Technical leader - thermal systems engineering, cold section
Education
Degree:
Bachelor of Science In Mechanical Engineering, Bachelors
School / High School:
University of Florida
1990 to 1995
Specialities:
Design, Mechanical Engineering
Skills
Gas Turbines • Engineering • Mechanical Engineering • Six Sigma • Turbines • Engineering Management • Power Generation • Energy • Product Development • Manufacturing • Gas • Factory • Program Management • Manufacturing Engineering • Team Leadership • Testing • Dmaic • Systems Engineering • Turbomachinery • Design For Six Sigma • Structural Engineering
Ge Power Oct 2012 - Dec 2016
Technical Leader - Thermal Systems Engineering, Cold Section
Ge Power Oct 2012 - Dec 2016
Manager - Gas Turbine Compressor Design
Ge Power Aug 2010 - Oct 2012
Technical Leader - Compressor and Turbine Rotor Design
Ge Power Jan 2009 - Jul 2010
Technical Leader - Compressor Rotor Design
Ge Power Apr 2006 - Dec 2008
Technical Leader - Adv Mech Design, Compressor Systems
Education:
University of Florida 1990 - 1995
Bachelor of Science In Mechanical Engineering, Bachelors, Design, Mechanical Engineering
Palm Beach Gardens High School 1986 - 1990
Skills:
Gas Turbines Engineering Mechanical Engineering Six Sigma Turbines Engineering Management Power Generation Energy Product Development Manufacturing Gas Factory Program Management Manufacturing Engineering Team Leadership Testing Dmaic Systems Engineering Turbomachinery Design For Six Sigma Structural Engineering
Bruce J. Badding - Ballston Lake NY Christopher J. Farral - Greenville SC Linda J. Farral - Greenville NC George H. Ghanime - Balllston Spa NY David M. Johnson - Simpsonville SC Govindarajan Rengarajan - Latham NY Mullahalli V. Srinivas - Niskayuna NY Julia A. Wagener - Simpsonville SC
A system and method for analyzing a baseline geometry and, optionally, a modified geometry. The method can include generating a numerical representation of a baseline geometry having baseline elements identified with first identifiers or element identifiers, and then assigning second identifiers or analyzer identifiers to the elements. A selected characteristic of the geometry, such as structural loading, is analyzed with reference to the second or analyzer identifiers. At least one of the elements of the geometry can then be altered in a manner that at least partially automatically adjusts the surrounding geometry, and the same first identifier or element identifier is associated with the altered element as was associated with the baseline, unaltered element. The altered geometry can be analyzed with respect to a third identifier (or another analyzer identifier) and a correspondence between the identifiers, the baseline element, and the altered element can be established and maintained. Accordingly, the boundary conditions and/or the mesh applied to the baseline geometry can be automatically applied to the altered geometry by referring to the first or element identifiers.