Abstract:
A sustainability assessment scheme for buildings is proposed with two key features, namely the use of
quantifiable indicators rather than subjective scores for aspects; and the use of continuous functions for
the indicator scores, since such functions will yield better comparisons across buildings than given by
step functions. The indicator scores would need to be normalized with respect to benchmarks, whether
global ones available in the literature, or local ones that can be obtained by averaging the scores from
local ‘green’ buildings. The systems level and operation stage of a building are found to contribute most
to the overall sustainability score, with a high degree of coupling between them. Ten buildings seeking
‘green’ certification are assessed together with two that are ‘not green’. Assessments are made using the
basic assessment scheme proposed and two variations thereof, the first based on local rather than global
benchmarks and the second based on accentuating indicator score differences in highly weighted aspects
by using a non linear indicator score function. The LEED rating system, which uses mostly step functions
for aspect scores, gives unrealistically low scores for the ‘non green’ buildings, thus justifying the use of
continuous functions for indicator scores.
Citation:
Chandratilake, S. R., & Dias, W. P. S. (2015). Ratio based indicators and continuous score functions for better assessment of building sustainability. Energy, 83, 137–143. https://doi.org/10.1016/j.energy.2015.02.007