lesson plans - sr engineering college year lesson plan.pdfunderstanding of thermal, structural and...

LESSON PLANS

IV B.Tech. (Mechanical Engineering)

Instruction Schedule

I Semester: 12-06-2017 to 11-10-2017

VISION AND MISSION OF THE INSTITUTE

VISION:

To be among the Top 20 Private Engineering Institutes in India by 2020

MISSION:

Design and implement curriculum that equips students with professional and life skills.

Recruit, develop and retain outstanding faculty to achieve academic excellence

Promote and undertake quality research in thrust areas of science and Technology

Collaborate with industry and academia to meet the changing needs of society

Foster innovation and cultivate the spirit of entrepreneurship among students

VISION AND MISSION OF THE DEPARTMENT

VISION:

To create outstanding mechanical engineers who are innovative and

entrepreneurial

MISSION:

Deliver a comprehensive, industry-responsive curriculum and prepare students as prospective leaders in industry, business and academia

Develop linkages with world class research organizations and educational institutions in India and abroad for excellence in teaching, research and consultancy practices

Build a strong technical workforce that would bridge the gap between industry requirements and academic orientation

Induce entrepreneurial skills among students for contributing to the economic development of the nation

PROGRAM EDUCATIONAL OBJECTIVES

Within a few years of earning the degree in mechanical engineering, graduates are expected to achieve one or more of the following program educational objectives: I. Provide students with a sound foundation in the mathematical, scientific

and engineering fundamentals necessary to formulate, solve, and analyze engineering problems.

II. Develop successful careers as mechanical engineers; demonstrate

professional engineering competence via positions of increasing responsibility.

III. Prepare graduates to pursue higher education in engineering or other

professional fields and/or pursue entrepreneurial endeavors. IV. Participate in research and development, consultancy and other innovative

efforts in science, engineering and technology. V. Build a strong technical workforce to address social, technical and business

challenges through collaboration with industry and academia

Program Outcomes and Program Specific Outcomes

Program Outcome (PO) 1: Engineering knowledge: Apply the knowledge of mathematics, science, engineering fundamentals, and an engineering specialization for the solution of complex engineering problems. Program Outcome (PO) 2: Problem analysis: Identify, formulate, research literature, and analyze complex engineering problems reaching substantiated conclusions using first principles of mathematics, natural sciences, and engineering sciences. Program Outcome (PO) 3: Design/Development of Solutions: Design solutions for complex engineering problems and design system components or processes that meet the specified needs with appropriate consideration for public health and safety, and cultural, societal, and environmental considerations.

Program Outcome (PO) 4: Conduct investigations of complex problems: Use research-based knowledge and research methods including design of experiments, analysis and interpretation of data, and synthesis of the information to provide valid conclusions. Program Outcome (PO) 5: Modern tool usage: Create, select, and apply appropriate techniques, resources, and modern engineering and IT tools including prediction and modeling to complex engineering activities with an understanding of the limitations. Program Outcome (PO) 6: The engineer and society: Apply reasoning informed by the contextual knowledge to assess societal, health, safety, legal and cultural issues and the consequent responsibilities relevant to the professional engineering practice. Program Outcome (PO) 7: Environment and sustainability: Understand the impact of the professional engineering solutions in societal and environmental contexts, and demonstrate the knowledge of, and need for sustainable development. Program Outcome (PO) 8: Ethics: Apply ethical principles and commit to professional ethics and responsibilities and norms of the engineering practice. Program Outcome (PO) 9: Individual and team work: Function effectively as an individual, and as a member or leader in diverse teams, and in multidisciplinary settings. Program Outcome (PO) 10: Communication: Communicate effectively on complex engineering activities with the engineering community and with t h e society at large, such as, being able to comprehend and write effective reports and design documentation, make effective presentations, and give and receive clear instructions Program Outcome (PO) 11: Project management and finance: Demonstrate knowledge and understanding of the engineering and management principles and apply these to one’s own work, as a member and leader in a team, to manage projects and in multidisciplinary environments. Program Outcome (PO) 12: Life-long learning: Recognize the need for, and have the preparation and ability to engage in independent and life-long learning in the broadest context of technological change. Program Outcome (PO) 13: Program Specific Outcome: Function effectively in Industry or as entrepreneurs to solve inter disciplinary problems. Program Outcome (PO) 14: Program Specific Outcome: Demonstrate knowledge and understanding of thermal, structural and manufacturing streams of Mechanical Engineering.

FOREWARD

The LESSON PLANS are prepared and

distributed to the students to help them maintain proper

time schedules, attend classes regularly for better

understanding of the course and to face the

examinations with confidence. The lesson plans also

help students to be up-to-date by keeping track of the

syllabus covered. Students should attend classes

regularly for continuity and prepare their own study

notes for every course.

P R I N C I P A L

Academic Calendar for the Academic Year 2017-18

I Semester

S. No. Description Schedule Duration

1 Commencement of Class work 12.06.2017 --

2 1st Spell of Instruction 12.06.2017 to 05.08.2017 8 Weeks

3

1st Mid Examinations

Timings: FN: 10.00 am to 11.30 am : AN:2.00 pm to 3.30 pm

08.08.2017 to 10.08.2017 3 Days

4 2nd Spell of Instruction (Includes Dasara Holidays) 11.08.2017 to 11.10.2017 9 Weeks

6 2nd Mid Examinations


12.10.2017 to 16.10.2017 3 Days

7 End Semester Regular Examinations / Supplementary Examinations (Theory & Practical)

17.10.2017 to 02.12.2017 7 Weeks

8 Commencement of Class work for II, III, IV B.Tech. II Sem. for the academic year 2016-2017

04.12.2017 --

II Semester

S. No. Description Schedule Duration

1 Commencement of Class work 04.12.2017 --

2 1st Spell of Instruction 04.12.2017 to 27.01.2018 8 Weeks

3

1st Mid Examinations


29.01.2018 to 31.01.2018 3 Days

4 2nd Spell of Instruction 01.02.2018 to 28.03.2018 8 Weeks

5 2nd Mid Examinations


29.03.2018 to 31.03.2018 3 Days

6 End Semester Regular Examinations / Supplementary Examinations (Theory & Practical)

02.04.2018 to 19.05.2018 7 Weeks

7 Commencement of Class work for II, III, IV B.Tech. I Sem. for the academic year 2018-2019

11.06.2018 --

Academic Year: 2017-18 IV B.Tech. I Sem

COURSE STRUCTURE:: B-TECH- (MECHANICAL ENGINEERING)

