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. 2019 Dec 25;22(1):32. doi: 10.3390/e22010032
AEA Advanced Exergy Analysis
C Supply and Return Collectors
CB Condensing Boiler
DAEA Dynamic Advanced Exergy Analysis
DHW Domestic Hot Water
FC Fan Coil
HC Hydraulic Compensator
HX Heat Exchanger
ITF CB Inlet Temperature Fixing
LQCB Laboratory for the Quality Control in Buildings
S Micro-Cogeneration Stirling Engine
T Storage Tank
V Mixer and Splitter
TiIndRe Real experimental value of the independent variable i
TiDepTr Output value taken from TRNSYS of the dependent variable i
TiDepCalc Calculated dependent variable i
TiDepRe Real experimental value of the dependent variable i
EF,k Fuel for the kth component
EP,k Product for the kth component
εk Exergetic efficiency within the kth component
εk Exergetic efficiency within the kth component in new thermodynamic conditions
ED,k Total exergy destruction within the kth component
ED,k Total exergy destruction within the kth component in new thermodynamic conditions
ED,kAV Avoidable exergy destruction within the kth component
ED,kUN Unavoidable exergy destruction within the kth component
ED,kEN Endogenous exergy destruction within the kth component, based on the decomposition method
ED,kEN* Endogenous exergy destruction within the kth component, based on the real characteristic curves
ED,kEX Exogenous exergy destruction within the kth component
ED,ikEX Exogenous exergy destruction that component i causes within component k
ED,kAV·EN Avoidable endogenous exergy destruction within the kth component
ED,kAV·EX Avoidable exogenous exergy destruction within the kth component
ED,kUN·EN Unavoidable endogenous exergy destruction within the kth component
ED,kUN·EX Unavoidable exogenous exergy destruction within the kth component
ED,kAV·EN Avoidable endogenous exergy destruction within the kth component