Course COURSE CURRICULUM FOR THE NEW PROGRAMME (DD-TFE/CADA/CIM) w.e.f. 2 BATCH Semester I Course Semester II MA 5 Calculus 8 PH 7 Quantum Physics 2 MA Linear Algebra 2 4 CH 5 Organic Chemistry & Inorganic Chemistry 2 4 MA 8 Ordinary Differential Equations 2 4 CH 7 Physical Chemistry 2 4 PH 8 Electricity and Magnetism 2 *CS / +BB Computer Programming/ Biology 2 *CS / +BB Computer Programming/ Biology 2 ME Workshop Practice 4 ME 9 Engineering Graphics & Drawing 5 *PH 7/ +CH 7 Physics Lab Chemistry Lab *PH 7/ +CH 7 Physics Lab Chemistry Lab ME 2 Data Analysis & Interpretation 2 **CE 2 Engineering Mechanics 2 NC # National Cadet Corps (NCC) P/NP NC 2# National Cadet Corps (NCC) P/NP NO # National Sports Organization (NSS) P/NP NO 2# National Sports Organization (NSS) P/NP NS # National Service Scheme (NSS) P/NP NS 2# National Service Scheme (NSS) P/NP Total Credits 4 Total Credits 4 * Any one of these two courses and any one of these Lab courses only for D D4 + Only for D D2 # Any one of these three P/NP courses * Any one of these two courses and any one of these Lab courses only for D D2 ** Engineering Mechanics offered by Civil Engineering Department is the DIC + Only for D D4 # Any one of these three P/NP courses
Course MECHANICAL ENGINEERING MECHANICAL ENGINEERING DEPARMENT COURSE CURRICULUM FOR THE NEW PROGRAMME (DD-TFE/CADA/CIM) w.e.f. 2 BATCH Semester III Course Semester IV ME 2 Solid Mechanics 2 ME 22 Strength of Materials 2 ME 29 Thermodynamics 2 ME 22 Mechanical Measurement 2 EE Introduction to Electrical and Electronics Circuits 8 ME 2 Manufacturing Processes I 2 MM 27 Engineering Metallurgy 2 MA 24 Numerical Analysis 8 ME 29 Fluid Mechanics 8 ME 224 Fluid Mechanics Lab. HS Economics 2 ME 28 Solid Mechanics Lab ME 2 Manufacturing Practice Lab 5 Total 4 Total 7 2
Course COURSE CURRICULUM FOR THE NEW PROGRAMME (DD-TFE) w.e.f. 2 BATCH Semester V Course Semester VI ME 4 Heat Transfer 2 ME Applied Thermodynamics 2 ME Microprocessor and Automatic Controls 2 ME Kinematics and Dynamics of Machines 2 ME 8 Manufacturing Processes II 2 HS Psychology or Sociology ES 2 Environmental studies, Science& Engineering HS 2 Environmental Studies ME 74 Manufacturing Processes Lab ME 7 Kinematics and Dynamics of Machines Lab ME 7 Mechanical Measurements Lab ME 72 Heat Transfer and Metrology Lab ME Advanced Thermodynamics ME 8 Industrial Engg. and Operations Research ME 5 Fluid Dynamics 2 ME Microprocessor and Automatic Controls Lab. 2 Department Elective I Total 42 Total 9
Course COURSE CURRICULUM FOR THE NEW PROGRAMME (DD-TFE) w.e.f. 2 BATCH Semester VII Course ME 42 Machine Design 2 2 8 Semester VIII Department Elective IV Department Elective II Department Elective V Department Elective III Institute Elective I Department Elective VI Department Elective VII Institute Elective II ME 44 Applied Thermodynamics Lab ME 57 TFE Lab. ME Advanced Heat Transfer ME 74 Computational methods in thermal and fluid engineering 4 Total 4 Total 4
Course COURSE CURRICULUM FOR THE NEW PROGRAMME (Dual Degree TFE) w.e.f. 2 BATCH Semester IX Course Semester X Department ElectiveVIII ME Dual Degree Project (Stage II) 42 Department ElectiveIX ME Dual Degree Project (Stage I) * Total 42 Total 42 * for summer and 2 for semester IX. Important Instructions and List of Electives for Dual Degree TFE (i) DD (TFE) program consists of 94 credits including credits for electives for the B.Tech. part, 2 institute elective,24 credits for honors, 24 credits for postgraduate level courses and 72 credits for DD project. (ii) For honors each student must take ME 74 and elective courses (8 credits). (iii) For B.Tech. electives, each student much select courses from *List A* given in BTech Curriculum (iv) For electives (for the honors part), each student must select courses from the elective list B-TFE given below. (iv) For 4 postgraduate level courses, each student takes ME 5, ME 57, ME and ME. (v) For the 2 Institute Electives, follow the rule given in BTech Curriculum. List B - TFE. ME 4: Internal Combustion Engines 5