IV Year I Semester

S.No. Subject Code Name of the Subject L T P/D C Marks

Int. Ext. 1 13ME433 Finite Element Methods 3 1 - 3 30 70

2 13ME434 CAD/CAM 4 1 - 4 30 70

3 13ME435 Refrigeration and Air Conditioning 4 1 - 4 30 70

4 13ME436 Operations Research 3 1 - 3 30 70

5

13ME437A 13ME437B 13ME437C

Elective – I Robotics Advanced Materials Automobile Engineering

3 1 - 3 30 70

6

13ME438A 13ME438B 13ME438C

Elective – II Power Plant Engineering Automation in Manufacturing Rapid Prototyping

3 1 - 3 30 70

7 13ME442 CAD/CAM Laboratory - - 3 2 25 50

8 13ME443 Production Drawing Practice and Computer Aided Engineering Laboratory

- - 3 2 25 50

9 13ME444 Industry Oriented Mini-Project - - - 1 30 20

Total 25 800 IV Year II Semester

S.No. Subject Code Name of the Subject L T P/D C Marks

Int. Ext. 1 13ME439 Unconventional Machining Process 4 1 - 4 30 70

2

13ME440A 13ME440B 13ME440C

Elective – III Production Planning Control Maintenance and Safety Engineering Design and Analysis of Experiments

4 1 - 4 30 70

3

13ME441A 13ME441B 13ME441C

Elective – IV Plant Layout and Materials Handling Solar Energy Computational Fluid Dynamics

4 1 - 4 30 70

4 13ME445 Technical Seminar - 3 - 1 50 -

5 13ME446 Comprehensive Viva-Voce - - - 2 - 100

6 13ME447 Major Project - - 15 10 50 150

Total 25 650


(13ME433) FINITE ELEMENT METHODS COURSE OBJECTIVES: Students will be able to 1. Describe various engineering objects by deserting them in to small elements. 2. Analyze complicated objects and to find stresses, strains, deflection slopes under various

loads. 3. Recognize potential energy, approach and boundary conditions. 4. Estimate stiffness matrix of components to know various parameters objects. 5. Analyze two dimensional elements by using constant strain triangles methods. COURSE OUTCOMES: The students will be able to 1. Distinguish real time engineering objects and to present a well designed structures. 2. Analyze bars, beams, shafts and axisymmetric solids. 3. Design uniform, stepped and tapered bars subjected to mechanical and thermal loads with

FEM 4. Generalize Element stiffness matrix for entire domain 5. Analyze any complicated structure by utilizing the computer software like ANSYS

instead of analytical methods 6. Extend Finite element modeling to Axi-symmetric solids subjected to Axi-symmetric

loading 7. Analyze one dimensional heat transfer problems like thin plates 8. Evaluate Eigen values of stepped bar and beams.

LESSON PLAN

Name of the Faculty: Academic Year: 2017 - 2018 Course Number : 13ME433 Course Name : Finite Element Methods Program : B.Tech Branch : ME (A&B) Year / Semester : IV/I

S.No. Topic Scheduled Date

UNIT – I 1 Introduction to FEM: Basic concepts, 13.06.2017

2 historical back ground, application of FEM, general description, comparison of FEM with other methods.

13-06-2017

3 Basic equations of elasticity, Stress 15-06-2017 4 Strain and strain – displacement relations 15-06-2017 5 Rayleigh – Ritz method. 17-06-2017 6 weighted residual methods 20-06-2017 7 One Dimensional Problems 20-06-2017

8 Stiffness equations for a axial bar element in local coordinates using Potential energy approach

22-06-2017

9 Virtual energy principle 22-06-2017 10 Finite element analysis of uniform bar 25-06-2017


11 stepped and tapered bars subjected to mechanical and thermal loads 27-06-2017

12 Assembly of Global stiffness matrix and load vector – Quadratic shape functions 27-06-2017

13 properties of stiffness matrix. 29-06-2017 UNIT – II

14 Stiffness equations for a truss bar element oriented in 2D plane 29-06-2017 15 Finite Element Analysis of Trusses 01-07-2017 16 Truss and Space Truss elements 04-07-2017 17 methods of assembly. 04-07-2017 18 Problems 06-07-2017 19 Problems 06-07-2017 20 Analysis of Beams: Hermit shape functions 08-07-2017 21 Element stiffness matrix 11-07-2017 22 Load vector – Problems. 11-07-2017 23 Problems 13-07-2017 24 Problems 13-07-2017

UNIT III 25 CST element 15-07-2017 26 Stiffness matrix and load vector 18-07-2017 27 Isoperimetric element representation 18-07-2017 28 Problems 20-07-2017 29 Problems 20-07-2017 30 Shape functions 22-07-2017 31 convergence requirements 25-07-2017 32 Two dimensional four noded iso-parametric elements 25-07-2017 33 Problems 27-07-2017 34 Problems 27-07-2017 35 Numerical integration 29-07-2017 36 Problems 01.08.2017 37 Problems 01.08.2017 38 Problems 03.08.2017 39 Problems 03.08.2017

I- Mid Examinations (08.08.2017 to 10.08.2017) 40 Finite element modeling of Axi-symmetric solids subjected to

Axi-symmetric loading with triangular elements – 12.08.2017

41 3-D problems 17-08-2017 42 Tetrahedron element 17-08-2017 43 Problems 19-08-2017 44 Problems 22-08-2016

UNIT – IV

Academic Year: 2017-18 IV B.Tech. I Sem 45 Scalar Field Problems: 22-08-2017 46 1-D Heat conduction 24-08-2017 47 -1D fin elements 24-08-2017 48 Problems 26-08-2017 49 Problems 29-08-2017 50 Problems 29-08-2017 51 Problems 31-08-2017 52 2D heat conduction 31-08-2017 53 Problems 02-09-2017 54 Problems 05-09-2017 55 Problems 05-09-2017 56 analysis of thin plates 07-09-2017 57 Problems 07-09-2017 58 Composite slabs 09-09-2017 59 Problems 12-09-2017

