Transactions of the Korean Society of Automotive Engineers (한국자동차공학회논문집)

The Korean Society of Automotive Engineers (한국자동차공학회)
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Design of Rankine Steam Cycle and Performance Evaluation of HT Boiler for Engine Waste Heat Recovery

엔진 폐열 회수를 위한 랭킨 스팀 사이클 설계 및 HT Boiler의 성능 평가

  • Heo, Hyung-Seok (High Efficiency Energy System Research Center, Korea Automotive Technology Institute) ;
  • Bae, Suk-Jung (School of Mechanical and Aerospace Engineering, Seoul National University) ;
  • Lee, Dong-Hyuk (High Efficiency Energy System Research Center, Korea Automotive Technology Institute) ;
  • Lee, Heon-Kyun (High Efficiency Energy System Research Center, Korea Automotive Technology Institute) ;
  • Kim, Tae-Jin (Advanced Research Team, Korens Inc.)
  • 허형석 (자동차부품연구원 고효율에너지시스템연구센터) ;
  • 배석정 (서울대학교 기계항공공학부) ;
  • 이동혁 (자동차부품연구원 고효율에너지시스템연구센터) ;
  • 이헌균 (자동차부품연구원 고효율에너지시스템연구센터) ;
  • 김태진 (코렌스 선행연구팀)
  • Received : 2010.12.07
  • Accepted : 2011.09.19
  • Published : 2012.03.01
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Abstract

A dual loop waste heat recovery system with Rankine steam cycles for the improvement of fuel efficiency of gasoline vehicles has been investigated. A high temperature loop (HT loop) only recovers the heat of the exhaust gas. A low temperature loop (LT loop) recovers the residual heat from the HT loop, the coolant heat and the remaining exhaust gas heat. The two separate loops are coupled with a heat exchanger. This paper has dealt with a layout of the dual loop system, the review of the working fluids, and the design of the cycle. The design point and the target heat recovery of the HT boiler, a core part of a HT loop, have been presented. The prototype of the HT boiler was evaluated by experiment. For the performance evaluation of the HT boiler, inlet temperature of the HT boiler working fluid was set equal to the temperature degree of sub-cool of $5^{\circ}C$ at the condensing pressure. The exit condition was the degree of super-heat set at $5^{\circ}C$. The characteristics of the HT boiler such as heat recovery and pressure drops of fluids were evaluated with varying flow rates and inlet temperatures of exhaust gas under various evaporating pressure conditions.

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References

  1. D. H. Lee, H. S. Heo, H. K. Lee, S. J. Bae, T. J. Kim and M. S. Moon, "The Performance Experimental Evaluation of the Boiler for the Engine Waste Heat Recovery System," Spring Conference Proceedings, KSAE, pp.79-85, 2010.
  2. H. S. Heo and H. K. Lee, "Technology Trends of Exhaust Heat Recirculation System for Power-train Fast Warm-up," Auto Journal, KSAE, Vol.32, No.5, pp.14-22, 2010.
  3. H. S. Heo and S. J. Bae, "Technology Trends of Rankine Steam Cycle for Engine Waste Heat Recovery," Auto Journal, KSAE, Vol.32, No.5, pp.23-32, 2010.
  4. J. Ringler, M. Seifert, V. Guyotot and W. Hubner, "Rankine Cycle for Waste Heat Recovery of IC Engines," SAE 2009-01-0174, 2009.
  5. T. Endo, S. Kawajiri, Y. Kojima, K. Takahashi, T. Baba, S. Ibaraki, T. Takahashi and M. Shinohara, "Study on Maximizing Exergy in Automotive Engines," SAE 2007-01-0257, 2007.
  6. S. J. Bae, H. S. Heo, H. K. Lee, Y. D. Choung, J. S. Hwang, and C. B. Lee, "An Investigation on Working Fluids for an Exhaust Waste Heat Recovery System of a Gasoline Engine," Annual Conference Proceedings, KSAE, pp.151-158, 2009.
  7. H. Teng, G. Regner and C. Cowland, "Waste Heat Recovery of Heavy-duty Diesel Engines by Organic Rankine Cycle Part I : Hybrid Energy System of Diesel and Rankine Engines," SAE 2007-01-0537, 2007.
  8. H. Teng, G. Regner and C. Cowland, "Waste Heat Recovery of Heavy-duty Diesel Engines by Organic Rankine Cycle Part II : Working Fluids for WHR-ORC," SAE 2007-01-0543, 2007.