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design is included. Design for Manufacture and moist air properties and psychrometric chart and
Assembly (DFMA) is a part of this course. In addition analysis are discussed in this course.
students are required to carry out teamwork project REFERENCES
and communicate effectively in written and oral in a. Cengel, Y.A., & Boles, M.A., 2014,
the technical setting. Thermodynamics: An Engineering Approach, 8th
REFERENCES Edition, McGraw-Hill, Singapore.
a. Dieter, G.E., Schmidt, L.C, 2009, Engineering b. Moran, M.J., Shapiro, H.N., Boettner, D.D. &
Design, 4 Edition, McGraw- Hill/Higher Bailey, M.B., 2014, Fundamental of Engineering
th
Education, Singapore. Thermodynamics, 8th Edition, John Wiley &
b. Ulrich, K.T. and Eppinger, S.D., 2009, Sons, Inc.
Product Design and Development, McGraw- c. Borgnakke, C., & Sonntag, R.E., 2012,
Hill Fundamentals of Thermodynamics, 8th Edition,
c. Ullman, D.G., 2004, The Mechanical Design John Wiley & Sons, Inc.
Process, McGraw-Hill Education (Asia),
Singapore.
BMCG 3613 FLUID MECHANICS II
LEARNING OUTCOMES
BMCG 3713 THERMODYNAMICS II At the end of this course, students should be able to:
LEARNING OUTCOMES LO1 Understand and apply the principles of fluid
At the end of this course, students should be able to: mechanics (Fluid kinematics and fluid
LO1 Apply the principles of thermodynamics (the dynamics, boundary layer theory,
first and the second laws of thermodynamics) turbomachinery and similitude) to
to the optimal design of the basic energy engineering problems
conversion systems: power generation, LO2 Analyze and evaluate the flow system (wall
refrigeration and air-condition. bounded, internal and external flow and
LO2 Analyze energy conversion systems in the turbomachinery) for discerning its
course of their operation, engineering design characteristic and/or performance
quantities and their effects on the basic LO3 Evaluate the flow system (wall bounded,
performance characteristics. internal and external flow and
LO3 Design the basic energy conversion systems, turbomachinery) for engineering application
select working fluids and estimate the system SYNOPSIS
efficiency. Introduction to the concept of fluid flow. Two
SYNOPSIS dimensional ideal fluid flows. Viscous flow field and
Thermodynamics II is a continuation of differential analysis of fluid motion. Vortex and
Thermodynamics I (BMCG 2713). Thermodynamics Drag. Boundary layer theory, Von Karman Equation,
principles are applied to the analysis of power Prandtl-Blasius solution. Dimensiona Analysis and
generation, refrigeration and air-conditioning similarity. Working concepts and performance
systems. Energy and availability analysis (exergy), prediction of some fluid machineries such as pumps
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