University of Ontario Institute of Technology (UOIT)
CONCURRENT
MECE 2310U

Fall 2016
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University of Ontario Institute of Technology (UOIT)
CONCURRENT
MECE 2310U

Fall 2016
MECE 2310U Laboratory Manual 3 Fall 2016
Faculty of Engineering and Applied Science
MECE2310U Concurrent Engineering and Design
Fall 2016
Course Instructor:
Prof. Remon PopIliev, Ph.D, P.Eng
Prof. Armirhossein Monjazeb, Ph. D
Lab Instructor:
Qi Shi (qi.s
University of Ontario Institute of Technology (UOIT)
CONCURRENT
MECE 2310U

Fall 2016
Faculty of Engineering and Applied Science
MECE 2310U Concurrent Engineering and Design
Fall 2016
Course Instructors:
Prof. Remon PopIliev, Ph.D, P.Eng, Sayyed Ali Hosseini, Ph. D
Lab Instructors:
Mr. Cliff Chan (cliff.chan@uoit.ca)
Mr. Qi Shi (qi.shi@u
University of Ontario Institute of Technology (UOIT)
CONCURRENT
MECE 2310U

Fall 2016
Faculty of Engineering and Applied Science
MECE 2310U  Concurrent Engineering and Design
Fall 2016
Laboratory Manual 4
Finite Element Analysis (FEA)
Course Instructor:
Prof. Remon PopIliev, Ph.D, P.Eng
Prof. Armirhossein Monjazeb, Ph. D
Lab Instructor:
University of Ontario Institute of Technology (UOIT)
CONCURRENT
MECE 2310U

Fall 2016
Faculty of Engineering and Applied Science
MECE 2310U Concurrent Engineering and Design
Fall 2016
Course Instructors:
Prof. Remon PopIliev, Ph.D, P.Eng, Armirhossein Monjazeb, Ph. D
Lab Instructors: Mr. Cliff Chan (cliff.chan@uoit.ca)
Mr. Qi Shi (qi.shi
University of Ontario Institute of Technology (UOIT)
CONCURRENT
MECE 2310U

Fall 2016
MECE 2310U Laboratory Manual 5 Fall 2016
Faculty of Engineering and Applied Science
MECE 2310 Concurrent Engineering and Design
Fall 2016
Course Instructors:
Prof. Remon PopIliev, Ph.D, P.Eng, Amirhossein Monjazeb, Ph. D
Lab Instructors:
Mr. Cliff Chan
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
MECE 2640U: THERMODYNAMICS AND HEAT TRANSFER
Assignment # 5
Due: November 14th, 2016 at 4:30 pm
(Submit to the Dropbox # 10, this box is located on the east side of the first floor of the
engineering building, near the elevator/academic advising)
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
MECE 2640U: THERMODYNAMICS AND HEAT TRANSFER
Assignment # 1
Due: September 26th , 2016 at 4:30 pm
(Submit in the Dropbox # 10 , This box is located on the east side of the first floor of the
engineering building, near the elevator/academic advising)
Quest
University of Ontario Institute of Technology (UOIT)
CONCURRENT
MECE 2310U

