment description No. of no. hours 1 2 3 4 5 6 7 8 9 10 COURSE TOTAL (14 times ‘P’) 18. Suggested texts and reference materials STYLE: Author name and initials, Title, Edition, Publisher, Year. • Wang, C. K., (1952), Indeterminate Structural Analysis, Tata McGraw Hill Publishing. • Yuan Yu Hsieh, (1987), Elementary Theory of Structures, 3rd edition, Prentice Hall. • Hibbeller, R. C., (2002), Structural Analysis, 6th Edition, Pearson Education. • Kinney, J.S., Indeterminate Structural Analysis ,Oxford IBH Publishing Company. • Reddy, C. S., Basic Structural Analysis, Tata McGraw Hill Publishing. • Ghali, A. and Neville, A. M., (2003), Structural Analysis (Unified Classical and Matrix Approach), 5th Edition, Chapman and Hall, Ltd. 19. Resources required for the course (itemized & student access requirements, if any) Page 3 19.1 Software 19.2 Hardware 19.3 Teaching aides (videos, etc.) 19.4 Laboratory 19.5 Equipment 19.6 Classroom infrastructure 19.7 Site visits 20. Design content of the course (Percent of student time with examples, if possible) 20.1 Design-type problems 20.2 Open-ended problems 20.3 Project-type activity 20.4 Open-ended laboratory work 20.5 Others (please specify) Date: (Signature of the Head of the Department) Page 1 COURSE TEMPLATE 1. Department/Centre Civil Engineering proposing the course 2. Course Title REINFORCED CONCRETE DESIGN (< 45 characters) 3. L-T-P structure 3-0-0 4. Credits 3 5. Course number 6. Status Core (category for program) 7. Pre-requisites None (course no./title) 8. Status vis-à-vis other courses (give course number/title) 8.1 Overlap with any UG/PG course of the Dept./Centre No 8.2 Overlap with any UG/PG course of other Dept./Centre No 8.3 Supercedes any existing course No 9. Not allowed for NA (indicate program names) 10. Frequency of offering Every sem 1st sem 2nd sem Either sem 11. Faculty who will teach the course 12. Will the course require any visiting faculty? 13. Course objective (about 50 words): To develop knowledge on the basic design principles of concrete structures based on design standards 14. Course contents (about 100 words) (Include laboratory/design activities): Design Philosophy: Working stress and limit state design concepts; Design of and detailing of RC beam sections in flexure, shear, torsion and bond; Design for serviceability; Design of RC beams, One way and two way RC slabs, RC short and long columns, RC footings.

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DEPARTMENT OF CIVIL ENGINEERING, IIT DELHI .. Industrial structures . bases, Gantry and plate girders; Roof trusses; Plastic design; Introduction to AISC Manual of Steel Construction, LRFD, Third Edition, American Institute for.
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Most books are stored in the elastic cloud where traffic is expensive. For this reason, we have a limit on daily download.