2. ME 4: Steam and Gas Turbines. ME 42: Computational Fluid Dynamics and Heat Transfer Lab 4. ME 45: Computational Fluid Dynamics and Heat Transfer 5. ME 44 Finite Element and Boundary Element Methods. ME 45: Automobile Engineering (Transmission) 7. ME 477: Introduction to Optimization 8. ME : Finite and Boundary Element Methods 9. ME 8: Pressure Vessel Design. ME 2/49: Cryogenics Engineering II. ME 52 : Advance Fluid Dynamics 2. ME 2: Convective Heat and Mass Transfer. ME 4: Advanced Finite and Boundary Element Methods 4. ME 5: Conduction and Radiation 5. ME : Heat Exchanger Design. ME 78: Fundamentals of Gas Dynamics 7. ME 8: Two Phase Flow and Heat Transfer/ ME 48 8. ME 8: Thermal and Environmental Engineering 9. ME 8/42: Cryogenic Engineering I 2. ME 84: Air Conditioning System Design 2. ME 85: Analytical Combustion 22. ME 95: Introduction to Nuclear Engineering 2. ME 724: Essentials of Turbulence 24. ME 725: Introduction to Transport Phenomena 25. ME 78 Nuclear Reactor Thermal Hydraulics 2. ME 79 Combustion & Emissions in IC Engines
27. ME 74 Turbulence and Combustions Modeling 28. ME 74 Optical Methods in Mechanical Engineering 29. ME 747 Interfacial Transport Phenomena. ME 4/758 Microfluidics*. ME 757 Galerkin Methods for Fluid Dynamics 2. ME 7/ME 445 Fuels and Combustion. ME 7 Geophysical Fluid Dynamics 4. ME 7 High Performance Scientific Computing 5. ME 79 Combustion in Automobile and Gas Turbine Engines. ME 77 Thermal Design of Electronics Equipment 7. ME 77 Fluid Structure Interaction. 8. ME 778 Moving Boundary Problems in Solidification 9. ME 78 Introduction to Biofluid Mechanics 4. EN : Non-ConventionalEnergy Sources. 4. EN 4: Fuel Cells 42. EN : Nuclear Reactor Theory 4. EN 5: Wind Energy Conversion Systems 44. EN : Direct Energy Conversion 45. EN 8: Energy Systems Modeling and Analysis 4. EN 9: Solar Energy for Industrial Process Heat 47. EN : Utilization of Solar Thermal Energy 48. EN 2: Waste to Energy 49. EN 4: Nuclear Reactor Thermal Hydraulics and Safety 5. EN 4: Solar Photovoltaic: Fundamentals, Technologies and Applications 5. EN 42: Power Generation and Systems Planning 7
52. EN 48: Combustion Engineering 5. AE 7: Numerical Methods for Conservation Laws 54. AE 22: Computing of High Speed Flows 55. AE 24: Hypersonic Flow Theory 5. AE 75: Introduction to Flight 57. AE 7: Computational Fluid Dynamics 58. AE 77: Aerodynamics of Aerospace Vehicles 59. AE 7: Aircraft Propulsion. AE 722: Grid Generation for Computational Mechanics. AE 724: Experimental Methods in Fluid Mechanics 2. AE 72: Heat Transfer Aerospace Applications. AE 77: Matrix Computations 4. AE 782: Flow Control Important Note : Students are permitted to register for only one out of these two courses:. ME 2 (Fatigue, Fracture and Failure Analysis) 2. ME Fracture Mechanics If a course has two course s ( Eg. Microfluidics - ME4 and ME758), you may register for the course only once with a course suitable to you 8
