JIAN LING
**** *** **** **, **** CHESTER OH *****
Home: 513-***-****, Cell: 513-***-****, acvrj8@r.postjobfree.com, acvrj8@r.postjobfree.com Summary
• 20 Years CFD experiences (Multiphase flow, Fuel flow and airflow dynamics)
• 12 Years GE Aviation heat transfer & cooling design experience
• Fluid and heat transfer test rig designs and tests
• Manage, coordinate and lead technical projects
• Good interpersonal communication
Highlights
Enhanced heat transfer Conjugated heat transfer
Cooling designs CFD
Multi-phase flow Compressible and incompressible flow Optimal designs High temperature turbine cooling
Fluid and heat transfer rig tests US Citizen
Willing to relocation
Accomplishments
• CFD Efforts for Air Force Fuels Program Project 2012 TSD, GE Aviation
• Broad Based Grant Award 2010 GE
• CFD Analysis of GP7200 Combustor and HPT Nozzle 2007 CCOE, GE Aviation
• CFD Analysis of GE90 Combustor Igniter-Tower Sub-Model 2005 CCOE, GE Aviation Experience
Thermal Engineer
June 2004 to March 2016
GE Aviation in Cincinnati, OH
• Combustion CFD and Cooling Design
Combustor aero analysis
Combustor cooling performance prediction
Combustor cooling design evaluation
Combustor heat transfer and cooling design
• Fuel Nozzle Heat Transfer and Cooling Design
Fuel nozzle metal temperature conjugate heat transfer and CFD prediction Fuel nozzle conjugate heat transfer and CFD analysis, and cooling design Jet-A fuel coking test and prevention
• High Pressure Turbine Heat Transfer, CFD and Cooling Design Nozzle and blade conjugate CFD and ANSYS thermal analysis Nozzle and blade conjugate heat transfer and cooling design Blade trailing edge slots and turbulator conjugate CFD analysis and optimal design
• Lead, coordinate and manage the technical projects
• Review the CFD and Cooling Design from Global Engineering Team
• Train and instruct EEDP and Co-op
• Thermal equipment performances optimization in power planes CFD Engineer
December 2002 to June 2004
Belcan Corp in Cincinnati, OH
• Combustion CFD Analysis
Simulate the stead state and transit, compressible and incompressible flow, temperature distribution and EINOx emission in the combustors.
Evaluate the aero and cooling design, and solve and analyze the various MRB from fields. Research Scientist
January 2001 to November 2002
Hemispheric Center for Environmental Technology, Florida International University Research Project: Multi-Phase Flow and CFD Simulation in Slurry Flow, Funded by DOE Research Associate (Post Doctor)
May 1999 to January 2001
Florida International University
Research Project: Gas Turbine Disk Cooling Technology Incorporating the Miniature Heat Pipes, funded by DOD Air Force Research Laboratory, Wright-Patterson AFB. This project includes the research for gas turbine disk cooling technology, the numerical simulation of flow and temperature fields (using FLEUNT), heat transfer analyses of the gas turbine disk and experimental investigations.
Teaching and Research Assistant
May 1996 to April 1999
Florida International University
• Courses in Teaching Assistant: Statics in Engineering and Dynamics in Engineering.
