Cost analysis for optimum thicknesses and environmental impacts of different insulation materials: Fid-Bau Portal

Cost analysis for optimum thicknesses and environmental impacts of different insulation materials

Ozel, Meral

Highlights ► The study investigates optimum thicknesses and environmental impacts of different insulation materials. ► Yearly cooling and heating transmission loads are determined under dynamic thermal conditions. ► A life-cycle cost analysis over lifetime of 20 years of the building is used. ► The optimum insulation thicknesses, energy savings and payback periods are determined. ► Fuel consumption and emissions of CO2 and SO2 are also calculated.

Abstract In this study, the optimum thickness of thermal insulation used to reduce heat gain and losses in buildings is investigated under dynamic thermal conditions by using the climatic conditions of Elazığ, Turkey. Numerical method based on an implicit finite difference procedure which has been previously validated is used to determine yearly cooling and heating transmission loads, yearly averaged time lag and decrement factor under steady periodic conditions. These loads are used as inputs to an economic model for the determination of the optimum insulation thickness. The optimum insulation thicknesses, energy savings and payback periods are calculated by using life-cycle cost analysis over lifetime of 20 years of the building. Results show that the optimum insulation thicknesses vary between 5.4 and 19.2cm, energy savings vary between 86.26 and 146.05$/m², and payback periods vary between 3.56 and 8.85 years for different insulation materials. The environmental impacts of thermal insulation are also investigated. It is seen that by applying optimum insulation thickness in uninsulated wall, yearly fuel consumption and emissions are decreased by 68–89.5% depending on insulation materials.