Introduction to Control Systems, Mathematical
Modeling of Control Systems, Mathematical Modeling of Mechanical Systems,
Mathematical Modeling of Fluid Systems and Thermal Systems, Transient and
Steady-State Response Analyses, Control Systems Analysis and Design by the
Frequency-Response Method
Hydraulic Turbines, Governing and Performance of
Hydraulic Turbine, Reciprocating Pumps, Centrifugal Pumps, Miscellaneous
Hydraulic Devices and Machines
The Scope and Uses of
Air-Conditioning, Heating Loads, Fans and Air Distribution Devices,Psychometric
Analysis and Human Comfort, Commercial and Residential Cooling Load Design, Flow
of air in Duct Design, Vapour compression refrigeration with multi -pressure
system
Ignition System; Diesel Fuel Injection System;
Combustion in SI Engines; Combustion in CI Engines; Engine Friction and
Lubrication; Engine Cooling System; Two-Stroke Engines
Replacement Analysis and Selection among Alternatives, Linear Programming and Transportation Problem, Assignment and Sequencing Models, Principle of Management, project Management PERT and CPM, Resource Levelling, Definition of quality, Dimensions of Quality, Quality Planning, Assurance and Control, Cost of quality, Total quality Management, Seven Basic Tools for Quality Control, Quality Function Deployment
Students will develop and practice engineering
design skills by working on a team-based project. Students will experience all
phases of the design process, including: problem definition, generation and
evaluation of concepts, engineering analysis and testing, and preparation of
design documentation. Project management and communications skills will also be
emphasized.
Axial Flow Compressors; Combustion Systems;
Axial and Radial Flow Turbines; Prediction of Performance of Simple Gas Turbine