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Fuel part and mineral part of the thermoecological cost

Year 2012, Volume: 15 Issue: 4, 187 - 190, 06.03.2012

Abstract

The thermoecological cost, expressing the cumulative consumption of nonrenewable exergy per unit of the considered useful product, may be divided into the fuel part and the mineral part. The fuel part may be eliminated by the utilization of renewable exergy carriers. The mineral part cannot be eliminated. The depletion of mineral resources leads to the necessity of utilization of more and more lean natural resources. The equation system determining both parts of the thermoecological cost is formulated. Two numerical examples are included. The first one is a simple demonstration example, the second is detailed and relates to the Polish energy system.

References

  • Cornellisen R.L., Nimwegen P.A. van & Hirs G.G. (2000). Exergetic Life-Cycle Analysis. Proceedings ECOS,2000, Enshede, The Netherlands.
  • El-Sayed Y. M. & Aplenc A. J. (1970). Application of the Thermoeconomic Approach to the Analysis and Optimization to the Vapour-Compression Desalting System. J. Eng. Power 92(1), 17-26.
  • El-Sayed Y. M. & Evans R. B. (1970). Themoeconomics and the Design of Heat Systems. J. Eng. Power 92(1), 27- 35.
  • Stanek W. (2009). Evaluation Method of the Ecological Effects in Thermal Processes Using the Exergy Analysis (in Polish), Edition of the Silesian University of Technology, Gliwice.
  • Szargut J. (1978). Minimization of the Consumption of Natural Resources. Bull. Pol. Acad. Sci. ser. Techn. 6, 41- 45.
  • Szargut J. (1986). Application of Exergy for the Calculation of Ecological Cost. Bull. Pol. Acad. Sci. ser. Techn. 7-8, 475-480.
  • Szargut J. (1997). Depletion of Unrestorable Natural Exergy Resources. Bull. Pol. Acad. Sci. ser. Techn. 2, 241-259.
  • Szargut J. (2004). Optimization of the Design Parameters Aiming at the Minimization of the Depletion of Non-renewable Resources. Energy, the Intern. Journ. 2161- 2169.
Year 2012, Volume: 15 Issue: 4, 187 - 190, 06.03.2012

Abstract

References

  • Cornellisen R.L., Nimwegen P.A. van & Hirs G.G. (2000). Exergetic Life-Cycle Analysis. Proceedings ECOS,2000, Enshede, The Netherlands.
  • El-Sayed Y. M. & Aplenc A. J. (1970). Application of the Thermoeconomic Approach to the Analysis and Optimization to the Vapour-Compression Desalting System. J. Eng. Power 92(1), 17-26.
  • El-Sayed Y. M. & Evans R. B. (1970). Themoeconomics and the Design of Heat Systems. J. Eng. Power 92(1), 27- 35.
  • Stanek W. (2009). Evaluation Method of the Ecological Effects in Thermal Processes Using the Exergy Analysis (in Polish), Edition of the Silesian University of Technology, Gliwice.
  • Szargut J. (1978). Minimization of the Consumption of Natural Resources. Bull. Pol. Acad. Sci. ser. Techn. 6, 41- 45.
  • Szargut J. (1986). Application of Exergy for the Calculation of Ecological Cost. Bull. Pol. Acad. Sci. ser. Techn. 7-8, 475-480.
  • Szargut J. (1997). Depletion of Unrestorable Natural Exergy Resources. Bull. Pol. Acad. Sci. ser. Techn. 2, 241-259.
  • Szargut J. (2004). Optimization of the Design Parameters Aiming at the Minimization of the Depletion of Non-renewable Resources. Energy, the Intern. Journ. 2161- 2169.
There are 8 citations in total.

Details

Primary Language English
Journal Section Invited Paper for Special Issue in Honor of Yehia El-Sayed
Authors

Jan Szargut This is me

Wojciech Stanek

Publication Date March 6, 2012
Published in Issue Year 2012 Volume: 15 Issue: 4

Cite

APA Szargut, J., & Stanek, W. (2012). Fuel part and mineral part of the thermoecological cost. International Journal of Thermodynamics, 15(4), 187-190.
AMA Szargut J, Stanek W. Fuel part and mineral part of the thermoecological cost. International Journal of Thermodynamics. November 2012;15(4):187-190.
Chicago Szargut, Jan, and Wojciech Stanek. “Fuel Part and Mineral Part of the Thermoecological Cost”. International Journal of Thermodynamics 15, no. 4 (November 2012): 187-90.
EndNote Szargut J, Stanek W (November 1, 2012) Fuel part and mineral part of the thermoecological cost. International Journal of Thermodynamics 15 4 187–190.
IEEE J. Szargut and W. Stanek, “Fuel part and mineral part of the thermoecological cost”, International Journal of Thermodynamics, vol. 15, no. 4, pp. 187–190, 2012.
ISNAD Szargut, Jan - Stanek, Wojciech. “Fuel Part and Mineral Part of the Thermoecological Cost”. International Journal of Thermodynamics 15/4 (November 2012), 187-190.
JAMA Szargut J, Stanek W. Fuel part and mineral part of the thermoecological cost. International Journal of Thermodynamics. 2012;15:187–190.
MLA Szargut, Jan and Wojciech Stanek. “Fuel Part and Mineral Part of the Thermoecological Cost”. International Journal of Thermodynamics, vol. 15, no. 4, 2012, pp. 187-90.
Vancouver Szargut J, Stanek W. Fuel part and mineral part of the thermoecological cost. International Journal of Thermodynamics. 2012;15(4):187-90.