Name
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Title
|
Author
|
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DR497-02E-200-001A
|
Conceptual Design of a Furnace for an Indirectly Fired Cycle Micro Gas Turbine
|
Aaron Knoll
|
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DR497-02E-200-002A
|
Emissivity Program
|
Aaron Knoll
|
|
DR497-02E-200-003A
|
Preliminary Mechanical Design
|
Aaron Knoll
|
|
DR497-02E-200-005A
|
Design methodolgy for Pseudo-Air-Fuel Premixer
|
Fassike Hailemeskel
|
|
DR497-02E-200-006A
|
Simplification of the Combustion Chamber for Computational Fluid Dynamics analysis
|
Fassika Hailemeskel
|
|
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TDR497-02E-200-001A
|
Design for 2-D Computational Fluid Dynamics Analysis
|
Fassika Hailemeskel
|
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TDR497-02E-200-002A
|
Verification of a Design Algorithm for a Conventional Combustion Chamber, Including Features
|
Kim Mitchell
|
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TDR497-02E-200-003A
|
Preliminary Design of the Directly Fired Cycle Combustor
|
Kim Mitchell
|
|
TDR497-02E-200-004A
|
Detailed Design of a Premixed Combustion Chamber
|
Kim Mitchell
|
|
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Detailed Design of a Premixed Comubustion Chamber, Using Air as the Working Fluid
|
Kim Mitchell
|
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TDR497-02E-200-007A
|
GAMBIT Design for 3-D Computational Fluid Dynamics ANalysis of Pseudo-Air-Fuel Premixer
|
Fassika Hailemeskel
|
|
|
DR4907-03GT-201-001
|
Selection of Masic Combustion Chamber Configuration
|
Tyson Ferguson
|
|
DR4907-03GT-201-001
|
Combustion Chamber Flame Temperature
|
Sean Hutchinson
|
|
DR4907-03GT-201-003
|
Combustion Chamber Design
|
Sean Hutchinson
|
|
|
TDR4907-03GT-200-001
|
Importing parts from Pro/E for use in CFX 5.6
|
Phillip Castonguay
|
|
TDR4907-03GT-200-002
|
Creating a CFD Model of the Combustion Chamber in Pro/E
|
Phillip Castonguay
|
|
TDR4907-03GT-200-003
|
Setting up the Combustion Chamber Model in CFX-5
|
Phillip Castonguay
|
|
TDR4907-03GT-200-004
|
How to Use Parallel Processing for CFX-5 in Linux
|
Phillip Castonguay
|
|
TDR4907-03GT-200-005
|
Implementing Porous Walls in the Cooling Slots
|
Phillip Castonguay
|
|
TDR4907-03GT-201-002
|
Calculation of Single Species CO2 Dissociation
|
Sean Hutchinson
|
|
|
DR4907-04GT-200-001
|
Continued Mechanical Design of Combustor for the Raven Zero-Emission GT
|
Aleksander Wisniewski
|
|
DR4907-04GT-200-002
|
Adiabatic Flame Temperature in Air and Carbon Dioxide
|
Milenka Mitrovic
|
|
DR4907-04GT-200-003
|
Preliminary Methane and Propane Fuel Tank Sizing
|
Milenka Mitrovic
|
|
DR4907-04GT-200-004
|
Preliminary Camera System Selection
|
Milenka Mitrovic
|
|
DR4907-04GT-200-005
|
Analysis of Pipe System for Blower to Test Rig Connection
|
Andrew Bonnel
|
|
DR4907-04GT-200-006
|
Mechanical Design of Experimental Combustor for the Raven Zero-Emission GT
|
Aleksander Wisniewski
|
|
DR4907-04GT-200-007
|
Calculation of Losses for Fuel Feed Piping
|
Aleksander Wisniewski
|
|
DR4907-04GT-200-008
|
Cold Flow Testing Suitability of ABS Plastic Model
|
Aleksander Wisniewski
|
|
DR4907-04GT-200-009
|
Cold Flow Testing Methodology
|
Andrew Bonnell
|
|
DR4907-04GT-200-010
|
Design of a Premixers Test Rig
|
Andrew Bonnell
|
|
DR4907-04GT-200-011
|
Determining Test Rig Maximum Operating Conditions
|
Andrew Bonnell
|
|
DR4907-04GT-200-012
|
Test Rig Design
|
Milenka Mitrovic, Andrew Bonnell
|
|
DR4907-04GT-200-013
|
Instrumentation Selection
|
Milenka Mitrovic
|
|
|
TDR4907-04GT-200-001
|
Cold Flow Modelling in CFX 5.7
|
Sarfraz Khan
|
|