UNIT – V Dynamic Analysis

60 Dynamic equations 12-09-2017 61 Problems 14-09-2017 62 Problems 14-09-2017 63 Lumped and consistent mass matrices 16-09-2017 64 Eigen values and Eigen vectors 19-09-2017 65 Problems 19-09-2017 66 mode shapes 21-09-2017 67 Problems 21-09-2017 68 modal analysis for bars and beams. 23-09-2017 69 Problems 26-09-2017 70 Problems 26-09-2017 71 Problems 28-09-2017 72 Problems 28-09-2017 73 Problems 03-10-2017 74 RIVISION 03-10-2017 75 RIVISION 05-10-2017 76 RIVISION 05-10-2017

II - Mid Examination (12.10.2017 to 16.10.2017)

Time Table: Monday : --- Thursday : 2:30 to4:00

Tuesday : 11:20 to1:00 Friday : -- Wednesday : -- Saturday : 12:10 to 1:00


(13ME434) CAD/CAM

COURSE OBJECTIVES: 1. To know the computers in industrial manufacturing and use of hardware and software

components in CAD/CAM systems- 2. To construct the database models and geometric modeling features- To know the drafting

and modeling systems used in CAD/CAM- Solid modeling features and applications- 3. To distinguish between NC (Numerical Control), CNC & DNC in CAD/CAM- 4. To state the group technology approaches for manufactories industries- 5. To Interpret the importance of CAQC(Computer Aided Quality Control) COURSE OUTCOMES: The students will be able to 1. Observe the various input and output devices used in CAD/CAM systems. 2. Understand 2D and 3D transformations problems can be assigned to students. 3. List the various commands in the CAD. 4. Write the programs for different models by using NC part programming 5. Analyze the Group Technology (GT), CAQC (Computer Aided Quality Control) and

CIM (Computer Integrated Manufacturing) systems- 6. Differentiate various material-handling systems. 7. Definitions of various computer–based applications in manufacturing system. 8. Summarize the CIM implementation strategies.

LESSON PLAN

Name of the Faculty : Academic Year: 2017 - 2018 Course Number : ME438 Course Name : CAD/CAM Program : B.Tech Branch : ME Year / Semester : IV/I Section : A & B S.No. Topic Schedule Date

UNIT-I 1. Computer in industrial manufacturing- introduction 12/06/2017 2. Product cycle 13/06/2017 3. CAD/CAM Hardware: Basic structure, CPU, Memory types 14/06/2017 4. input devices, display devices 15/06/2017 5. Hard copy devices, storage devices. 16/06/2017 6. Computer Graphics: Virtual reality, Hidden lines 19/06/2017 7. Hidden surfaces ,Z-buffer, Pointers 20/06/2017 8. Area sub-division, Scan line algorithm 21/06/2017 9. Database structure for graphics 22/06/2017 10. Transformation of geometry 23/06/2017 11. 3D transformations 28/06/2017 12. Mathematics of projections 29/06/2017 13. Mathematics of projections 30/06/2017

Academic Year: 2017-18 IV B.Tech. I Sem 14. Clipping 03/07/2017 UNIT-II

15. Geometric Modeling – introduction , Requirements 04/07/2017 16. Geometric models, geometric construction models 05/07/2017 17. curve representation methods-Hermite Cubic spline 06/07/2017 18. Bezier curve and Problems 07/07/2017 19. Bezier curve and Problems 11/07/2017 20. B-spline and problems 12/07/2017 21. B-spline and problems 13/07/2017 22. Surface representation methods-Plane Surface 14/07/2017 23. Surface of evaluation, tabulated cylinder 17/07/2017 24. Solid modeling-Boundary representation 18/07/2017 25. Solid modeling-Boundary representation 19/07/2017 26. Constructive solid geometry 20/07/2017 27. Drafting and Modeling Systems: Basic geometric commands 21/07/2017 28. layers, display control commands 24/07/2017 29. Editing, dimensioning 25/07/2017 UNIT - III

30. NUMERICAL CONTROL: Introduction ,NC modes 26/07/2017 31. NC elements, NC machine tools 27/07/2017 32. Structure of CNC machine tools 28/07/2017 33. Features of Machining center 31/07/2017 34. Turning center 01/08/2017 35. CNC Part Programming: fundamentals 02/08/2017 36. Manual part programming methods 03/08/2017 37. Manual part programming methods 04/08/2017 I - Mid Examination 08/08/2017 to 10/08/2017

38. Manual part programming methods 07/08/2017 39. Manual part programming methods 11/08/2017 40. computer aided part programming 16/08/2017 41. computer aided part programming 17/08/2017 42. computer aided part programming 18/08/2017 UNIT-IV

43. GROUP TECH---Introduction 21/08/2017 44. Part family, coding and classification 22/08/2017 45. production flow analysis, advantages and limitations 23/08/2017 46. Computer Aided Processes Planning 24/08/2017 47. Retrieval type and Generative type 28/08/2017 48. Computer Aided Quality Control: Terminology in quality control 29/08/2017

Academic Year: 2017-18 IV B.Tech. I Sem 49. computer in QC 30/09/2017 50. contact inspection methods 31/09/2017 51. contact inspection methods 01/09/2017 52. contact inspection methods 04/09/2017 53. noncontact inspection methods-optical 05/09/2017 54. noncontact inspection methods-optical 06/09/2017 55. noncontact inspection methods- Non-optical 07/09/2017 56. noncontact inspection methods- Non-optical 08/09/2017 57. computer aided testing 11/09/2017 58. Integration of CAQC with CAD/CAM. 12/09/2017 UNIT-V

59. Computer Aided Process Planning 13/09/2017 60. Retrieval CAPP 14/09/2017 61. Generative CAPP 15/09/2017 62. Hybrid system 18/09/2017 63. Case Studies- Web Integrated Manufacturing 19/09/2017 64. JIT production control by Kanban 21/09/2017 65. Toyota integrated product development 22/09/2017 66. Indian Manufacturing Scenario 25/09/2017 67. Revision 26/09/2017 68. Revision 09/10/2017

II - Mid Examination 12.10.2017 to 16.10.2017

Time Table:

Monday : Thursday :

Tuesday : Friday :

Wednesday : Saturday :


(13ME435) REFRIGERATION AND AIR CONDITIONING COURSE OBJECTIVES: Students will be able to: 1. Discuss the fundamentals, nature and role of refrigeration and air-conditioning 2. Explain the working principle of Air refrigeration system, vapour compression

refrigeration system and vapour absorption refrigeration system. 3. Summarize the details of components like expansion valve and evaporator, refrigerants 4. Apply psychometric chart to solve the practical problems. 5. Outline various filters, grills, fans, registers and blowers and different heat pump circuits. COURSE OUTCOMES: At the end of the course students will develop ability to

1. Explain the basic principles of refrigeration. 2. Explain the working principle of Air refrigeration system, vapour compression

refrigeration system 3. Summarize the desirable properties of refrigerants 4. Illustrate different types of evaporators and expansion valves. 5. Compare different types of refrigeration systems. 6. Solve the problems using psychometric charts. 7. Illustrate different types of air conditioning systems. 8. Evaluate various heat loads to be considered for cooling load calculations.

