Energy performance analysis of a historical building using cost-optimal assessment
Abstract
The energy efficiency concept has attracted significant attention over the last few years and has taken a
prominent role in the development goals of countries. Considering that buildings have a high share in
total energy consumption, it is crucial to improve their energy performance both in environmental and
economic terms. Although efforts in increasing buildings’ energy efficiency have primarily focused on
new buildings, existing buildings still retain their importance. Historical buildings are included in the
existing building stock. It is essential to increase their energy efficiency to achieve carbon–neutral build-
ing targets set from EU Directives. In this paper, we proposed measures to improve the energy efficiency
and determine cost-optimal levels of a public historical building located in a hot-humid climate zone of
Turkey. An integrated approach based on in situ measurements and building energy simulations was
used to create a building energy model that was calibrated by using real measurements. Then, 365
energy-efficient measures are applied to the building and conducted an economic feasibility study by uti-
lizing a cost-optimal envelope, lighting, heat pump and photovoltaic panel. A sensitivity analysis is per-
formed to determine the impact of investing on optimal cost-of-energy level calculations with focus on
the inflation rate, different interest rates, and calculation periods. Sensitivity analysis of discount rate has
shown when the discount rate increases, global costs decrease. It is observed that the changes in eco-
nomic parameters that could cause a decrease in annual costs reduced the cost effectiveness of the sce-
narios with high initial investment costs.