Evaluation of a self-heat recuperative thermal process based on thermodynamic irreversibility and exergy

Journal of Chemical Engineering of Japan

Volumn 46, Issue 1, 2013, Pages 87-91

  Kansha, Yasuki ^a   Kotani, Yui ^a   Aziz, Muhammad ^b   Kishimoto, Akira ^a   Tsutsumi, Atsushi ^a  

^a INSTITUTE OF INDUSTRIAL SCIENCE   (Japan)

^b TOKYO INSTITUTE OF TECHNOLOGY   (Japan)

Author keywords

Energy; Exergy; Process Design; Self Heat Recuperation; Thermal Process

Indexed keywords

ENERGY; ENERGY REQUIREMENTS; ENERGY SAVING POTENTIAL; EXERGY ANALYSIS; GRAPHICAL ANALYSIS; MINIMUM ENERGY; PROCESS HEAT; PROCESS INTENSIFICATION; RECOVERY TECHNOLOGY; REDUCTION IN ENERGY CONSUMPTION; SELF-HEAT; SIMPLE CALCULATION METHOD; TARGET VALUES; TECHNOLOGY SUPPORT; THERMAL PROCESS; THERMODYNAMIC IRREVERSIBILITY;

EXERGY; HEAT TRANSFER; TECHNOLOGY; WASTE HEAT;

PROCESS DESIGN;

EID: 84872896032     PISSN: 00219592     EISSN: None     Source Type: Journal    
DOI: 10.1252/jcej.12we084     Document Type: Article

References (22)

1. Atkins, P. and J. de Paula; Atkins' Physical Chemistry, 8th ed., pp. 76-116, Oxford University Press, New York, U.S.A. (2006)
2. Cerda, J., A. W. Westerberg, D. Mason and B. Linnhoff; "Minimum Utility Usage in Heat Exchanger Network Synthesis, " Chem. Eng. Sci., 38, 371-387 (1983)
3. Chengqin, R., L. Nianping and T. Guangfa; "Principle of Exergy Analysis in HVAC and Evaluation of Evaporative Cooling Schemes, " Build. Environ., 37, 1045-1055 (2002)
4. Eastop, T. D. and D. R. Croff; Energy Efficiency for Engineers and Technologists, pp. 203-246, Longman Scientific & Technical, London, U.K. (1990)
5. Ebrahim, M. and A. Kawari; "Pinch Technology: An Efficient Tool for Chemical-Plant and Capital-Cost Saving, " Appl. Energy, 65, 45-49 (2000)
6. Grubbström, R. W.; "An Attempt to Introduce Dynamics into Generalized Exergy Consideration, " Appl. Energy, 84, 701-718 (2007)
7. Kansha, Y., N. Tsuru, K. Sato, C. Fushimi and A. Tsutsumi; "Self-Heat Recuperation Technology for Energy Saving in Chemical Processes, " Ind. Eng. Chem. Res., 48, 7682-7686 (2009)
8. Kansha, Y., N. Tsuru, C. Fushimi, K. Shimogawara and A. Tsutsumi; "An Innovative Modularity of Heat Circulation for Fractional Distillation, " Chem. Eng. Sci., 65, 330-334 (2010a)
9. Kansha, Y., N. Tsuru, C. Fushimi and A. Tsutsumi; "Integrated Process Module for Distillation Processes Based on Self-Heat Recuperation Technology, " J. Chem. Eng. Japan, 43, 502-507 (2010b)
10. Kansha, Y., A. Kishimoto, T. Nakagawa and A. Tsutsumi; "A Novel Cryogenic Air Separation Process based on Self-Heat Recuperation, " Sep. Purif. Technol., 77, 389-396 (2011)
11. Kemp, I. C.; Pinch Analysis and Process Integration: A User Guide on Process Integration for the Efficient Use of Energy, 2nd ed., pp. 15-40, Butterworth-Heinemann, Elsevier, Burlington, U.S.A. (2007)
12. Kuchonthara, P. and A. Tsutsumi; "Energy-Recuperative Biomass Integrated Gasification Power Generation System, " J. Chem. Eng. Japan, 36, 846-851 (2003)
13. Kuchonthara, P., S. Bhattacharya and A. Tsutsumi; "Combination of Thermochemical Recuperative Coal Gasification Cycle and Fuel Cell for Power Generation, " Fuel, 84, 1019-1021 (2005)
14. Kuchonthara, P. and A. Tsutsumi; "Energy-Recuperative Coal-Integrated Gasification/Gas Turbine Power Generation System, " J. Chem. Eng. Japan, 39, 545-552 (2006)
15. Lampinen, M. J. and M. A. Heillinen; "Exergy Analysis for Stationary Flow Systems with Several Heat Exchange Temperatures, " Int. J. Energy Res., 19, 407-418 (1995)
16. Linnhoff, B., D. R. Mason and I. Wardle; "Understanding Heat Exchanger Networks, " Comput. Chem. Eng., 3, 295-302 (1979)
17. Linnhoff, B. and E. Hindmarsh; "The Pinch Design Method for Heat Exchanger Networks, " Chem. Eng. Sci., 38, 745-763 (1983)
18. Linnhoff, B.; "Pinch Analysis-A State-of-the-Art Overview, " Chem. Eng. Res. Des., 71, 503-522 (1993)
19. Linnhoff, B. and A. R. Eastwood; "Overall Site Optimization by Pinch Technology, " Chem. Eng. Res. Des., 75, S138-S144 (1997)
20. Matsuda, K., K. Kawazuishi, Y. Hirochi, R. Sato, Y. Kansha, C. Fushimi, Y. Shikatani, H. Kunikiyo and A. Tsutsumi; "Advanced Energy Saving in the Reaction Section of Hydro-Desulfurization Process with Self-Heat Recuperation Technology, " Appl. Therm. Eng., 30, 2300-2306 (2010)
21. Smith, J. M., H. C. Van Ness and M. M. Abbott; Introduction to Chemical Engineering Thermodynamics, 7th ed., pp. 159-198, McGaw-Hill, New York, U.S.A. (2005)
22. Som, S. K. and A. Datta; "Thermodynamic Irreversibilities and Exergy Balance in Combustion Processes, " Prog. Energy Combust. Sci., 34, 351-376 (2008)