Heating behaviour in English homes: An assessment of indirect calculation methods: Fid-Bau Portal

Heating behaviour in English homes: An assessment of indirect calculation methods

Kane, T. / Firth, S.K. / Hassan, T.M. / Dimitriou, V.

Highlights•A comprehensive dataset for studying heating in homes has been collected and made publically available.•Internal room air temperatures in all major rooms, radiator surface temperatures, heating fuel consumption and building survey data are analysed for 20 real-world homes over a five month period.•An assessment of seven different heating behaviour indirect calculation methods drawn from the literature unites progress in the field to date and provides a clear direction for further research tools.

AbstractHeating behaviours, such as timer and room thermostat settings, are a key influencing factor in energy demand in homes. However they are difficult to measure directly in existing housing with standard heating systems and controls. To overcome this, several indirect methods have been developed in previous research which estimate heating behaviours using sensor measurements of temperatures and energy demands in the home. This work assesses seven of these heating behaviour indirect calculation methods through a comparative study based on sensor data recorded in 20 English homes over a five month period. The results show that methods based on room air temperatures estimate mean daily heating durations between 6.7 and 11.4hours per day, based on radiator surface temperatures between 2.9 and 3.3h per day and based on gas consumption for 4.4h per day. Estimated thermostat setting based on peak whole house temperature ranged between 20.3°C and 20.8°C but a 5°C temperature range was found when applying the methods to different room temperatures. Of the methods tested, the radiator surface temperature method was found to be the most appropriate for calculating heating behaviours over time and a set of guidelines for the future application of indirect heating behaviour calculation methods is provided. The findings highlight the need for future studies to directly measure heating behaviours in homes in order to further improve the development of indirect heating behaviour calculation methods.