Analysis of a Nulling Yaw Probe ME 450: Computer Aided Engineering Analysis Instructor: Dr. Nema Group members: Billy Holland, Alan Koers, Allison Heying.

Slides:

Advertisements

Similar presentations

Introduction to CAD/CAM/CAE

Advertisements

Some Interesting Facts about Mechanical Engineering

Charles A. Ward Thermodynamics and Kinetics Laboratory, University of Toronto Fluid Behavior In Absence Of Gravity: Confined Fluids and Phase Change Second.

Fin Design for Maximum Thermal Dissipation ME 450: Computer Aided Engineering Analysis Instructor: Dr. Nema Group Members: Wei-Yuan Chu, Brad Holtsclaw,

Cylinder performance characteristics. Piston force Cylinder performance characteristics can be determined theoretically or by the use of manufacturer’s.

ME 450 Group Adrian Conrad Chris Cook Thomas Hylton Nathan Wagers High Pressure Water Fixture Conceptual Design Analysis December 10, 2007.

Moonbuggy Rear Suspension Analysis ME450: Computer-Aided Engineering Analysis Department of Mechanical Engineering, IUPUI Instructor: Dr. Koshrow Nematollahi.

Ljudreduktion för maskiner som arbetar i flera kvadranter 17/ Liselott Ericson.

Exp.4: Rubber in Shear Apparatus Eng. Ahmed Y Manama Eng. Saeed A Shurab Eng. Ahmed Al Afeefy.

Filament Winding Machine. Project Name – Filament Winding Machine Project Number – P09226 Project Family – Competitive FSAE Autosports Systems Project.

Team Members: Félix O. Rivera Vélez Héctor M. Lebrón García Héctor J. Collazo Carro Orlando Valladares López.

Aerodynamic Study of Go-kart Nose Cones ME450 Introduction to Computer Aided Engineering Becker, Joe Professor H. U. Akay May 1, 2000.

Senior Design Fixture Analysis ME 450: Finite Element Analysis Dr. K Nema Final Project Javier Angulo Matt Schonauer Avery Sheets.

M.E. 462 Capstone Design I.U.P.U.I. Spring 2007 Bishop Steering: 1970 Lotus Europa Front Axle Re-design Aaron Emmons Phil Palmer Brad Holtsclaw Adam Spindler.

PREPARED BY: JANAK GAJJAR SD1909.  Introduction  Wind calculation  Pressure distribution on Antenna  Conclusion  References.

Greg Hyde Raymond Zheng Joseph Rojano Katie Bentley Lori Liebman P14414 P3 ARBORLOO WIND RESISTANCE TEST STAND DETAILED DESIGN REVIEW 1.

Finite Element Primer for Engineers: Part 2

Class of 2002Jason Petrie Undergraduate Computer Aided Design Mechanical Engineering University of Massachusetts – Amherst

CHAP 6 FINITE ELEMENTS FOR PLANE SOLIDS

Synthetic Jet Actuators for Aerodynamic Control

Next: Wind Turbine Rotors Goal ?. Question 1  Divergent thinking consists of A) Selection of unique answer B) Brainstorming many ideas.

Ultrasonic Probe Manipulator Group:Chris Weisheim Tim Pommer Rishi Govalakrishnan Alan Koers Mentor: Dr. Jie Chen Sponsor: IU Medical School Department.

1 AVC GOLLEGE OF ENGINEERING. MANNAMPANDAL. DEPARTMENT OF MECHANICAL ENGINEERING.

W IND –2– H 2 O MECH 4010: Design I Group 12: Jeffrey Allen Daniel Barker Andrew Hildebrand Supervised by: Dr. Alex Kalamkarov Client: Dr. Graham Gagnon.

Loading Apparatus for High Velocity Tissue Rupture Mechanical Engineering Dalhousie University Senior Design Project Winter 2010.

Wind Turbine Support Structure

Capstone Team  Andre Nylund  Chris Grewell  Craig Lechtenberg  Fadel Al Jutail  Matt Melius  Mufeed Yacoub Team Advisor  Dr. Raul Bayoán Cal Customer.

Component Environmental Test Chamber Jeff Hughes 1, Peter Adam 1, Thong Vo 2 and Phong Ngo 2 1. Department of Mechanical and Material Engineering, 2. Department.

The Dalles Cooling Water Strainer At present The Dalles project has installed seven “Hellan” Fluid strainers or what is called on project as main unit.

The Finite Element Method A Practical Course

Building Fun You will have 30 minutes to build the strongest structures you can with only the materials you are provided with. Explain to the class the.

Safe Spot ME 4182 Midterm Presentation February 22, 2006 J.J. Couvillion - Drew Bartlett - Manish Patel - Nick Roberts - Elisha Mellitz.

The City College of New York Department of Mechanical Engineering Assembly and Analysis of Collectors Edition Chevy Impala Group Members: Dave Maharaj.

Imran Ahmed Tony Martinelli Rob Ramer Pete Rogers.

6. Comments of Group Members 1. Materials Used 2. Design 3. Application of Physics Principles 4. Results of Experiment 5. Conclusion and Discussion.

