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Waste Heat Recovery of Heavy-Duty Diesel Engines by Organic Rankine Cycle Part II: Working Fluids for WHR-ORC
Technical Paper
2007-01-0543
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
In Part I of this paper, the organic Rankine cycle for waste heat recovery (ORC-WHR) from the heavy-duty diesel truck engines was discussed. This work is Part II of the paper. The efficiency of the ORC-WHR system varies considerably with thermodynamic properties of the working fluid. In this work, characteristics of candidate working fluids are discussed on the basis of the thermodynamic theory. The discussion covers inorganic and organic fluids for both pure fluids and binary-mixture fluids. On the basis of the characteristics of the working fluids, the thermal efficiency for the ORC-WHR system is analyzed. Discussions and conclusions of this paper are helpful in selecting proper working fluids for the ORC-WHR system and determining a proper temperature range for system operations.
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Teng, H., Regner, G., and Cowland, C., "Waste Heat Recovery of Heavy-Duty Diesel Engines by Organic Rankine Cycle Part II: Working Fluids for WHR-ORC," SAE Technical Paper 2007-01-0543, 2007, https://doi.org/10.4271/2007-01-0543.Also In
References
- Hung, T.C. Shal, T.Y. Wang, S.K. “A Review of Organic Rankine Cycles (ORCs) for the Recovery of Low-Grade Waste Heat,” Energy 22 661 667 1997
- Jonsson, M. Yan, J. “Ammonia-Water Bottoming Cycles: A Comparison between Gas Engines and Gas Diesel Engines as Prime Movers,” Energy 26 31 44 2001
- Hung, T.C. “Waste Heat Recovery of Organic Rankine Cycle Using Dry Fluids,” Energy Conv. & Mgmt 42 539 553 2001
- Maizza, V. Maizza, A. “Unconventional Working Fluids in Organic Rankine Cycles for Waste Heat Recovery Systems,” Applied Thermal Engineering 21 381 390 2001
- Leising, C.J. Purohit, G.P. DeGrey, S.P. Finegold, J.G. “Waste Heat Recovery in Truck Engines,” SAE Paper, No. 780686 1978
- Doyle, E. DiNanno, L. Kramer, S. “Installation of a Diesel Organic Rankine Compound Engine in a Class-8 Truck for a Single Vehicle Test,” SAE Paper, No. 790646 1979
- Chen, S.K. Lin, R. “A Review of Engine Advanced Cycle and Rankine Bottoming Cycle and Their Loss Evaluations,” SAE Paper, No. 830124 1983
- Wali, E. “Working Fluids for Solar, Rankine-Cycle Cooling Systems,” Energy 5 631 639 1980
- Angelino, G. Paliano, R.C.D. “Multicomponent Working Fluids for Organic Rankine Cycles (ORCs),” Energy 23 449 463 1998
- Liu, B.T. Chien, K.H. Wang, C.C. “Effect of Working Fluids on Organic Rankine Cycle for Waste Heat Recovery,” Energy 29 1207 1217 2004
- Abbin, J.P., Jr. “Rankine Cycle Energy Conversion System Design Considerations for Low and Intermediate Temperature Sensible Heat Sources,” Sandia National Lab Report 1976
- Patel, P.S. Doyle, E.F. “Compounding the Truck Diesel Engine with an Organic Rankine-Cycle System,” SAE Paper, No.76.343 1976
- Nelson, C.R. “High Engine Efficiency at 2010 Emissions,” 2005 DEER Conference Chicago, Illinois August 23 2005
- Nelson, C.R. “50% Brake Thermal Efficiency Achieved at 2010 Emissions,” 2006 DEER Conference Detroit, Michigan August 23 2006
- Nelson, C.R. “In-Vehicle Exhaust Energy Recovery for Thermal Efficiency Improvement,” 2006 DEER Conference Detroit, Michigan August 24 2006
- Reid, R.C. Prausnitz, J.M. Poling, B.E. The Properties of Gases and Liquids 4th McGraw-Hill 1987
- David, R. editor-in-chief Handbook of Chemistry and Physics 80th CRC Press 1999
- ASHRAE Handbook - Fundamentals, American Society of Heating Refrigerating and Air-Conditioning Engineers, Inc. 2001
- Vineyard, E. “Thermally Activated Technologies Overview,” DOE Distributed Energy Peer Review Arlington, Virginia December 2005