Article: Exergy analysis of a combined power cycle using low-grade heat source and LNG cold energy Journal: International Journal of Exergy (IJEX) 2015 Vol.17 No.3 pp.374 - 400 Abstract: This paper presents a comparative exergy analysis based on the second law of thermodynamics for a combined power generation cycle using a low grade heat source and LNG cold energy. The combined cycle consists of a LNG power cycle and an ammonia-water Rankine cycle with (R) and without regeneration (S). The effects of system parameters on the exergy destruction at each component as well as the total exergy efficiency are investigated extensively. A characteristic exergy efficiency-work diagram is proposed to consider the two system variables simultaneously. The results indicate that the thermodynamic performance of the combined system is strongly affected by the system parameters. Under the typical operating conditions for a heat source of 200°C, calculated optimal exergy efficiencies are 22.0% (S) and 21.4% (R) for the condensation temperature at Tc = 40°C, and 27.0% (S) and 28.5% (R) for Tc = −20°C. Inderscience Publishers - linking academia, business and industry through research

Title: Exergy analysis of a combined power cycle using low-grade heat source and LNG cold energy

Authors: Kyung Chun Kim; Jong Man Ha; Kyoung Hoon Kim

Addresses: School of Mechanical Engineering, Pusan National University, Jangjeon 2-dong, Geumjeong-gu, Busan 609-735, Korea ' New Energy Technology Research Center, R&D Division, Korea Gas Corporation, 1248 Suin-Ro, Sangnok-Gu, Ansan-City, Gyunggi-Do, 426-790, Korea ' Department of Mechanical Engineering, Kumoh National Institute of Technology, 61 Daehakro, Gumi, Gyeongbuk 730-701, Korea

Abstract: This paper presents a comparative exergy analysis based on the second law of thermodynamics for a combined power generation cycle using a low grade heat source and LNG cold energy. The combined cycle consists of a LNG power cycle and an ammonia-water Rankine cycle with (R) and without regeneration (S). The effects of system parameters on the exergy destruction at each component as well as the total exergy efficiency are investigated extensively. A characteristic exergy efficiency-work diagram is proposed to consider the two system variables simultaneously. The results indicate that the thermodynamic performance of the combined system is strongly affected by the system parameters. Under the typical operating conditions for a heat source of 200°C, calculated optimal exergy efficiencies are 22.0% (S) and 21.4% (R) for the condensation temperature at T_c = 40°C, and 27.0% (S) and 28.5% (R) for T_c = −20°C.

Keywords: low-grade heat source; LNG cold energy; liquefied natural gas; ammonia; water; Rankine cycle; exergy destruction; exergy analysis; combined power cycle; second law; thermodynamics; exergy efficiency; condensation temperature.

DOI: 10.1504/IJEX.2015.070504

International Journal of Exergy, 2015 Vol.17 No.3, pp.374 - 400

Received: 07 Mar 2014
Accepted: 06 Jul 2014
Published online: 08 Jul 2015 *

Full-text access for editors Full-text access for subscribers Purchase this article Comment on this article

Title: Exergy analysis of a combined power cycle using low-grade heat source and LNG cold energy

Keep up-to-date