Fall 2016
MECE 2310U Concurrent Engineering and Design
Fall 2016
Prof. Remon PopIliev, Ph.D, P.Eng, FCSME
MECCANO Mechanical Design Kit Agreement Form
The Faculty of Engineering and Applied Science (FEAS), UOIT, agrees to grant to the identified group of
students
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
MECE 2640U: THERMODYNAMICS AND HEAT TRANSFER
Assignment # 3
Due: October 12th, 2016 at 4:30 pm
(Submit to the Dropbox # 10, this box is located on the east side of the first floor of the
engineering building, near the elevator/academic advising)
Question
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
MECE 2640U  Thermodynamics & Heat Transfer (Fall 2016)
Assignment # 6
Due: November 28, 2016 at 8:00 pm
Question 1: What is the physical meaning of the Nusselt number? Explain in words how
the Nusselt number is defined.
Question 2: Explain the difference
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
MECE 2640U: THERMODYNAMICS AND HEAT TRANSFER
Assignment # 4
Due: October 31st , 2016 at 4:30 pm
(Submit to the Dropbox # 10, this box is located on the east side of the first floor of the
engineering building, near the elevator/academic advising)
Question
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
Problem
on
st
Basic Concepts and 1 Law
Anand Joshi
Academic Associate
Outline
Pressure
Change in Energy of a system
1st Law of Thermodynamics
Efficiency
Pressure
Absolute Pressure
Gage Pressure
Vacuum Pressure
THE MANOMETER
It is commonly used to m
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
Problems
on
Steady Heat Conduction
Anand Joshi
Academic Associate
Heat Loss through DoublePane Windows
Solution:
Heat Loss from an Insulated Electric Wire
Solution:
In steady operation, the rate of heat transfer becomes equal to the heat
generated within
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
After State 1, since it is given in the problem that
MIXTURE is then heated until its temperature
becomes 150oC Therefore, it is reasonable to
assume that the substance remains in the form of
Mixture of Saturated liquid and Vapor. Therefore,
the State 2 b
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
Problem
on
nd
2 Law and MT Review
Anand Joshi
Academic Associate
Net Power Production of a
Heat Engine
2
Analysis of a Carnot Heat Engine
A Carnot heat engine (see figure), receives 500 kJ of
heat per cycle from a high temperature heat source
at 652oC and
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
Problem
on
Closed and Open Systems
Anand Joshi
Academic Associate
Outline
Problems on Closed Systems (Chapter 5)
Electric Heating of a Gas at Constant Pressure
Cooling of a Hot Fluid in a Tank
Heating of a gas at constant pressure
Enthalpy of Compressed
University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
dial) 4835) P2.
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University of Ontario Institute of Technology (UOIT)
Thermodynamics and Heat Transfer
MECE 2640

Fall 2012
MECE2320UTHERMODYNAMICSFORMULA SHEET (for Final Exam)
Mechanical Energy:
2
Electrical Work:
2
2
Shaft Work:
2
For steadyflow systems:
Work flow:
,
Boundary movement work:
Spring Work:
Ideal gas equation:
Isobaric Process:
where P
P
P
constant
8.31
University of Ontario Institute of Technology (UOIT)
CAD
MECE 3030

Fall 2016
Computer Aided Design
Yuelei Yang, PhD
Lecture 6
Synthetic Curves
o Analytic curves usually not sufficient to meet
geometric design requirements
o Several products require freeform, or synthetic,
curves and surfaces
Need for synthetic curves in design a
University of Ontario Institute of Technology (UOIT)
Kinematics and Dynamics of Machines
MECE 3270

Fall 2016
Kinematics & Dynamics of Machines
(MECE 3270U)
Instructor: Dr. Sayyed Ali Hosseini, P.Eng.
Lecture #3
In last lecture, we covered:
Few definitions
Examples of mechanisms
Degree of freedom and mobility
Lecture #3
Today, we will cover
Kinematic chain
M
University of Ontario Institute of Technology (UOIT)
CAD
MECE 3030

Fall 2016
COMPUTER AIDED DESIGN
UOIT Fall 2016
COORDINATE SYSTEMS
oThree types of coordinates systems are needed to
input, store, and display model geometry and graphics
Model Coordinate System (MCS)
Working Coordinate System (WCS)
Screen Coordinate System (SCS)
CO
University of Ontario Institute of Technology (UOIT)
Kinematics and Dynamics of Machines
MECE 3270

Fall 2016
Kinematics & Dynamics of Machines
(MECE 3270U)
Instructor: Dr. Sayyed Ali Hosseini, P.Eng.
Lecture #2
In last lecture, we covered:
Course organization and outlines
Lecture #2
Today, we will cover
Few definitions
Examples of mechanisms
Degree of freedo
University of Ontario Institute of Technology (UOIT)
Kinematics and Dynamics of Machines
MECE 3270

Fall 2016
Kinematics & Dynamics of Machines
(MECE 3270U)
Instructor: Dr. Sayyed Ali Hosseini, P.Eng.
Lecture #4
In last lecture, we covered:
Kinematic chain
Mechanism inversion
Grashofs criterion
Lecture #4
Today, we will cover
Review of mechanism mobility and
University of Ontario Institute of Technology (UOIT)
CAD
MECE 3030

Fall 2016
Computer Aided Design
Yuelei Yang, PhD
Lecture 5
Parametric Equations of Lines
o Vector parametric equations of straight lines
can be derived for various line definition cases
o A line connecting two end points
o A line passing through a point P1 in a dir