High temperature heat exchanger studies for applications to gas turbines

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English CR (2003) The WR-21 intercooled recuperated gas turbine engine—integration into future warships. Proceedings of the international gas turbine congress, Tokyo. IGTC2003Tokyo OS-203

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Dong J, Chen J, Chen Z, Zhou Y (2007) Air-side thermal hydraulic performance of offset strip fin aluminum heat exchangers. Appl Therm Eng 27(2/3):306–313

McDonald CF (2003) Recuperator considerations for future higher efficiency microturbines. Appl Therm Eng 23(12):1463–1487

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McDonald CF (2000) Low cost compact primary surface recuperator concept for microturbines. Appl Therm Eng 20(5):471–497

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Utriainen E, Sunden B (2002) Evaluation of the cross corrugated and some other candidate heat transfer surfaces for microturbine recuperators. J Eng Gas Turbines Power 124(3):550–560

Lagerstrom G, Xie M (2002) High performance and cost effective recuperator for micro-gas turbines. ASME Turbo Expo, Amsterdam, GT-2002-30402

Kesseli J, Wolf T, Nash J, Freedman S (2003) Micro, industrial, and advanced gas turbine employing recuperators. ASME Turbo Expo, GT2003-38938

Takase K, Furukawa H, Nakano K (2002) A preliminary study of an inter-cooled and recuperative microgasturbine below 300 kW. ASME Turbo Expo, GT-2002-30403

Lara-Curzio E, Maziasz PJ, Pint BA, Stewart M, Hamrin D, Lipovich N (2002) Test facility for screening and evaluating candidate materials for advanced microturbine recuperator. ASME Turbo Expo, GT-2002-30581

Treece B, Vessa P, McKeirman R (2002) Microturbine recuperator manufacturing and operating experience. ASME Turbo Expo, GT-2002-30404

Kang Y, McKeirnan R (2003) Annular recuperator development and performance test for 200 kW microturbine. ASME Turbo Expo, GT-2003-38522

Antoine H, Prieels L (2002) The ACTE spiral recuperator for gas turbine engines. ASME Turbo Expo, Amsterdam, GT-2002-30405

Oswald JI, Dawson DA, Clawley LA (1999) A new durable gas turbine recuperator. Int Gas Turbine Aeroengine Congress, Indianapolis, USA, 1999. ASME paper no. 99-GT-369

Adams JC, Ireland PT, Cerza M, Oswald MJ (2003), A detailed experimental investigation of a perforated heat transfer surface applied to gas turbine recuperators. ASME Turbo Expo, June 16–19, Atlanta, Georgia, USA, GT2003-38740

Parker K, Coombs M (1979) Development in plate-fin heat exchangers. ASME Publication HTD, 10, pp 171–179

Carman BG, Kapat JS, Chow LC, An L (2002) Impact of a ceramic microchannel heat exchanger on a micro turbine. ASME Turbo Expo, June, Amsterdam, GT-2002-30544

Wilfert G, Kriegl B, Wald L, Johanssen O (2005) CLEAN—validation of a GTF high speed turbine and integration of heat exchanger technology in an environmental friendly engine concept. ISABE, Munich, Germany, September

Schonenborn H, Ebert E, Simon B, Storm P (2006) Thermomechanical design of a heat exchanger for a recuperative aero engine. J Eng Gas Turbines Power 128(4):736–744

Boggia S, Rud K (2005) Intercooled recuperated gas turbine engine concept. AIAA 2005-4192

Lindquist T (2006) Recuperated small gas turbines for extended duration UAVs. 1st SEAS DTC technical conference, Edinburg, UK, C1

Lindquist T, Stieger R, Hillel M, Recuperated small gas turbines—recuperator installation. 3rd SEAS DTC technical conference, Edinburg, UK, C12

Yakinthos K, Missirlis D, Palikaras A, Storm P, Simon B, Goulas A (2007) Optimization of the design of recuperative heat exchangers in the exhaust nozzle of an aero engine. Appl Math Model 31(11):2524–2541

Albanakis C, Yakinthos K, Kritikos K, Missirlis D, Goulas A, Storm P (2009) The effect of heat transfer on the pressure drop through a heat exchanger for aero engine applications. Appl Therm Eng 29(4):634–644

Saidi A, Eriksson D, Sunden B (2002) Analysis of some heat exchanger concepts for use as gas turbine intercoolers. Int J Heat Exch 3(2):241–260

McCarthy SJ, Scott I, The WR-21 intercooled recuperated gas turbine engine—operation and integration into the royal navy type 45 destroyer power system. ASME Turbo Expo GT-2002-30266

Kiang RL, Bowen TL (1995) Application of advanced heat exchanger technology in a 22 megawatt naval propulsion gas turbine. ASME/JSME thermal engineering joint conference—Proceedings vol 4, pp 347–358

Murray JJ, Hempsell CM, Bond A (2001) An experimental precooler for airbreathing rocket engines. JBIS, 54, pp 199–209

Pua LM, Rumbold SO (2003) Industrial microchannel devices—where are we today? 1st Int. conf. on microchannels and minichannels, April 24–25, Rochester, NY, USA, ICMM2003-1101

Takizuka T, Takada S, Yan X, Kosugiyama S, Katanishi S, Kunitomi K (2004) R&D on the power conversion system for gas turbine high temperature reactors. Nucl Eng Des 233:329–346

Aquaro D, Pieve M (2007) High temperature heat exchangers for power plants: performance of advanced metallic recuperators. Appl Therm Eng 27:389–400

Maziasz PJ, Swindeman RW, Montague JP, Fitzpatrick M, Browning PF, Grubb JF, Klug RC (1999) Improved creep-resistance of austenitic stainless steel for compact gas turbine recuperators. Mater High Temp 16(4):207–212

Pint BA, More KL, Tortorelli PF (2002) The effect of water vapor on oxidation performance of alloys used in recuperators. ASME Turbo Expo, GT-2002-30543

Maziasz PJ, Pint BA, Swindeman RW, More KL, Lara-Curzio E (2003) Selection, development and testing of stainless and alloys for high-temperature recuperator applications. ASME Turbo Expo, GT-2003-38762

Maziasz PJ, Swindeman RW (2003) Selecting and developing advanced alloys for creep-resistance for microturbine recuperator application. J Eng Gas Turbines Power 125(1):310–315

Maziasz PJ, Pint BA, Shingledecker JP, Evans ND, Yamamoto Y, More KL, Lara-Curzio E (2007) Advanced alloys for compact, high-efficiency, high-temperature heat-exchangers. Int J Hydrogen Energy 32(16):3622–3630

Pint BA, Peraldi R (2003) Factors affecting corrosion resistance of recuperator alloys. ASME Turbo Expo, GT-2003-38692

Pint BA, More KL (2006) Stainless steels with improved oxidation resistance for recuperators. J Eng Gas Turbines Power 128(2):370–376

Hechanova AE (2005) High temperature heat exchanger project. Quarterly progress report, UNLV research foundation