This paper represents the Part II of a paper in two parts. In Part I the fundamentals of Scope Oriented Thermoeconomics have been introduced, showing a scarce potential for the cost accounting of existing plants; in this Part II the same concepts are applied to the optimization of a small set of design variables for a vapour compression chiller. The method overcomes the limit of most conventional optimization techniques, which are usually based on hermetic algorithms not enabling the energy analyst to recognize all the margins for improvement. The Scope Oriented Thermoeconomic optimization allows us to disassemble the optimization process, thus recognizing the Formation Structure of Optimality, i.e. the specific influence of any thermodynamic and economic parameter in the path toward the optimal design. Finally, the potential applications of such an in-depth understanding of the inner driving forces of the optimization are discussed in the paper, with a particular focus on the sensitivity analysis to the variation of energy and capital costs and on the actual operation-oriented design.

Piacentino, A., Cardona, E. (2010). Scope Oriented Thermoeconomic analysis of energy systems. Part II: Formation structure of optimality for robust design. APPLIED ENERGY, 87(3), 957-970 [http://dx.doi.org/10.1016/j.apenergy.2009.09.027].

Scope Oriented Thermoeconomic analysis of energy systems. Part II: Formation structure of optimality for robust design

PIACENTINO, Antonio;CARDONA, Ennio
2010-01-01

Abstract

This paper represents the Part II of a paper in two parts. In Part I the fundamentals of Scope Oriented Thermoeconomics have been introduced, showing a scarce potential for the cost accounting of existing plants; in this Part II the same concepts are applied to the optimization of a small set of design variables for a vapour compression chiller. The method overcomes the limit of most conventional optimization techniques, which are usually based on hermetic algorithms not enabling the energy analyst to recognize all the margins for improvement. The Scope Oriented Thermoeconomic optimization allows us to disassemble the optimization process, thus recognizing the Formation Structure of Optimality, i.e. the specific influence of any thermodynamic and economic parameter in the path toward the optimal design. Finally, the potential applications of such an in-depth understanding of the inner driving forces of the optimization are discussed in the paper, with a particular focus on the sensitivity analysis to the variation of energy and capital costs and on the actual operation-oriented design.
2010
Piacentino, A., Cardona, E. (2010). Scope Oriented Thermoeconomic analysis of energy systems. Part II: Formation structure of optimality for robust design. APPLIED ENERGY, 87(3), 957-970 [http://dx.doi.org/10.1016/j.apenergy.2009.09.027].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10447/49717
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