LESSON PLAN

Name of the Faculty: Academic Year: 2017 - 18 Course Number : ME438 Course Name: R&AC Program : B.Tech Branch : ME (A&B) Year / Semester : IV/I

SL.No Topic of the Lecture Scheduled date

1 UNIT- I: Introduction to Refrigeration 13/06/2017 2 Necessity and Applications 15/06/2017 3 Unit of refrigeration 16/06/2017

4 C.O.P 17/06/2017 5 Mechanical Refrigeration 20/06/2017 6 Types of Ideal cycles of refrigeration. 20/06/2017

7 Problems 22/06/2017 8 Air Refrigeration: Bell Coleman cycle and Brayton Cycle 23/06/2017 9 Open and Dense air systems 24/06/2017

10 Actual air refrigeration system problems 29/06/2017 11 Actual air refrigeration system problems 30/06/2017 12 Refrigeration needs of Air crafts 01/07/2017

Academic Year: 2017-18 IV B.Tech. I Sem 13 Problems. 04/07/2017

14 Air Refrigeration: Bell Coleman cycle and Brayton Cycle 04/07/2017 15 Problems 06/07/2017

16 UNIT- II: Vapor compression Refrigeration: Working principle and essential components of the plant

07/07/2017

17 simple vapor compression refrigeration cycle 08/07/2017 18 COP – Representation of cycle on T-S and p-h charts 11/07/2017 19 Problems 11/07/2017 20 Problems 13/07/2017 21 Effect of sub-cooling and super heating – cycle analysis 14/07/2017 22 Problems 15/07/2017 23 Problems 18/07/2017

24 Actual cycle Influence of various parameters on system performance

20/07/2017

25 Use of p-h charts 21/07/2017 26 Numerical problems 22/07/2017 27 Problems 25/07/2017 28 Classification – Working principles expansion devices. 25/07/2017 29 Types – Working principles 27/07/2017 30 Refrigerants – Desirable properties 28/07/2017 31 classification refrigerants used 29/07/2017 32 Nomenclature of refrigerants 01/08/2017 33 Ozone Depletion – Global Warming. 01/08/2017

34 UNIT- III: Vapor Absorption System: Calculation of max COP

03/08/2017

35 Description and working of NH3 – water system. 04/08/2017

36 Description and working Li Br – water (Two shell & Four shell) System.

05/08/2017

37 Mid-I Examination 11/08/2017 38 Numerical problems 12/08/2017

39 Principle of operation Three Fluid absorption system, salient features.

15/08/2017

40 Steam Jet Refrigeration System: Working principles and Basic Components,

15/08/2017

41 Principle and operation of Thermoelectric refrigerator 17/08/2017 42 Principle and operation of Vortex tube or Hilsch tube. 18/08/2017

43 UNIT- IV: Introduction to Air Conditioning: Psychometric Properties & Processes

22/08/2017

44 Psychometric Processes 22/08/2017 45 Characterization of Sensible and latent heat loads 24/08/2017

Academic Year: 2017-18 IV B.Tech. I Sem 46 Problems 25/08/2017 47 Numerical problems 26/08/2017 48 Numerical problems 29/08/2017 49 Problems 29/08/2017 50 Problems 31/08/2017 51 Need for Ventilation, consideration of infiltration 01/09/2017 52 concepts of RSHF, GSHF 02/09/2017 53 Concept of ESHF and ADP. 05/09/2017

54 Requirements of human comfort and concept of effective temperature

05/09/2017

55 Comfort chart – Comfort Air conditioning 07/09/2017

56 Requirements of Industrial air conditioning, Air conditioning Load calculations.

08/09/2017

57 Numerical problems 09/09/2017 58 Numerical problems 12/09/2017 59 Problems 14/09/2017 60 Numerical problems 15/09/2017 61 Numerical problems 16/09/2017

62 UNIT- V: Air Conditioning Systems: Classification of equipment,

19/09/2017

63 cooling, heating, humidification and dehumidification

21/09/2017

64 filters, 22/09/2017 65 grills and registers 23/09/2017 66 fans and blowers 26/09/2017 67 Heat pump – Heat sources. 03/09/2017 68 Different heat pump circuits 05/09/2017 69 Revision 06/10/2017 70 Revision 07/10/2017 71 Revision 10/10/2017 72 Mid-II Examination 13/10/2017

Time Table:

Monday : Thursday :

Tuesday : Friday :



(13ME436) OPERATIONS RESEARCH

COURSE OBJECTIVES: The Students will be able to

1. Define scientific approach to problem solving for executive management. 2. Illustrate modern methods to complex problems. 3. Solve the assignment problem helps us to maximize our profit or minimize the cost. 4. Develop game theory in which ones choice of action is determined after taking into

account all possible alternatives. 5. Build inventory models for solving the inventory problems.

COURSE OUTCOMES: At the end of the course, the student will get ability to

1. List out various Operation Research models. 2. Illustrate linear programming problem. 3. Calculate transportation cost for a various transportation models. 4. Examine various possible path of a travelling salesmen problem. 5. Assess the inventory requirements. 6. Estimate the best replacement period for machines under different conditions. 7. Construct a dynamic programming model. 8. Decide the number of servers to minimize waiting time of customers and idle time of

a server.