Course COURSE CURRICULUM FOR THE NEW PROGRAMME (DD- CADA.) w.e.f. 2 BATCH Semester V Course Semester VI ME 4 Heat Transfer 2 ME Applied Thermodynamics 2 ME Microprocessor and Automatic Controls 2 ME Kinematics and Dynamics of Machines 2 ME 8 Manufacturing Processes II 2 HS Psychology or Sociology ES 2 Environmental studies, Sci & Eng HS 2 Environmental Studies ME 74 Manufacturing Processes Lab ME 7 Kinematics and Dynamics of Machines Lab ME XXX Mechanical Measurements Lab ME 72 Heat Transfer and Metrology Lab Department Elective I ME 8 Industrial Engg. and Operations Research Department Elective II ME Microprocessor and Automatic Controls Lab. 2 Department Elective III Total 42 Total 9 9
Course COURSE CURRICULUM FOR THE NEW PROGRAMME (DD-CADA.) w.e.f. 2 BATCH Semester VII Course Semester VIII ME 42 Machine Design 2 2 8 Department Elective VIII Department Elective IV Department Elective IX Department Elective V Department Elective X Department Elective VI Department Elective VII Institute Elective I Department Elective XI Department Elective XII Institute Elective II ME 44 Applied Thermodynamics Lab Total 4 Total Course COURSE CURRICULUM FOR THE NEW PROGRAMME (Dual Degree CADA) w.e.f. 2 BATCH Semester IX Course Semester X Department Elective XIII ME Dual Degree Project (Stage II) 42 Department Elective XIV ME Dual Degree Project (Stage I) Total 42 Total 42
Important Instructions and List of Electives for Dual Degree CADA i) DD (CADA) program consists of 94 credits including credits for electives for the B.Tech. part, 2 institute elective,24 credits for honors, 24 credits for postgraduate level courses and 72 credits for project. (ii) For honors each students must take 4 electives (24 credits) from the elective list B- CADA (iii). For 4 postgraduate level courses (24 credits), students have to take 4 courses from the elective list B- CADA (iii) For B.Tech. electives, each student much select courses from *List A* given in BTech Curriculum (v) For the 2 Institute Electives, follow the rule given in BTech Curriculum List B- CADA.ME 4 2.ME 5.ME 44 4.ME 477 5.ME.ME 2 Analytical Methods in Engineering Applications Mechanization Finite Element and Boundary Element Methods Introduction to Optimization Computational Structural Dynamics Acoustics and Hearing 7. ME Finite and Boundary Element Methods 8. ME Stress Analysis 9.ME 2 Fatigue, Fracture and Failure Analysis *. ME Kinematics and Dynamics of Machinery. ME 4 Robotics 2. ME Computer Aided Design of Machines. ME 2 Design of Mechatronic System 4. ME Computational Structural Dynamics 5. ME 2 Acoustics and Hearing
. ME 5 Machinery Vibration and Diagnostics 7. ME Fracture Mechanics 8. ME 7 Rapid Product Development 9. ME 8 Pressure Vessel Design 2. ME2 Mathematical Methods for Mechanics and Dynamics 2. ME 7 Manufacturing Automation 22. ME 9 Linear Systems Theory 2. ME45 MEMS Design, Fabrication and Characterisation 24. ME 47 Automatic Control Engineering 25. ME 4 Advanced Finite and Boundary Element Methods 2. ME 7 Industrial Noise Control 27. ME 9 Design for Manufacturing 28. ME 7 Mathematical Methods in Engineering 29. ME 75 Theory of Plasticity. ME 7 Collaborative Engineering. ME 79 Micromechanics of Composites 2. ME 95 Introduction to Nuclear Engineering. ME 7 Vibration Engg. 4. ME 7 Manufacturing Planning and Control 5. ME 72 Computer Numerical Control and Programming. ME 74 Computer Integrated Manufacturing 7. ME 7 Nuclear Safety and Reliability 8. ME74 Vibro-acoustics 9. ME 75 Computer Graphics and Product Modeling 4. ME 74 Optical Methods in Mechanical Engineering 2
