This paper presents an abbreviated method for estimating exergy destruction in a heat exchanger, requiring only black-box data of the exchanger’s inputs and outputs, and eliminating part of the mathematical difficulties associated with the calculations. A well-known model for temperature distributions in an exchanger is adapted for this case, and is used to distinguish between the contributions of the three major causes of the total exergetic loss: heat transfer, fluid friction and energy dissipation to the surroundings. This provides insight into the relative importance of the three, allowing for identification of potential improvements to a given design.
%0 Journal Article
%1 e15020474
%A López Paniagua, Ignacio
%A Rodríguez Martín, Javier
%A González Fernandez, Celina
%A Jiménez Alvaro, Ángel
%A Nieto Carlier, Rafael
%J Entropy
%K 2013 EGM entropy exergy
%N 2
%P 474--489
%T A New Simple Method for Estimating Exergy Destruction in Heat Exchangers
%U http://dx.doi.org/10.3390/e15020474
%X This paper presents an abbreviated method for estimating exergy destruction in a heat exchanger, requiring only black-box data of the exchanger’s inputs and outputs, and eliminating part of the mathematical difficulties associated with the calculations. A well-known model for temperature distributions in an exchanger is adapted for this case, and is used to distinguish between the contributions of the three major causes of the total exergetic loss: heat transfer, fluid friction and energy dissipation to the surroundings. This provides insight into the relative importance of the three, allowing for identification of potential improvements to a given design.
@article{e15020474,
abstract = {This paper presents an abbreviated method for estimating exergy destruction in a heat exchanger, requiring only black-box data of the exchanger’s inputs and outputs, and eliminating part of the mathematical difficulties associated with the calculations. A well-known model for temperature distributions in an exchanger is adapted for this case, and is used to distinguish between the contributions of the three major causes of the total exergetic loss: heat transfer, fluid friction and energy dissipation to the surroundings. This provides insight into the relative importance of the three, allowing for identification of potential improvements to a given design.},
added-at = {2013-02-04T13:52:01.000+0100},
author = {López Paniagua, Ignacio and Rodríguez Martín, Javier and González Fernandez, Celina and Jiménez Alvaro, Ángel and Nieto Carlier, Rafael},
biburl = {https://www.bibsonomy.org/bibtex/2cffdfb2710c4c54ccc51065d5370dfb2/thorade},
interhash = {31a1b1b313c33f3606191c83eb5eee34},
intrahash = {cffdfb2710c4c54ccc51065d5370dfb2},
journal = {Entropy},
keywords = {2013 EGM entropy exergy},
number = 2,
pages = {474--489},
timestamp = {2013-02-04T13:52:01.000+0100},
title = {A New Simple Method for Estimating Exergy Destruction in Heat Exchangers},
url = {http://dx.doi.org/10.3390/e15020474}
}