LESSON PLAN Name of the Faculty: Academic Year: 2017 - 18 Course Number : 13ME436 Course Name : Operations Research Program : B-Tech Branch : ME Year / Semester : IV / I Section : A & B

S.No. Topic Schedule Date

UNIT- I

1 Development: Definition, Characteristics and Phases of OR 12-06-2017

2 Types of models, Operations Research models- 12-06-2017

3 Applications of OR Models 14-06-2017

4 Linear Programming Problem Formulation 15-06-2017

5 Graphical solution, 16-06-2017

6 Simplex method 17-06-2017

7 Simplex method 21-06-2017

8 Artificial variables techniques: Big-M method 22-06-2017

9 Two–phase method, 23-06-2017

10 Duality Principle- 24-06-2017

Academic Year: 2017-18 IV B.Tech. I Sem 11 Problems Solving 24-06-2017

12 Problems Solving 28-07-2017



UNIT – II

15 Transportation Problem: Formulation 01-07-2017

16 Unbalanced transportation problem- 05-07-2017

17 Optimal solution, 06-07-2017

18 Optimal solution, 07-07-2017

19 Degeneracy 08-07-2017

20 Assignment problem – Formulation 12-07-2017

21 Optimal solution 13-07-2017

22 Optimal solution 14-07-2017

23 Variants of Assignment Problem 15-07-2017

24 Variants of Assignment Problem 15-07-2017

25 Traveling Salesman problem 19-07-2017

26 Traveling Salesman problem 20-07-2017





UNIT – III

29 Sequencing: Introduction 29-07-2017

30 Flow –Shop sequencing – n jobs through one & two machines 02-08-2017

31 Flow –Shop sequencing – n jobs through one & two machines 03-08-2017

32 n jobs through three machines 04-08-2017

33 Job shop sequencing – two jobs through ‘m’ machines 05-08-2017

34 Job shop sequencing – two jobs through ‘m’ machines 05-08-2017

I- Mid Examination 08-08-2017

to 10-08-2017

Academic Year: 2017-18 IV B.Tech. I Sem 35 Replacement: Introduction 11-08-2017

36 Replacement of items that deteriorate with time , when money value is not counted and counted 16-08-2017

37 Replacement of items that deteriorate with time , when money value is not counted and counted 17-08-2017

38 Replacement of items that fail completely Group Replacement- 18-08-2017

39 Replacement of items that fail completely Group Replacement 19-08-2017


UNIT – IV

41 Theory Of Games: Introduction Terminology 24-08-2017

42 Solution of games with saddle points and without saddle points 26-08-2017

43 Solution of games with saddle points and without saddle points 30-08-2017

44 2 x 2 games – dominance principle 31-08-2017

45 m x 2 & 2 x n games Graphical method 01-09-2017

46 -LPP Method 06-09-2017

47 LPP Method 07-09-2017

48 Inventory: Introduction 08-09-2017

49 Single item, Deterministic models 09-09-2017

50 Purchase inventory models with one price break and multiple price breaks 13-09-2017

51 Stochastic models 14-09-2017

55 demand may be discrete variable or continuous variable 15-09-2017

56 Single Period model and no setup cost 16-09-2017



UNIT- V

59 Waiting Lines: Introduction & Terminology 21-09-2017

60 Single Channel – Poisson arrivals and Exponential Service times – with infinite population and finite population models 22-09-2017



63 Multichannel – Poisson arrivals and exponential service times with infinite population 25-09-2017

64 Multichannel – Poisson arrivals and exponential service times with infinite population 26-09-2017

Academic Year: 2017-18 IV B.Tech. I Sem 65 Dynamic Programming: Introduction 26-09-2017

66 Terminology- Bellman’s Principle of Optimality 04-10-2017

67 Applications of dynamic programming- shortest path problem- 05-10-2017

68 Applications of dynamic programming- shortest path problem 06-10-2017

69 linear programming problem 06-10-2017

70 linear programming problem 07-10-2017

71 Unit I , II & III Revision 10-10-2017

72 Unit IV &V Revision 10-10-2017

73 Discussing old Question Papers 11-10-2017

II - Mid Examination 12-10-2017

to 16-10-2017

Time Table:

Monday : Thursday :

Tuesday : Friday :



(13ME437C) AUTOMOBILE ENGINEERING ELECTIVE – I

COURSE OBJECTIVES:

1. Discuss the fundamentals of automobile theory, necessary background for intelligent diagnosis, maintenance and repair of different type of modern automobiles.

2. Explain the components of automobile in detail, power transmission, engine construction and working, lubrication system.

3. Illustrate an idea of emissions that will be released from the automobile 4. Distinguish different types of fuel systems, cooling and ignition systems. 5. Categorize different steering gear mechanisms

COURSE OUTCOMES:

1. Exemplify the knowledge in automotive engine. 2. Summarize detailed concepts, construction and principle of operation of engine and

various engine components, combustion, cooling and lubrication systems will be taught to the students.

3. Judge in knowledge of steering mechanism about automobiles. 4. Evaluate his interdesciplnary knowledge on automobiles where as Electrical and

Electronics. 5. Build the knowledge on modern technologies used in recent developed vehicles. 6. Show the different braking system and its applications 7. Outline of the steering system can be developed 8. Test the pollution control technique

LESSON PLAN

Name of the Faculty: Academic Year: 2017 - 2018 Course Number : 13ME437C Course Name : Automobile Engineering Program : B-Tech Branch : ME Year / Semester : IV / I Section : A & B

S.No. Topic Schedule Date

1. UNIT - I: Introduction to Automobile Engineering. 12/06/2017 2. Classification of Automobiles. 13/06/2017 3. Description and components of four wheeler. 14/06/2017 4. Chasis and body 15/06/2017 5. Power unit and transmission. 16/06/2017 6. Rear wheel, front wheel, 4-wheel drives. 19/06/2017 7. Types of engines and engine construction. 20/06/2017 8. Lubrication and types of lubrication. 21/06/2017 9. Oil filters 22/06/2017 10. oil pumps, crank case ventilation. 23/06/2017 11. Engine service. 28/06/2017