4. ME 748 Computer Aided Simulation of Machines 42. ME754 Textile Machines Design & Automation 4. ME 755 Advanced Mechanics of Solid 44. ME 759 Nonlinear Finite Element Methods 45. ME 72 Advanced Engineering Dynamics 4. ME 75 Micro-forming 47. ME 7 High Performance Scientific Computing 48. ME 78 Introduction to Microsystems Packaging 49. ME 77 Reliability modelilng and analysis of engineering systems 5. ME 775 Mechanisms in Crystal Plasticity 5. ME 778 Moving Boundary Problems in Solidification 52. ME 779 Control Systems 5. ME 782 Design Optimization 54. SC Modeling of Dynamic Systems 55. SC 2 Control of Nonlinear Dynamical Systems 5. SC7 Optimization 57. SC 2 Optimal and Robust Control 58. SC 24 Differential Geometric Methods in Control 59. SC 25 Systems Theory. SC4 Wheeled Mobile Robotics. IE 72 Neural Networks Fuzzy Systems and Applications Important Note : Students are permitted to register for only one out of these two courses:. ME 2 (Fatigue, Fracture and Failure Analysis) 2. ME Fracture Mechanics If a course has two course s (Eg. Microfluidics - ME4 and ME758), you may register for the course only once with a course suitable to you
Course COURSE CURRICULUM FOR THE NEW PROGRAMME (DD-CIM.) w.e.f. 2 BATCH Semester V Course Semester VI ME 4 Heat Transfer 2 ME Applied Thermodynamics 2 ME Microprocessor and Automatic Controls 2 ME Kinematics and Dynamics of Machines 2 ME 8 Manufacturing Processes II 2 HS Psychology or Sociology ES 2 Environmental studies, Sci & Eng HS 2 Environmental Studies ME 74 Manufacturing Processes Lab ME 7 Kinematics and Dynamics of Machines Lab ME XXX Mechanical Measurements Lab ME 72 Heat Transfer and Metrology Lab Department Elective I ME 8 Industrial Engg. and Operations Research Department Elective II ME Microprocessor and Automatic Controls Lab. 2 ME74 Computer Integrated Manufacturing Total 42 Total 9 4
Course COURSE CURRICULUM FOR THE NEW PROGRAMME (DD-CIM) w.e.f. 2 BATCH Semester VII Course Semester VIII ME 42 Machine Design 2 2 8 Department Elective VI Department Elective III DepartmentElective VII Department Elective IV Department Elective V ME 49 Institute Elective I Department Elective VII Department Elective IX Department Elective X Institute Elective II ME 44 Applied Thermodynamics Lab Total 4 Total 42 5
Course COURSE CURRICULUM FOR THE NEW PROGRAMME (Dual Degree CIM) w.e.f. 2 BATCH Semester IX Course Semester X Department Elective XI ME Dual Degree Project (Stage II) 42 Department Elective XII ME Dual Degree Project (Stage I) Total 42 Total 42 Important Instructions and List of Electives for Dual Degree CIM (i) DD (CIM) program consists of 94 credits including credits for electives for the B.Tech. part,2 institute elective24 credits for honors, 24 credits for postgraduate level courses and 72 credits for project. (ii) For honors each students must take courses ME 49 and ME 74 and 2 electives (2 credits) from the elective B CIM* (iii) For the postgraduate level courses each student must take 4 electives (24 credits) from the list of electives B CIM*. (iii) For B.Tech. electives, each student much select courses from *List A* given in BTech Curriculum (v) For the 2 Institute Electives, follow the rule given in BTech Curriculum List B CIM* Each student must take minimum 4 courses from Manufacturing courses Manufacturing Courses. ME 4 Analytical Methods in Engineering Applications
