Course Objectives: The main objectives of this course are

  • To provide understanding of  the overall facilities planning process
  • To educate product, process and schedule design and their effects on the facility layout
  • To introduce concepts of material handling and safety in industries.

 

Design of layout of factories, Office, Storage area etc. on consideration offacilities of working people, Storage facilities and general equipment foramenities of working people – Product, Process and combination layout –Systematic layout planning – Design of Assembly lines, Line balancingmethods, Computer applications in layout designs.      

Environmental aspects like lighting, Ventilation, dust control, humidity.Different type of Plant services like steam compressed air etc. – Plant safety,Elements off Industrial safety- Causes and prevention of accidents – Pollutionand environmental consideration.

Material handling system and equipment – Material handling in Plants-Principles of material handling-activities and functions. Storesand warehouses , Receiving and dispatching area. Choice of material handling equipment.

Material handling cost and Economical aspects-Depreciation.Equipment replacement – Repair, replacement depends on technical and economical consideration-methods of replacement studies.-simple problems-Break-even analysis.

FP Syllabus.pdfFP Syllabus.pdf

The main objectives of this course are                                    :

  • To understand the concept of fundamental of robotics and anatomy,drive systems and sensorical systems in robots.
  • To provide  the concepts of vision system and image processing
  • To equip students to write programs for automatic functioning of a robot
  • To make them familiar with various robot sensors and their perception principles that enable a robot 
Syllabus.pdfSyllabus.pdf
  • To gain knowledge on how computers are integrated at various levels of planning and manufacturing.
  • To understand the flexible manufacturing system and to handle the product data and various software used for manufacturing.
  • To obtain knowledge of key manufacturing technologies and their underlying principles applied in current manufacturing industry
s8_mech1484030707.pdfs8_mech1484030707.pdf

Teaching Scheme: 3(L) - 1(T) - 0(P)                                                                               Credits: 4 

Course Objectives: The main objectives of this course are:

  • To provide the students with an overview of various aircraft engines
  • To provide students with an overview of various rocket technologies and applications
  • To provide students with knowledge of the tools to analyze various rocket propulsion systems such as liquid propellant rocket engines, solid propellant rocket motors, multi-stage launch vehicles, arcjets, solid core nuclear thermal rocket motors, and ion thrusters.
  • To provide the students with an overview of the testing of rocket engines
Syallabus.pdfSyallabus.pdf

Course Objectives:
The main objective of this course is to provide the students a basic understanding of the construction and working of various parts and systems of an automobile.

automobile syllabus.pdfautomobile syllabus.pdf

Course Objective: The main objectives of this course is to provide students with a general awareness on the importance of energy and its conservation, its impact on society, various energy sources, energy conversion processes, energy management, energy audit and energy conservation measures.

Energy resources, Energy conversion processes and devices – Energy conversion plants – Conventional - Thermal, Hydro, Nuclear fission , and Non – conventional – Solar, Wind Biomass, Fuel cells, Magneto Hydrodynamics and Nuclear fusion. Energy from waste, Energy plantation.

Energy storage and Distribution – Electrical energy route – Load curves – Energy conversion plants for Base load , Intermediate load, Peak load and Energy displacement – Energy storage plants Energy Scenario – Global and Indian –Impact of Energy on economy, development and environment, Energy policies, Energy strategy for future.

Energy Management – Definitions and significance – objectives –Characterizing of energy usage – Energy Management program – Energy strategies and energy planning Energy Audit – Types and Procedure – Optimum performance of existing facilities – Energy management control systems – Computer applications in Energy management.

Energy conservation – Principles – Energy economics – Energy conservation technologies – cogeneration – Waste heat recovery – Combined cycle power generation – Heat Recuperators – Heat regenerators – Heat pipes – Heat pumps – Pinch Technology. Energy Conservation Opportunities – Electrical ECOs – Thermodynamic ECOs in chemical process industry – ECOs in residential and commercial buildings – Energy Conservation Measures

Course Objective: The main objectives of this course is to provide students with a general awareness on the importance of energy and its conservation, its impact on society, various energy sources, energy conversion processes, energy management, energy audit and energy conservation measures.

Energy resources, Energy conversion processes and devices – Energy conversion plants – Conventional - Thermal, Hydro, Nuclear fission , and Non – conventional – Solar, Wind Biomass, Fuel cells, Magneto Hydrodynamics and Nuclear fusion. Energy from waste, Energy plantation.

Energy storage and Distribution – Electrical energy route – Load curves – Energy conversion plants for Base load , Intermediate load, Peak load and Energy displacement – Energy storage plants Energy Scenario – Global and Indian –Impact of Energy on economy, development and environment, Energy policies, Energy strategy for future.

Energy Management – Definitions and significance – objectives –Characterizing of energy usage – Energy Management program – Energy strategies and energy planning Energy Audit – Types and Procedure – Optimum performance of existing facilities – Energy management control systems – Computer applications in Energy management.

Energy conservation – Principles – Energy economics – Energy conservation technologies – cogeneration – Waste heat recovery – Combined cycle power generation – Heat Recuperators – Heat regenerators – Heat pipes – Heat pumps – Pinch Technology. Energy Conservation Opportunities – Electrical ECOs – Thermodynamic ECOs in chemical process industry – ECOs in residential and commercial buildings – Energy Conservation Measures

The main objectives of this course are
 To give an introduction to industrial engineering
 To give awareness about productivity and quality
 To understand the importance industrial engineering in the field of mechanical engineering so as to face challenges for the future engineers in industry.

Introduction to Industrial Engineering- Evolution of modern Concepts in Industrial Engineering , Functions of Industrial Engineering, Field of application of Industrial Engineering. Product Development and research- Design function, Objectives of design, Manufacturing vs. purchase, Economic aspects C-V-P analysis, (Problems on CVP analysis). Development of designs- prototype, production and testing – Selection of materials and processes, Human factors in design- Value Engineering, Job plan

Plant layout and Material handling- principles of material handling, Types of material handling equipments, Selection and application.
Introduction to Flexible manufacturing systems, Preventive and break- down maintenance - Replacement of equipments- Method of providing for depreciation- Determination of economic life - Simple problems.
Methods engineering: Analysis of work methods using different types of process chart and flow diagrams- Critical examination- Micro motion study and THERBLIGS - SIMO chart- Principles of motion economy – determination of allowances and standard time.

Job evaluation and merit rating – Objectives and principles of job evaluation- merit incentive plan – Merit rating plans. Wages and Incentives- Primary wage systems- Time rate and piece rate system of wage payment- Incentive plans- essentials of a good wage incentive plan- Non-monitory incentives.
Industrial relations- Psychological attitudes to work and working conditions – fatigue-Methods of eliminating fatigue Effect of Communication in Industry, causes effects of industrial disputes- Collective bargaining- Trade union – Workers participation in management.
Production planning and control- Importance of planning – job, batch and mass production- Determination of economic lot size in batch production- Functions of production control – Routing , Scheduling, dispatching and follow up- Gantt charts.

Inventory Control, Inventory models -Determination of EOQ and reorder level, selective inventory control techniques. (Problems with and without stock out conditions), Supply chain management (overview only) Quality control and Inspection- Destructive and non-destructive testing methods- process capability- Statistical quality control and control charts for X and R. (Simple problems without using SQC table) Acceptance sampling and operation characteristic curves- System reliability- life testing-Bath tub curve.
Introduction to concepts of Bench marking, TQM, ISO, Six Sigma and Quality circles(Brief description only).