Academic Year: 2017-18 IV B.Tech. I Sem 12. reboring, decarbonisation 29/06/2017 13. Emission from automobiles., 30/06/2017 14. National and international pollution standards. 03/07/2017 15. Pollution control techniques. 04/07/2017 16. Noise Pollution & Control 05/07/2017 17. UNIT - II: Fuel system for SI engines, petrol injection. 06/07/2017 18. Mech. Elec. Fuel pump 07/07/2017 19. Filters types. 11/07/2017 20. Carburettor and types and working. 12/07/2017 21. Carburettor and types and working. 13/07/2017 22. Carburettor and types and working. 14/07/2017 23. Carburettor and types and working 17/07/2017 24. C.I Engines: Requirements of diesel injection, 18/07/2017 25. Types of Diesel Injection 19/07/2017 26. Fuel pump, nozzle, spray formation. 20/07/2017 27. Injection timing,. 21/07/2017 28. Testing of fuel pumps 24/07/2017 29. UNIT - III: Cooling requirements, types. 25/07/2017 30. Air cooling, types of water cooling. 26/07/2017 31. Radiators (Types),. 27/07/2017 32. fan, water pump 28/07/2017 33. Thermostat, 31/07/2017 34. Antifreeze solutions. 01/08/2017 35. Requirements and function of ignition system 02/08/2017 36. Battery - construction - explanation. 03/08/2017 37. Auto transformer, 04/08/2017 38. contact breaker points. 05/08/2017 39. Question papers 07/08/2017 40. I - Mid Examination 08/08/2017 to 10/08/2017 41. Magnetro coil ignition system. 11/08/2017 42. eelectronic ignition system 16/08/2017 43. Spark advance and retard mechanism. 17/08/2017 44. UNIT - IV: Electrical system introduction parts. 18/08/2017 45. Starting system, bendix drive mechanism. 21/08/2017 46. Solenoid switch, lighting system. 22/08/2017 47. Electrical accessorer. 23/08/2017 48. Introduction to transmission system. 24/08/2017 49. Clutches and types. 28/08/2017 50. Clutches and types. 29/08/2017

Academic Year: 2017-18 IV B.Tech. I Sem 51. Gear box types. 30/09/2017 52. Gear box types. 31/09/2017 53. Overdrive construction and torque converter. 01/09/2017 54. Propeller shafts and universal joint. 04/09/2017 55. Differential and rear axle types. 05/09/2017 56. Wheels and tyres. 06/09/2017 57. UNIT - V: Introduction to steering - steering geometry. 07/09/2017 58. Carter, castor, king pin rake. 08/09/2017 59. Combined angle, centre point steering. 11/09/2017 60. Steering gears, types. 12/09/2017 61. Ackerman steering mechanism. 13/09/2017 62. Davis steering gear mechanism. 14/09/2017 63. Steering linkages. 15/09/2017 64. Introduction and objects of suspension systems. 18/09/2017 65. Rigid axle suspension system. 19/09/2017 66. Torsion bar, shockabsorber. 21/09/2017 67. Independent suspension system. 22/09/2017 68. Introduction to braking system. Mechanical brake system 25/09/2017 69. Hydraulic brake system. 26/09/2017 70. Master cylinder, wheel cylinder. 06/10/2017 71. Revision 07/10/2017 72. Revision 09/10/2017 73. Revision 11/10/2017 74. Mid-II Examination 12/10/2017

Time Table:

Monday : Thursday :

Tuesday : Friday :



(13ME438A) POWER PLANT ENGINEERING ELECTIVE – II

COURSE OBJECTIVES: Students will be able to

1. List out the sources of energy and explain the working principle of steam power plant, coal and ash handling systems.

2. Apply the knowledge in working of diesel and gas turbine power plants. 3. Classify the components of hydro electric power plant, dams and typical layouts. 4. Evaluate the performance of various types of nuclear reactors. 5. Formulate the principles of power plant economics based on environmental

standards. COURSE OUTCOMES: At the end of the course students will develop ability to

1. Memorize different layouts of power generation units. 2. Illustrate different types of handling systems used in thermal power. 3. Develop the concepts used in working of DEPP, GTPP 4. Analyze different types of hydel power plants based on their performance. 5. Recommend types of layouts based on plant operation. 6. Classify different types of reactors based on the nuclear fuels used. 7. Elaborate on different types of loads of power distribution. 8. Build the opportunities in contributing towards solving of energy crisis.

LESSON PLAN

Name of the Faculty : Academic Year: 2017 - 18 Course Number : 13ME438A Course Name: Power Plant Engineering Program : B.Tech Branch : Mechanical Engineering Year / Semester : IV/I Section : A & B

S.No. Topic Date

1. UNIT - I: Introduction to sources of energy. 13-06-2017

2. Resources and development of power in India. 14-06-2017

3. Steam power plant - plant layout. 14-06-2017

4. Working of different circuits in layout. 15-06-2017

5. Fuel and handling equipments, types of coals. 17-06-2017

6. Coal handling, choice of handling equipment. 20-06-2017

7. Coal storage, ash handling systems. 21-06-2017

8. Properties of coal. 21-06-2017

9. Overfeed and underfeed fuel beds. 22-06-2017

10. Travelling grate stokers, spreads stokers. 24-06-2017

11. Retort stokers. 28-06-2017

Academic Year: 2017-18 IV B.Tech. I Sem 12. Pulverized fuel burning system and its components. 28-06-2017

13. Combustion needs and draught system. 29-06-2017

14. Cyclone furnace design and construction. 01-07-2017

15. Dust collectors. 04-07-2017

16. Cooling towers and heat rejection. 05-07-2017

17. Corrosion and feed water treatment. 05-07-2017

18. UNIT - II: Diesel power plant introduction. 06-07-2017

19. IC engines, types, construction. 11-07-2017

20. Plant layout with auxiliaries. 12-07-2017

21. Fuel supply system 12-07-2017

22. Air starting equipment. 13-07-2017

23. Lubrication and cooling system. 15-07-2017

24. Super charging. 18-07-2017

25. Gas turbine plant introduction. 19-07-2017

26. Classification - Construction. 19-07-2017

27. Layout with auxiliaries. 20-07-2017

28. Principles of working of closed and open cycle GTC. 22-07-2017

29. Combined cycle power and plants and comparison. 25-07-2017

30. UNIT - III: Hydro electric power plant - Water power. 26-07-2017

31. Hydrological cycle flow measurement. 26-07-2017

32. Drainage area characteristics. 27-07-2017

33. Hydrographs. 29-07-2017

34. Storage and pondage. 01-08-2017

35. Classification of dams and spilts ways. 02-08-2017

36. Revision of Unit I 02-08-2017

37. Revision of Unit II 03-08-2017

38. Revision of Unit III 05-08-2017

I- Mid Examination 08-08-2017

to 10-08-2017

39. Hydro projects and plant classification. 16-08-2017

40. Typical layout. 16-08-2017

41. Plant auxiliaries, plant operation. 17-08-2017

42. Pumped storage plants. 19-08-2017

43. UNIT - IV: Nuclear power station - Nuclear fuel 22-08-2017

Academic Year: 2017-18 IV B.Tech. I Sem introduction.