2. ME 4 Design of Welded Structure. ME Finite and Boundary Element Methods 4. ME 7 Rapid Product Development 5. ME Advanced Joining Technology. ME 7 Manufacturing Automation 7. ME 478 Management Principles and Practice 8. ME 2 Design of Mechatronic Systems 9. ME 4 Maintenance Engineering and Management. ME 8 Quality Measurement, Monitoring and Improvement. ME Nanomanufacturing Processes 2. ME Advanced Joining Technology. ME 42 Advanced Tool Design 4. ME 45 MEMS Design, Manufacture and Characterisation 5. ME 47 Automatic Control Engineering. ME 49 Advanced Manufacturing Processes I 7. ME 59 Advanced Manufacturing Processes II 8. ME 9 Design for Manufacturing 9. ME 7 Mathematical Methods in Engineering 2. ME 75 Theory of Plasticity 2. ME 7 Collaborative Engineering 22. ME 77 Laser Material Processing 2. ME 79 Micromechanics of Composites 24. ME 7 Manufacturing Planning and Control 25. ME 72 Computer Numerical Control and Programming. 2. ME 728 Intelligent Product Design and Manufacturing 7
27. ME 7 Ultra-precision Machining 28. ME 75 Computer Graphics and Product Modeling 29. ME 74 Optical Methods in Mechanical Engineering. ME 748 Computer Aided Simulation of Machines. ME 75 Sheet Metal Engineering 2. ME 755 Advanced Mechanics of Solid. ME 75 Numerical Modeling of Manufacturing Processes 4. ME 759 Nonlinear Finite Element Methods 5. ME 7 Advanced Stereology and Microstructural Analysis. ME 75 Micro-forming 7. ME 7 High Performance Scientific Computing 8. ME 78 Introduction to Microsystems Packaging 9. ME 772 Processing of Aerospace Materials 4. ME 77 Reliability modelilng and analysis of engineering systems 4. ME 774 Aerospace Materials Processing II 42. ME 775 Mechanisms in Crystal Plasticity 4. ME 778 Moving Boundary Problems in Solidification 44. ME 78 Engineering Data Mining And Applications Industrial Engineering and Operations Research Courses. ME 48 Industrial Engineering and Operations Research II 2. ME 7 Manufacturing Planning and Control. ME 72 Selected Applications of O.R. &AI in Manufacturing systems 4. IE 5 Optimization Models 5. IE 52 Probabilistic Models 8
. IE 5 Operations Analysis 7. IE 54 Service and Infrastructure Systems 8. IE 55 Computer Programming and Algorithms 9. IE Deterministic Models of Optimization and O.R.. IE 2 Service Engineering and Management. IE Discrete Event Systems Simulation 2. IE 4 System Dynamics : Modeling and Analysis. IE 5 Engineering Statistics 4. IE Introduction Stochastic Modeling 5. IE 2 Introduction to Financial Engineering. IE 4 Linear Systems 7. IE Decision Analysis and Game Theory 8. IE 5 Facilities Planning 9. IE 4 Network flow models and Integration 2. IE 45 Industrial Scheduling 2. IE 4 Quality Engineering and Management 22. IE 47 Applications of Integer Programming 2. IE 48 Quantitative Analysis of Finance and Marketing 24. IE 5 Inventory planning and management 25. IE 72 Neural Network & Fuzzy System 2. IE 7 Knowledge based systems and applications 27. IE 74 Selected Topics in AI for Operations Research 28. IE75 Quantitative methods in Project Management 29. IE 7 Pricing and Revenue Management. IE 77 Multi-player Decision Making Models 9
. IE 78 Markov Decision Processes 2. IE 7 O.R Applications in Infrastructure & Service Sectors. IE 72 Selected Applications of Stochastic Models 4. IE 74 Supply Chain Management Important Note:. Students are permitted to register for only one out of these two courses:. ME 2 (Fatigue, Fracture and Failure Analysis) 2. ME Fracture Mechanics 2. If a course has two course s ( Eg. Microfluidics - ME4 and ME758), you may register for the course only once with a course suitable to you. 2