The advantages of the consideration

The advantages of the consideration of the thermodynamic
concept of exergy can be summarized as follows: (1) it is easy to
show the quality of the energy involved in any process, (2) one
can show the process of exergy consumption in every system and
its sub-systems, and (3) it is possible to compare different
qualities of energy, e.g. electricity and heat.
There are several papers addressing the role of exergy in
energy policymaking, sustainability and efficiencies (Dincer,
2002; Gong and Wall, 2001; Kondo, 2009; Rosen, 2002; Rosen
al., 2008; Utlu and Hepbasli, 2006; Wall and Gong, 2001However, according to a comprehensive review over the existing
work on the exergy consumption analysis of climatisation
systems within the built environment as given in Torı
´
o et al.
(2009), the common approach is the assumption of a standard
behaviour pattern, simply by a fixed set-point room air temperature
as done by Angelotti and Caputo (2007). This is due to the
fact that those papers are mostly focussing on the improvement of
the building systems. In reality one can expect the human
occupant to choose a different set-point room air temperature
according to his or her desired level of comfort and the
surrounding conditions.
It must be important to see the effect of occupant behaviour in
addition to that of building systems. Therefore, this paper first
describes a simplified steady-state calculation method for the
exergy consumption within the built environment including one
specific type of a heat-pump system in the form of an AC-unit,
which is typical for Japanese residential buildings, consisting of an
outdoor-unit and a room unit, and can be used both for cooling
and heating. This is followed by the description of how the
occupants choice of set-point temperature and frequency of ACunit
usage were set up based upon the results of an analysis on
occupant behaviour made by the present authors and then
presents the result of the exergy consumption calculation for