44. Breeding and fertile materials. 23-08-2017

45. Nuclear reactor - reactor operation. 23-08-2017

46. Types of reactors - Pressurized water reactor. 24-08-2017

47. Boiling water reactor. 26-08-2017

48. Sodium graphite reactor. 29-08-2017

49. Fast breeder reactor. 30-08-2017

50. Homogeneous reactor. 30-08-2017

51. Gas cooled reactor. 31-08-2017

52. Radiation hazards and shielding. 05-09-2017

53. Radioactive waste disposal. 06-09-2017

54. UNIT - V: Power plant economics and environmental consideration. 06-09-2017

55. Capital cost, investment costs of fixed charges. 07-09-2017

56. Operating costs. 12-09-2017

57. General arrangement of power distribution. 13-09-2017

58. Load curves, load duration curve. 13-09-2017

59. Definition of connected load. 14-09-2017

60. Maximum demand, demand factor. 16-09-2017

61. Average load, load factor. 19-09-2017

62. Diversity factor - related exercises. 21-09-2017

63. Effluents from power plant and impact of environment. 23-09-2017

64. Pollutants and pollution standards. 26-09-2017

65. Methods of pollution controls. 03-10-2017

66. Problems on load curves 04-10-2017

67. Problems on load factor and demand factor 04-10-2017

68. Problems on Average load and annual load 05-10-2017

69. Other Exercise problems 07-10-2017

70. Revision of Unit IV 10-10-2017

71. Revision of Unit V 11-10-2017

72. Previous Questions discussion 11-10-2017

II- Mid Examination

12-10-2017 13-10-2017

& 16-10-2017


(13ME438B) AUTOMATION IN MANUFACTURING ELECTIVE – II

COURSE OBJECTIVES: The students will be able to 1. Explain the types and strategies of automation, automated flow lines. 2. Classify the different types of circuits and tool changing methods. 3. Distinguish the transfer lines, buffer storage, assembly lines 4. Identify the material handling systems, conveyor systems, automated guided vehicle

systems 5. Identify Adaptive control methods and application of A.C. in machining operations. COURSE OUTCOMES: At the end of the course, the students will get ability to 1. Analyze the necessity of automating in any industry and procedure to be adopted for

automation. 2. Formulate different types of automated flow lines, transfer lines. 3. Design material handling systems in production 4. Test the packages available for advanced techniques available in mechanical engineering. 5. Estimate the various types of automated assembly lines 6. Analyze the bottlenecks in material handling 7. Recognize the ergonomics of material handling 8. Apply the principles of ERP, BPE, Concurrent Engineering, and Rapid Proto Typing

LESSON PLAN Name of the Faculty: Academic Year: 2017 –87 Course Number: 13ME438B Course Name: Automation in Manufacturing Program : B. Tech Branch: Mechanical Engineering Year/ Semester: IV/I Section: A&B S.No. Topic Scheduled Date

UNIT – I 1 Introduction: Types and strategies of automation 13.06.2017 2 Pneumatic and hydraulic components, circuits 14-06-2017 3 Automation in machine tools 14-06-2017 4 Mechanical feeding and tool changing 15-06-2017 5 Machine tool control in automation 16-06-2017 6 Automated flow lines 20-06-2017 7 Methods of work port transport 21-06-2017 8 Methods of work port transport, transfer 21-06-2017 9 Mechanical buffer storage function 22-06-2017

10 Design and fabrication 23-06-2017 11 Design and fabrication 27-06-2017

UNIT – II 12 Analysis of automated flow lines 28-06-2017

Academic Year: 2017-18 IV B.Tech. I Sem 13 General terminology 28-06-2017 14 Analysis of transfer lines 29-06-2017 15 Without buffer storage 30-06-2017 16 With buffer storage 04-07-2017 17 Partial automation 05-07-2017 18 Implementation of automated flow lines 05-07-2017

19 Assembly systems 06-07-2017 20 Line balancing 08-07-2017 21 Assembly process and systems 11-07-2017 22 Assembly lines 12-07-2017 23 Line balancing methods 12-07-2017 24 Ways of improving line balancing, flexible assembly lines 13-07-2017

UNIT III 25 Automated material handling 14-07-2017 26 Types of equipment 18-07-2017 27 functions 19-07-2017 28 Analysis and design of material handling systems 19-07-2017 29 Conveyor systems 20-07-2017 30 Conveyor systems 21-07-2017 31 Conveyor systems 25-07-2017 32 Automated guided vehicle systems 26-07-2017 33 Automated guided vehicle systems 26-07-2017 34 Automated storage systems 27-07-2017 35 AS/RS 28-07-2017 36 AS/RS 01.08.2017 37 AS/RS 02.08.2017 38 AS/RS 02.08.2017 39 Work in process storage 03.08.2017

I- Mid Examinations (08.08.2017 to 10.08.2017) 40 Work in process storage 11.08.2017 41 Work in process storage 16-08-2017 42 Interfacing handling 17-08-2017 43 Interfacing handling 19-08-2017 44 Storage with manufacturing 22-08-2016

UNIT – IV 45 AUTOMATED CONTROL SYSTEMS 23-08-2017 46 introduction 23-08-2017 47 Adaptive control With optimization 24-08-2017 48 Adaptive control With optimization 25-08-2017 49 Adaptive control With constraints 29-08-2017

Academic Year: 2017-18 IV B.Tech. I Sem 50 Adaptive control With constraints 30-08-2017 51 Application of AC in machining operations 31-08-2017 52 Application of AC in machining operations 01-09-2017 53 Use of various parameters like cutting force 01-09-2017 54 Use of various parameters like temperature 05-09-2017 55 Use of various parameters like vibrations 06-09-2017 56 Use of various parameters like Acoustic emission 06-09-2017

UNIT – IV 57 Business Process Re-Engineering 07-09-2017 58 Introduction to BPE logistics 08-09-2017 59 logistics 12-09-2017 60 logistics 13-09-2017 61 Software Configuration of BPE 13-09-2017 62 Software Configuration of BPE 14-09-2017 63 Software Configuration of BPE 15-09-2017 64 Concurrent Engineering 19-09-2017 65 Concurrent Engineering 20-09-2017 66 Concurrent Engineering 20-09-2017 67 Techniques of Rapid Proto yping 21-09-2017 68 Techniques of Rapid Proto yping 22-09-2017 69 Techniques of Rapid Proto yping 26-09-2017 70 RIVISION 27-09-2017 71 RIVISION 27-09-2017 72 RIVISION 28-09-2017 73 RIVISION 03-10-2017 74 RIVISION 04-10-2017 75 RIVISION 04-10-2017 76 RIVISION 05-10-2017

