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Air Condition and Refrigeration Institute, “Standard for ground water-source and ground closed-source heat pumps,” ARI Standard 325/330 & ARI/ASHRAE/ISO 13256-1. Berchowitz, D.M. 2004, “Stirling engine driven heat pump with fluid interconnection,” US Patent 6,701,721. Bullard, C., Rajan, J. 2004, “Residential space conditioning and water heating with transcritical CO2 refrigeration cycle,” Proceedings of Int. Refrigeration and Air Conditioning Conference at Purdue. Chen, G., McEntee, J. 1993, “Stability criteria and capacity modulation for a free-piston Stirling engine driven linear compressor,” ASME Winter Annual Conference, New Orleans, Louisiana Hargreaves, C.M. 1991, The Philips Stirling Engine. Elsevier, Amsterdam. Lane, N.W., Beale, W.T. 1997, “Free-Piston Stirling Design Features,” Proc 8th Int Stirling Engine Conf., University of Ancona, Italy. Lundqvist, Per G. 1993, Stirling Cycle Heat Pumps and Refrigerators, doctoral thesis, Royal Inst. Of Technology, Stockholm, Sweden. Marusak, T.J., Ackermann, R.A. 1985, Free-Piston Stirling Engine Development, Gas Research Institute Report 85/0117, Chicago. MITI, NEDO and Heat Pump Technology Center of Japan 1986, Proc. Int. Symp. on the Stirling Engine and its Application to Heat Pump Systems, etc. Heat Pump Technology Center of Japan. Park, C.Y., Hrnjak, P.S. 2004, “Effect of gas cooler size on its performance and entire R744 A/C system,” Proceedings of Int. Refrigeration and Air Conditioning Conference at Purdue. Payne, W.V., B.D., Domanski, P.A. 2001, “A comparison of rating water-source heat pump using ARI Standard 320 and ISO Standard 13256-1,” NISTIR6803, US Department Of Commerce. Penswick, L.B., Urieli, I. 1984, “Duplex Stirling machines,” Proc. 19th IECEC, San Francisco, California, August 1984. Rasmussen, B.D., Jakobsen, A. 2002, “Review of compressor models and performance characterizing variables,” Proceedings of Int. Compressor Engineering Conference at Purdue. Redlich, R.W., Berchowitz, D.M. 1985, “Linear Dynamics of Free-Piston Stirling Engines,” Proc Instn Mech Engrs, Vol 199, No A3, pp203-213. Wood, J.G., Unger, R., and Lane, N.W. 2000, “A Stirling-Rankine fuel-fired heat pump,” Int. Compressor Engineering Conference at Purdue. Zhang, R.R., Lu, X.S., Li, S.Z., and Gu, A.Z. 2004, “Energy and economic performance comparison of gas engine and electric driven air-to-water heat pump,” Proceedings of Int. Refrigeration and Air Conditioning Conference at Purdue. ACKNOWLEDGMENT The authors thank Global Cooling Japan for the use of their electronic expansion valve for the Rankine cycle experiment and Sunpower, Inc for their support. 12PDF Image | HERMETIC GAS FIRED RESIDENTIAL HEAT PUMP
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CO2 Organic Rankine Cycle Experimenter Platform The supercritical CO2 phase change system is both a heat pump and organic rankine cycle which can be used for those purposes and as a supercritical extractor for advanced subcritical and supercritical extraction technology. Uses include producing nanoparticles, precious metal CO2 extraction, lithium battery recycling, and other applications... More Info
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