• Ph. D dissertation: An Innovative Turbine Blade Cooling Technology and Micro/Miniature Heat Pipes for Turbine Cooling Applications, supported by Air Force Office of Scientific Research. This project covered the development of the new cooling technology for the turbine blades, the numerical simulation of the flow and temperature field of the turbine blades (using FLEUNT), heat transfer analyses of the turbine blades and heat pipes, and test rig construction and experimental investigations. Research Assistant
May 1994 to April 1996
Florida International University
MS dissertation: A Thermal-Tribological Approach for Designing Tribological Elements and its Application to Piston Engines, funded by DOD Office of Naval Research. This project required the research in a thermal-Tribological approach for the piston engine design, the numerical computation of the piston temperature distribution, and experimental investigation. Assistant Professor
June 1987 to April 1994
Chongqing University
Courses in Teaching: Steam Turbines, Industrial Gas Turbines, and Rotating Mechanism. Research Area: Power plane performance optimization and rotating mechanism failure diagnoses. Courses in Teaching Assistant
Statics in Engineering and Dynamics in Engineering. Ph. D dissertation: An Innovative Turbine Blade Cooling Technology and Micro/Miniature Heat Pipes for Turbine Cooling Applications, supported by Air Force Office of Scientific Research. This project covered the development of the new cooling technology for the turbine blades, the numerical simulation of the flow and temperature field of the turbine blades (using FLEUNT), heat transfer analyses of the turbine blades and heat pipes, and test rig construction and experimental investigations. Education
Ph.D in Mechanical Engineering, April, 1999
Florida International University - Miami, Florida. Master of Science in Mechanical Engineering, April 1996 Florida International University - Miami, Florida. Master of Science in Thermal Engineering
Chongqing University - Chongqing, China
Bachelor of Science in Thermal Engineering
Chongqing University - Chongqing, China
Affiliations
ASME
Publications
• Cao, Y. and Ling, J., 2012, "Performance Simulations of a Gas Turbine Disk-Blade Assembly Employing Miniature Rotating Heat Pipes," ASME J. Heat Transfer, Vol. 134, 051016.
• J. Ling, P. V. Skudarnov, C. X. Lin and M. A. Ebadian, 2003, "Numerical Investigations of Liquid- Solid Slurry Flows in a Fully Developed Turbulent Flow Region," International J. of Heat and Fluid Flow," Vol. 24, No.3, pp. 389-398.
• Jian Ling and Yiding Cao, 2001, "Experimental Investigations of a Radially Rotating Miniature High-Temperature Heat Pipe for the Turbine Blade Cooling," ASME, Journal of Heat Transfer. Vol. 123, No. 1, pp. 113-119.
• Jian Ling and Yiding Cao, 2000, "Closed-Form Analysis Solutions for the Radially Rotating Miniature High-Temperature Heat Pipes Including Non-Condensable Gas Effects," International J. of Heat and Mass Transfer, Vol. 43, No. 19, pp. 3661-3671.
• Jian Ling, Yiding Cao and W. S. Chang, 1999, "Analysis of Radially Rotating High-Temperature Heat Pipes for
Turbomachinery Application," ASME, Journal of engineering for Gas Turbines and Power, Vol. 121, pp. 306-312.
• Jian Ling, Y. Cao and Q. Wang, 1998, "Critical Working Frequency of Reciprocating Heat-Transfer Devices in Axially Reciprocating Mechanisms," International J. of Heat and Mass Transfer, Vol. 41, No. 1, pp. 73-80.
• Jian Ling, Y. Cao, 1997, "Frequency Spectrum Analysis and Applications to Steam Turbine Vibration," ASME, Journal of Engineering for Gas Turbines and Power, Vol. 119, No. 3, pp. 734-736.
• Jian Ling, Y. Cao, 1996, "Improving Traditional Balancing Methods for High-Speed Rotors," ASME, Journal of Engineering for Gas Turbines and Power, Vol. 118, No. 1, pp. 95-99.
• Jian Ling, Y. Cao and Q. Wang, 1996, "Experimental Investigations and Correlations for the Performance of Reciprocating Heat Pipe," Heat Transfer Engineering, Vol. 17, No. 4, pp. 34-45. Interests
reading, travels and sports
Skills
Familiar with computer uses in the areas of operating system (DOS, Windows 7 and Windows NT), programming language (BASIC, FORTRAN, C), CAD/CAM, AutoCAD, UG, NX, ANSYS, ICEM CFD, HyperMesh, FLUENT, CFX, Star CD, Pthermal, Patran, Calypso, Chemkin, and so on.