1 |
R. A. Wilson, D. B. Kuprtis and D. Kodali, 1994, "Future Vehicular Recuperator Technology Projections", ASME Paper 94-GT-395, pp. 1-21.
|
2 |
R. Lundberg and R. Gabrielsson, 1995, "Process on the AGATA Project - A European Ceramic Gas Turbine for Hybrid Vehicles", ASME Paper 95-GT-446, pp. 1-7.
|
3 |
T. L. Ragland, 1995, "A High Efficiency Recuperated Cycle, Optimized for Reliable, Low Cost, Industrial Gas Turbine Engines", ASME Paper 95-GT-321, pp. 1-4.
|
4 |
G. Wilfert, J. Sieber, R. Andrew, B. Nic, T. Armel and C. Salvatore, 2007, "Environmental Friendly Aero Engine Core Concepts", ISABE-2007-1120.
|
5 |
G. Wilfert, B. Kriegl, H. Scheugenpflug, L. Bernard, X. Ruiz and S. Eury, 2005, "CLEAN-Validation of a high efficient low NOx core, a GTF high speed turbine and an integration of a recuperator in an environmental friendly engine concept", 41st AIAA/ASME/ASEE Joint Propulsion Conference, Tucson, Arizona, AIAA-2005-4195.
|
6 |
J. H. Jeong, L. S. Kim, M. Y. Ha, K. S. Kim and C J. R. Cho, 2008, "Various heat exchangers utilized in gas-turbines for performance enhancement", International Journal of Air-Conditioning and Refrigeration, Vol. 16, pp. 30-36.
|
7 |
H. S. Jeong, J. R. Cho, L. S. Kim, M. Y. Ha, J H. Jeong and K. S. Kim, Lindquist T., Walsh P., 2008, "CFD and thermo-mechanical analysis for heat exchanger used in aero engine", ASME Turbo Expo, GT-2008-50447, Vol. 5, pp. 177-184.
|
8 |
S. Bock, W. Hom and J. Sieber, 2007, "Active Core Technology Within the NEWAC Research Program for Cleaner and More Efficient Aero Engines". European Air and Space Conference, Berlin, Germany, Sept-2007, pp. 10-13.
|
9 |
A. M. Rolt and K. Kyprianidis, 2010, "Assessment of New Aero Engine Core Concepts and Technologies in the EU Framework 6 NEWAC Programme". ICAS 2010 Congress Proceedings, pp. 408-419.
|
10 |
S. Bock, W. Hom and J. Sieber, 2008, ""ACTIVE CORE"-A KEY TECHNOLOGY FOR MORE ENVIRONMENTALLY FRIENDLY AERO ENGINES BEING INVESTIGATED UNDER THE NEWAC PROGRAM". 26th Congress of International Council of the Aeronautical Sciences, Paper ICAS.
|
11 |
J. M. Kim, 2010, "Application of Response Surface Method for Optimal Transfer Conditions of MLCC Alignment System", Chanwon Navtional University, Republic of Korea.
|