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Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes

Year 2012, Volume: 15 Issue: 1, 11 - 16, 10.02.2012

Abstract

Unfavourable influence of human activity on the natural environment can be divided into two groups: depletion of limited non-renewable resources and rejection of harmful substances. The depletion of non-renewable resources should be minimized to keep them for future mankind (sustainable development). Exergy can be applied as measure of the quality of natural resources. The influence of human activities on the depletion of natural resources can be evaluated by means of the calculus of cumulative consumption of exergy of non-renewable natural resources (thermo-ecological cost). The paper presents selected applications of the theory of thermo-ecological cost developed by Szargut.

References

  • Bejan A., Tsatsaronis G. (1996). Moran M. J., Thermal design and optimisation. J. Wiley.
  • Finneveden G., Ostlund P. (1997). Exergies of natura resources in applications, Energy, Vol. 22, No. 9, 923-931. assessment and other
  • Sciubba, E. (2001). Beyond thermoeconomics? The concept of Extended Exergy Accounting and its application to the analysis and design of thermal systems. Exergy Int. J., Vol.1, 68-84.
  • Stanek W. (2001). Iterative Method To Evaluate the Ecological Cist of Imported Goods. International Journal of Thermodynamics, Vol. 4 (No. 4), 191-198.
  • Szargut J., Ziębik A., Stanek W. (2002). Depletion of the Unrestorable Natural Exergy Resources as a Measure of the Ecological Cost, Energy, Conversion and Management 42, 1149-1163.
  • Szargut J. (2005). Exergy method, technical and ecological applications. Southampton, Boston: WIT Press.
  • Szargut J., Stanek W. (2007). Thermo-ecological optimization of a solar collector. Energy 32, 584–590.
  • Valero A., Botero E. (2002a), An assessment of the Earth’s clean fossil exergy capital based on Exergy Abatement Cost. Proc. Conf. ECOS’2002, Berlin, 151-157.
  • Valero A., Botero E. (2002b). An exergetic assessment of natural mineral capital (1): Reference environment, thermodynamic model for s degradated, Proc. Conf. ECOS 2002, Berlin, 54-61. a
  • Wall, G., Gong M. (2001). On exergy and sustainable development, Exergy Int. J., Vol.1, 128-145.
  • Stanek W. (2009). Method of evaluation of ecological effects in thermal processes with the application of exergy analysis. Silesian University of Technology Press (in Polish).
Year 2012, Volume: 15 Issue: 1, 11 - 16, 10.02.2012

Abstract

References

  • Bejan A., Tsatsaronis G. (1996). Moran M. J., Thermal design and optimisation. J. Wiley.
  • Finneveden G., Ostlund P. (1997). Exergies of natura resources in applications, Energy, Vol. 22, No. 9, 923-931. assessment and other
  • Sciubba, E. (2001). Beyond thermoeconomics? The concept of Extended Exergy Accounting and its application to the analysis and design of thermal systems. Exergy Int. J., Vol.1, 68-84.
  • Stanek W. (2001). Iterative Method To Evaluate the Ecological Cist of Imported Goods. International Journal of Thermodynamics, Vol. 4 (No. 4), 191-198.
  • Szargut J., Ziębik A., Stanek W. (2002). Depletion of the Unrestorable Natural Exergy Resources as a Measure of the Ecological Cost, Energy, Conversion and Management 42, 1149-1163.
  • Szargut J. (2005). Exergy method, technical and ecological applications. Southampton, Boston: WIT Press.
  • Szargut J., Stanek W. (2007). Thermo-ecological optimization of a solar collector. Energy 32, 584–590.
  • Valero A., Botero E. (2002a), An assessment of the Earth’s clean fossil exergy capital based on Exergy Abatement Cost. Proc. Conf. ECOS’2002, Berlin, 151-157.
  • Valero A., Botero E. (2002b). An exergetic assessment of natural mineral capital (1): Reference environment, thermodynamic model for s degradated, Proc. Conf. ECOS 2002, Berlin, 54-61. a
  • Wall, G., Gong M. (2001). On exergy and sustainable development, Exergy Int. J., Vol.1, 128-145.
  • Stanek W. (2009). Method of evaluation of ecological effects in thermal processes with the application of exergy analysis. Silesian University of Technology Press (in Polish).
There are 11 citations in total.

Details

Primary Language English
Journal Section Invited ECOS 2010 Paper for ECOS Special Issue
Authors

Wojciech Stanek

Publication Date February 10, 2012
Published in Issue Year 2012 Volume: 15 Issue: 1

Cite

APA Stanek, W. (2012). Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes. International Journal of Thermodynamics, 15(1), 11-16.
AMA Stanek W. Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes. International Journal of Thermodynamics. February 2012;15(1):11-16.
Chicago Stanek, Wojciech. “Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes”. International Journal of Thermodynamics 15, no. 1 (February 2012): 11-16.
EndNote Stanek W (February 1, 2012) Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes. International Journal of Thermodynamics 15 1 11–16.
IEEE W. Stanek, “Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes”, International Journal of Thermodynamics, vol. 15, no. 1, pp. 11–16, 2012.
ISNAD Stanek, Wojciech. “Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes”. International Journal of Thermodynamics 15/1 (February 2012), 11-16.
JAMA Stanek W. Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes. International Journal of Thermodynamics. 2012;15:11–16.
MLA Stanek, Wojciech. “Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes”. International Journal of Thermodynamics, vol. 15, no. 1, 2012, pp. 11-16.
Vancouver Stanek W. Examples of Application of Exergy Analysis for the Evaluation of Ecological Effects in Thermal Processes. International Journal of Thermodynamics. 2012;15(1):11-6.