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|Type:||Artigo de periódico|
|Title:||Analysis Of The Relation Between Exergy And Enthalpy And Their Derivatives For Superheated Steam|
|Abstract:||A thermodynamic relation, defined to improve methodologies in the Second Law Analysis of thermal systems, is studied. This relation is defined by dividing the specific thermomechanical exergy by the specific enthalpy of a substance, adopting as reference a selected thermodynamic state. This relation is determined and analyzed for liquid water and steam in a range of temperatures (30°C - 700°C) and pressures (0.101325 MPa - 18.1 MPa). The behavior of the proposed relation is compared against the exergy behavior as a function of temperature and pressure. The proposed relation can be used to compare and evaluate thermodynamic states that have similar exergy content. It makes possible the identification of states presenting higher exergetic level per enthalpy unit. The variation of partial derivatives (temperature and pressure) of the specific thermomechanical exergy for superheated steam is analyzed. The variation of partial derivatives of the thermodynamic relation between the exergy and enthalpy (adopting as reference a selected thermodynamic state) is also studied. These derivatives are determined for sub-cooled liquid water and superheated steam in a range of temperatures (200°C - 700°C) and pressures (2 MPa - 18 MPa). The behavior of the partial derivatives is compared and discussed against the variation of enthalpy and entropy, considering the effects of temperature and pressure variations. The analysis performed in this work can help to improve methodologies in the Second Law Analysis of thermal systems. The aspects focused upon can be useful in thermodynamic analysis and optimization of steam cycles and thermal processes.|
|Citation:||American Society Of Mechanical Engineers, Advanced Energy Systems Division (publication) Aes. , v. 38, n. , p. 97 - 104, 1998.|
|Appears in Collections:||Unicamp - Artigos e Outros Documentos|
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