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and turbines. Fundamental introduction of Butterworth-Heinemann; 1 edition (November
Computational Fluid Dynamics (CFD). 18, 2013).
REFERENCES c. Michael F. Ashby., 2010, Materials Selection in
a. Cengel, Y.A. & Cimbala, J.M., 2009, Fluid Mechanical
Mechanics: Fundamentals and Applications, 2nd d. Design, Fourth Edition 4th Edition, Butterworth-
Ed., McGraw-Hill, Singapore. Heinemann; 4
b. Munson, B.R., Young, D.F., & Okiishi, T.H., 2009, e. edition (October 5, 2010).
Fundamentals of Fluid Mechanics, 6th Ed., Wiley,
c. Crowe, C.T., Elger, D.F., Roberson, J.A. &
Williams, B.C., 2008, Engineering Fluid BMCG 3223 CONTROL ENGINEERING
Mechanics, 9th Ed, Wiley. LEARNING OUTCOMES
At the end of the course, students should be able to:
LO1 Derive mathematical model and obtain
BMCG 3333 MECHANICAL DESIGN transfer function of dynamic systems.
LEARNING OUTCOMES LO2 Explain stability of control system using
At the end of this course, students should be able to: standard techniques in times domain and
LO1 Apply the formulation for optimized and safe analyze the time response of the system.
design based on engineering standard. LO3 Utilize frequency response techniques and its
LO2 Analyze the statics and dynamics of relative stability to control the dynamic
mechanical systems design systems.
LO3 Evaluate mechanical design system in solving SYNOPSIS
complex engineering problem. Introduction to open loop and closed-loop control
systems. Modeling of real system using differential
SYNOPSIS equations to obtain the transfer function of dynamic
This course covers a brief review of the Engineering systems and utilization of block diagrams for the
Design Process, Design for Static Strength, Design for closed-loop control system. Analysis of system for
Fatigue Strength, Linkage Mechanisms and the stability in time and frequency domains, final value,
Applications of Springs and Brakes, Design of steady-state error, overshoot and settling time.
Threaded and Welded Joints, Bearings and Shafts Application of controller such as, P, PI and PID
Design and Balancing, the Basics of Gyroscopes, algorithms to achieve the desired system response.
Gear Strength for Power Transmission,as well as the REFERENCES
Belt and Chain for Flexible Power Transmission. a. Ogata, K., 2010, Modern Control Engineering,
REFERENCES 5th Edition, Pearson Education Inc.
a. J. K. Nisbett & R. G. Budinas, 2014 Shigley’s b. Franklin, G.F., 2009, Feedback Control of
Mechanical Engineering Design, Ninth Edition in Dynamics Systems, 6th Edition, Pearson
SI Units, McGraw-Hill Companies, Inc., New Education Inc.
York. c. Ogata, K., 2004, System Dynamics, 4th Edition,
b. Peter R. N. Childs BSc. And D.Phil , 2013, Pearson Education Inc.
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