Wind Turbine Design and Implementation. Team Members Members: Luke Donney Lindsay Short Nick Ries Dario Vazquez Chris Loots Advisor: Dr. Venkataramana.

Mechanics of Materials(ME-294) Mechanics is the branch of physics that is concerned with the analysis of the action of forces on matter or material systems.

Status report AHCAL Mechanics Karsten Gadow CALICE Collaboration Meeting KEK, Studies of AHCAL absorber structure stability.

ME 101: Fluids Engineering Chapter 6 ME Two Areas for Mechanical Engineers Fluid Statics –Deals with stationary objects Ships, Tanks, Dams –Common.

P16221 – FSAE Shock Dynamometer Problem Definition Review.

Period 7.   The more curved side generates low air pressures, due to more surface area. While high pressure air, pushes on the other side of the design.

Redesign of Lotus Europa Front Suspension ME 450: Finite Element Analysis Spring 2007 Presented by: Bart Sudhoff, Zachary Lightner, Jim Milligan, Brian.

Ansys Workbench 10 Case Study with Introduction to Fluid Analysis ME 520 Fundamentals of Finite Element Analysis.

ME450 Project. Gearbox Analysis  ME450 Finite Element Analysis  Fall Semester, 2007  Prof: Dr. K. Nematollahi  Team Members  Aaron Huesman  Jae.

Chapter 6 MOMENTUM ANALYSIS OF FLOW SYSTEMS

Design of a Nulling Yaw Probe for a Gas Turbine Engine Test Rig

Ansys Workbench 11 Case Study with Design Optimization ME 520 Fundamentals of Finite Element Analysis.

ME 160 Introduction to Finite Element Method-Spring 2016 Topics for Term Projects by Teams of 2 Students Instructor: Tai-Ran Hsu, Professor, Dept. of Mechanical.

Bicycle Wrench Analysis

Lecture 8 Elements of Soil Mechanics

ARC 810: Building Climatology Department of Architecture, Federal University of Technology, Akure, Nigeria ARC 810: Building Climatology Department of.

SHERINE RAJ AP/CIVIL ENGINEERING DEPARTMENT OF SCD

FINAL PRESENTATION Western Michigan University Advisors:

VERTICAL AXIS WIND TURBINE:

WIND ENERGY By: Manjunath Terwad.

1D OF FINITE ELEMENT METHOD Session 4 – 6

Machine Elements in Mechanical Design

Effect Of Wind Load On High Rise Buildings PRESENTED BY, SRUTHI SIVAKUMAR ROLL NO : 20 SECM,S3, M TECH SJCET,PALAI GUIDED BY, Mrs.MARIAMOL KURIAKOSE ASSISTANT.

Anatomy of Modern Wind Turbines-1

H.A.W.T. Development Prototype and Testing - Final Report

Introduction to Finite Element Analysis for Skeletal Structures

Team Members: Sagar Sheth Team Leader Leonardo Silva Industrial Eng.

GENERAL VIEW OF KRATOS MULTIPHYSICS

Exoskeleton Finite Element Analysis

Arch205 building construction Introduction

Airframe Measurements P09233

Cryostat System: FE Global Model

Bicycle Wrench Analysis

Projectiles at an Angle

Presentation transcript:

Analysis of a Nulling Yaw Probe ME 450: Computer Aided Engineering Analysis Instructor: Dr. Nema Group members: Billy Holland, Alan Koers, Allison Heying

Objectives  Determine if stress or displacement will negatively affect function of device Study vertical position of motor Study horizontal position of motor Study probe when exposed to air flow

Introduction  Apparatus to observe pressure and flow angle of annular flow in turbine engine  462 project added component to allow for flow yaw angle measurement  Main area of concern is support for motor

Complete Assembly Probe Motor Track Motor Support Housing Rack

Theoretical Background  Solid 92 (Tetrahedral Solid): 10 Nodes, 3-D Space, DOF: UX, UY, UZ  Is the WORKBENCH default element

Model Details: Sub Assembly  Element Type: SOLID92  Elements: 2579  Nodes: 10004

Model Details: Sub Assembly  Model grounded at mounting holes in tracks  Moments applied to motor support mounting holes

Model Details: Yaw Probe  Element Type: SOLID92  Elements: 2964  Nodes: 5859

Model Details: Yaw Probe  Model grounded at probe base  Pressure due to wind speed applied surface of probe

Stress at Vertical Orientation

Displacement at Vertical Orientation

Stress at Horizontal Orientation

Stress at Horizontal Orientation (bottom)

Displacement at Horizontal Orientation

Stress in Probe

Displacement of Probe

Results

Impact Statement  Probe apparatus will be safe for users  Knowledge of flow angle and pressure in turbine engine will allow for improvements

Conclusions  Design will have no problems due to stress or deformation  Factor of safety is at least 40

Questions Sources Finite Element Analysis by Saeed Moaveni Introduction to Fluid Mechanics by Robert Fox Mechanics of Materials by John Dewolf