COURSE OBJECTIVES:
• Describe the basic concepts of automation in manufacturing systems.
• Acquire the fundamental concepts of automated flow l ines and thei r
analysis.
• Classify automated material handling, automated storage and retrieval systems.
• Illustrate adaptive control systems and automated inspection methods.
Course Outcomes:
Upon completion of this course the student will be able to:
1. Illustrate the basic concepts of automation in machine tools.
2. Analyze various automated flow lines, Explain assembly systems and line balancing
methods.
3. Describe the importance of automated material handling and storage systems.
4. Interpret the importance of adaptive control systems, automated inspection systems.
- Teacher: Bala Krishna G
COURSE OBJECTIVES:
• List the basic types of automobiles and their classification
• Recognize the importance of fuel system, cooling system, ignition system and
emission control techniques from automobiles
• Interpret construction, working and functions of electrical, transmission, steering,
suspension, braking systems.
COURSE OUTCOMES:
Upon completion of this course the student will be able to:
1. Explain basic concepts of Automobile Engineering, types of engines and components
of automobiles.
2. Describe the functions of fuel, cooling and ignition systems.
3. Describe the concepts of transmission and suspension systems
4. Illustrate steering and braking systems of an automobile
5. Discuss the concept of electrical system, emissions from automobiles and alternative
energy resources
- Teacher: Mastan Rao P
COURSE OUTCOMES:
1. Identify the pneumatic, hydraulic and electro-pneumatic components used in automation.
2. Demonstrate the features of various simulation software.
3. Design and execute the pneumatic, hydraulic and electronic circuits for various mechanical applications
Apply the knowledge of MATLAB software to write simple programs- Teacher: Srinag T
COURSE OBJECTIVES:
· List the various sources of energy
· Acquire the knowledge of power generation from steam, diesel, gas, hydro, nuclear and non- conventional energies.
· Define power plant economics and environmental considerations.
COURSE OUTCOMES:
Upon completion of this course the student will be able to:
1. Describe various energy sources and combustion processes in steam power plants.
2. Classify diesel and gas turbine power plants layout with auxiliaries.
3. Relate hydro projects classifications, fusion and fission reactions in nuclear power plants and types of reactors.
4. Estimate the advantages of combined working of different power plants and importance of measurement and instrumentation in power plant.
5. Explain the concepts of power plant economics and impact of its effluents on environment.
- Teacher: Anusha P