Chen Guan
**** ****** ***** **, ** ***** M:
513-***-**** Mail:
acn128@r.postjobfree.com
Career Objective
Seeking for a Mechanical Engineering position specialized in Design and
Release Engineer.
Education
University of Dayton, Dayton OH
May. 2014
Master of Science: Mechanical Engineering
GPA: 3.6
Coursework: Noise & Vibration Control, Dynamic System Analysis & Control,
Modern Control System,
Kinematic Principle Design, Finite Element Analysis,
Computer Method Design.
Inner Mongolia University of Technology, Hohhot, China
Jul. 2011
Bachelor of Science: Mechanical Engineering
GPA: 3.8
Industrial & Academic Project
. Prediction model of Discharge Line Temperature (DLT) of hermetic
compressors
Present various thermodynamic prediction methods that do not rely on
individual compressor-specific parameters to estimate the DLT in MATLAB.
Compare the predicted DLT with the measured DLT to find out the method
exhibiting an accuracy that significantly exceeds the other methods.
Conduct a study to determine the robustness of the model by analyzing the
relationship between the accuracy of the model and the number of
experimental points used to produce the model.
. Stress & Strain analysis of a cellular steel I-beam
Using Abaqus Sketch the beam and set the basic parameters, including the
material properties physical properties and property assignment, to build
the model. Use the given information to determine the load distribution and
the boundary conditions as required. Select several mesh methods to
generate the results of stress and strain which could provide a good
convergence.
. Anti-Swing Feed-back Control System Design for a crane
Build a crane-cart dynamic model and obtain the data of the cart including
displacement, angular displacement and angular velocity to control the
vibration of the cart. Add a P controller and feedback the cart
displacement to increase the speed of the crane. Add a D active controller
and feedback the angular velocity to increase the damping force in the
system preventing the cart from vibrating too heavily. Add another active
controller and feedback the angular displacement to reduce the amplitude of
the vibration and increase the stability of the system.
. Helmholtz Resonator Design
Collect the data of the size of the duct and the rate change of volume
velocity at the perturbation source to build an acoustic model of the duct.
Add a Helmholtz Resonator which is attached as a side branch acoustic
absorber to the main conduit carrying fluid. Compare the frequency response
function of the duct with the perturbation as the input and pressure of the
open end of duct as output to show the effectiveness of the Helmholtz
Resonator. Change the size of the Resonator to get a better result.
Internship Experience
Mechanical Design Engineer at GE Healthcare (Beijing)
Jun.-
Aug. 2013
. Participate in TAICHI Project to design, draft and localized the parts
of the Interventional Image Guided System by using Creo.
. Perform DFMEA and cost-profit analysis on the new designs.
Publications
Myszka, D.H., Guan, C., Murray, A.P., and Hodapp, T.R. "A Semi-Empirical
Prediction Model for the Discharge Line Temperature of Hermetic
Compressors", Proceedings of the 2014 International Compressor Engineering
Conference, West Lafayette, IN,
Jul. 14-17, 2014.
Computer Skills & Language
Software: MATLAB/Simulink/SimMechanics, Auto CAD, UG, CREO, Pro-E,
Microsoft Office
Language: Native speaker of Mandarin, English