II - Mid Examination (12.10.2017 to 16.10.2017) TIME TABLE:

Monday : --- Thursday : 9:30 to 10;20

Tuesday : 9:30 to 10:20 Friday : 9:30 to 10:20

Wednesday : 11;20 to 1;00 Saturday : ---


(13ME442) CAD/CAM LABORATORY COURSE OBJECTIVES: 1. To know the part drawings for various components. 2. To draw the part modeling using AutoCAD software package. 3. To draw various components using CATIA. 4. To develop different modeling components using pro-E. 5. To develop the NC program for CNC milling and turning operations by using CADEM

package COURSE OUTCOMES: The students will be able to 1. Draw the part drawings which are utilized in real time applications. 2. Understand the dimension, tolerances, isometric projects. 3. Analyse 2D and 3D part drawings using AutoCAD, Pro-E software packages. 4. Develop and understand the NC part program generation by using CADEM packages. 5. Understand the different types of stress analysis, load calculations by using ANSYS

software. 6. Determination of deflection and stresses in 2D and 3D trusses and beams. 7. Estimation of natural frequencies and mode shapes of 2D beam. 8. Study the Machining of simple components on NC lathes from CAM package.

LESSON PLAN

Name of the Faculty : Academic Year: 2017 - 18 Course Number : 13ME442 Course Name: CAD/CAM Lab Program : B.Tech Branch : ME Year / Semester : IV/I Section : A & B S.No TOPIC Date Date

1 Drafting: Development of part drawings for various components in the form of orthographic and isometric.

12/06/2017 16/06/2017

2 Representation of Dimensioning and tolerances scanning and plotting. Study of script. 19/06/2017 23/06/2017

3 Part Modeling: 3D Models through protrusion, revolve, shell sweep. Creation of various features 03/07/2017 30/06/2017

4 Part Modeling: 3D Models through protrusion, revolve, shell sweep. Creation of various features 17/07/2017 07/07/2017

5 Creation of various features. Study of parent child relation 24/07/2017 14/07/2017

6 Design simple components. 31/07/2017 21/07/2017

7 Determination of deflection and stresses in 2D and 3D trusses and beams 07/08/2017 28/07/2017

8 Determination of deflections component and principal and von-mises stresses in plane stress, plane strain and Axisymmetric components

21/08/2017 04/08/2017


9 Estimation of natural frequencies and mode shapes, Harmonic response of 2D beam. 28/08/2017 11/08/2017

10 Steady state heat transfer Analysis of plane and Axisymmetric components 04/09/2017 18/08/2017

11 Development of process sheets for various components based on tooling machines. 11/09/2017 25/08/2017

12

Development of manufacturing and tool management systems Study of various post processors used in NC Machines.

18/09/2017 01/09/2017

13 Development of NC code for free form and sculptured surfaces using CAM packages. 25/09/2017 08/08/2017

14 Development of NC code for free form and sculptured surfaces using CAM packages. 25/09/2017 15/08/2017

15

Machining of simple components on NC lathe and Mill by transferring NC code / from a CAM package. Through RS 232., Quality Control and inspection.

09/09/2017 22/08/2017

Internal Exam 09/10/2017 29/10/2017

TIME TABLE:

Monday : Thursday :

Tuesday : Friday :



(13ME443) PRODUCTION DRAWING PRACTICE AND COMPUTER AIDED ENGINEERING LABORATORY

COURSE OBJECTIVES:

1. Comprehend the knowledge about conventional representation of materials and machine parts.

2. Know the different types of fits, tolerance and surface roughness of various machine parts to apply in part drawings.

3. Understand the design of machine parts and also get acquainted with working principle

4. Understand the stress analysis of different types of beams. 5. Understand the thermal analysis of heat transfer systems

COURSE OUTCOMES: The students will be able to

1. Recognize the representation symbols of various machine components 2. Illustrate various fits and explain tolerances. 3. Comprehend the knowledge of CFD analysis of simple fluid flow systems 4. Draw the part drawings which are utilized in real time applications. 5. Produce part drawings by using CAD software. 6. Summarize the meanings of machining symbols used in part drawings. 7. Analyze stresses of 2D and 3D truss and deflection of beams using software packages. 8. Apply CFD analysis of simple fluid flow systems involving heat transfer, using CFD

simulation software.

LESSON PLAN

Name of the Faculty : Academic Year: 2017 - 2018 Course Number : 13ME443 Course Name: PDP&CAE Lab Program : B.Tech Branch : ME Year / Semester : IV/I Section : A & B

Sl. NO: TITLE Scheduled Date

1. Conventional representation of materials, springs & machine components 12-06-2017

2. Limits, fits and tolerances 19-06-2017 3. Surface roughness and its indication 26-06-2017 4. Part drawing of stuffing box 03-07-2017 5. Part drawing of universal coupling 10-07-2017 6. Part drawing of eccentric 17-07-2017 7. Part drawing of connecting rod 24-07-2017 8. Part drawing of screw jack and drawing using AutoCAD 31-07-2017 9. Determination of deflection and stresses of analysis of

cantilever beam 14-08-2017

Academic Year: 2017-18 IV B.Tech. I Sem 10. Determination of deflection and stresses of simply

supported beam carrying point load 21-08-2017

11. Determination of deflection and stresses of 2D truss and 3D truss 28-08-2017

12. Determination of deflection component and principles and von mises stresses in plane stress and plane strain components

04-09-2017

13. Estimation of natural frequencies and mode shapes, harmonic response of 2D beam 11-09-2017

14. Steady state heat transfer, analysis of plane components 18-09-2017 15. Thermal analysis of heat transfer systems using simulation

software 25-09-2017

16. CFD analysis of simple fluid flow systems involving heat transfer using CFD simulation software 02-10-2017

Time Table:

Monday : Thursday :

Tuesday : Friday :


lesson plans - sr engineering college year lesson plan.pdfunderstanding of thermal, structural and...

Documents