TDR4907-04GT-200-002
|
Turbulence Model Selection in CFX 5.7
|
Sarfraz Khan
|
|
|
DR4907-05GT-200-001
|
Changes to Air Delivery System Design
|
Thomas Henhoeffer
|
|
DR4907-05GT-200-002
|
Combustor Test Rig Air Delivery System Pressure Losses
|
Thomas Henhoeffer
|
|
DR4907-05GT-200-003
|
Combustor Test Rig Support Structure Failure Analysis
|
Thomas Henhoeffer
|
|
DR4907-05GT-200-004
|
Support Frame Design and Fabrication
|
Thomas Henhoeffer
|
|
DR4907-05GT-200-005
|
Analysis of Airflow Distribution Through the Liner Using CFX 10.0
|
Nathan Maron
|
|
|
TDR4907-05GT-200-001
|
Pipe Flow Pressure Loss Program
|
Thomas Henhoeffer
|
|
TDR4907-05GT-200-002
|
Modelling Pipe Flow in CFX 10.0
|
Nathan Maron
|
|
TDR4907-05GT-200-003
|
Hot Flow Modelling in CFX 10.0
|
Nathan Maron
|
|
TDR4907-05GT-200-004
|
Turbulence
|
Harun Oria
|
|
TDR4907-05GT-200-005
|
Introduction to ANSYS CFX 10.0
|
Harun Oria
|
|
TDR4907-05GT-200-006
|
Excel Species Calculation Program for Combustion in CFX 10.0
|
Nathan Maron
|
|
TDR4907-05GT-200-007
|
Verification of a Hot Flow Model Using CFX 10.0
|
Nathan Maron
|
|
TDR4907-05GT-200-008
|
How to Create a Flood Plot in ANSYS CFX 10.0
|
Harun Oria
|
|
TDR4907-05GT-200-009
|
Numerical Simulation of Laminar Pipe Flows
|
Harun Oria
|
|
TDR4907-05GT-200-010
|
Numerical Simulation of Turbulent Pipe Flows
|
Harun Oria
|
|
TDR4907-05GT-200-011
|
Numerical Simulation of Flow Through the Combustor Premixers
|
Harun Oria
|
|
|
DR4907-06GT-200-001
|
Combustor Test Rig Premixer Swirler Preliminary Design Using Empirical Correlations in Mathcad
|
Ghassan Marjaba
|
|
DR4907-06GT-200-002
|
Aquiring Data Using a LabVIEW Program Called 2.1.3
|
Jason Van Gaal
|
|
DR4907-06GT-200-003
|
SUFFIX TO DR4907-06GT-200-001
|
Ghassan Marjaba
|
|
DR4907-06GT-200-004
|
DESIGN PROCEDURE AND RATIONAL FOR THE CURVED BLADE SWIRLER
|
Ghassan Marjaba
|
|
DR4907-06GT-200-005
|
RECOMMENDATION FOR CONTINUING AND COMPLETING THE PREMIXER DESIGN
|
Ghassan Marjaba
|
|
DR4907-06GT-200-006
|
PARAMETRIC STUDIES USING N-HEPTANE
|
Gewana Abdelmesih
|
|
DR4907-06GT-200-007
|
ACQUIRING DATA AND CONTROLLING A TEST RIG USING LABVIEW
|
Jason van Gaal
|
|
|
TDR4907-06GT-200-001
|
Premixer Swirler Design Using Empirical Correlations in Mathcad
|
Ghassan Marjaba
|
|
TDR4907-06GT-200-002
|
First Steps in Modelling Premixer Swirlers in CFX 10.0
|
Ghassan Marjaba
|
|
TDR4907-06GT-200-003
|
Modelling Reacting Flow Using Chemical Reactor Theory
|
Gewana Abdelmesih
|
|
TDR4907-06GT-200-004
|
Beginners Guide to Designing a Data Acquisition System
|
Jason Van Gaal
|
|
TDR4907-06GT-200-006
|
SUFFIX TO TDR4907-06GT-200-001
|
Ghassan Marjaba
|
|
TDR4907-06GT-200-007
|
PROCESS TO MODEL THE PREMIXER USING ANSYS CFX 10.
|
Ghassan Marjaba
|
|
TDR4907-06GT-200-008
|
VALIDATING CHEMKIN RESULTS WITH COALESCENCE/DISPERSION MODEL
|
Gewana Abdelmesih
|
|
TDR4907-06GT-200-009
|
CHEMKIN PROJECT INPUTS FOR DIESEL
|
Gewana Abdelmesih
|
| TDR4907-06GT-200-010 |
HOW TO CALCULATE THE DISCHARGE COEFFICIENT OF A COMBUSTOR TEST RIG |
Jason van Gaal |
|
| |
Preliminary Combustor Design Configurations |
Sam Bewick |
| |
One Megawatt Test Plant Parameters |
Sam Bewick |
| |
Heat Exchanger Sizing for the One Megawatt S-CO2 Test Plant |
Sam Bewick |
| |
Analysis of a Diffusion Burner for the S-CO2 Power Plant |
Anne Mason |
| |
Preliminary Design of a Ring Stabalized Premixed Burner |
Anne Mason |
| |
Combustor Modelling and Analysis with CHEMKIN |
Anne Mason |
| |
Specific Flow Rates for External Combustor Designs |
Mike Nunn |
| |
HYSYS Combustion Model |
Mike Nunn |
| |
Combustor Process Analysis Using Matlab and CEA |
Mike Nunn |
| |
Combustion Cycle Analysis Program |
Mike Nunn |