Today’s� thermostat� setpoint� models� naively� assume� fixed schedules, ignoring the reality of user control and its large variability. Better models must include more realistic user-behavior profiles to correctly evaluate the energy benefits of the next generation of thermostats against a realistic baseline. Data from a recent thermostat field study were analyzed to demonstrate the variation and patterns associated with manual adjustment of programmable thermostats and its consequences on observed and simulated energy consumption. A practical modeling technique for describing variable setpoint schedules was applied and compared with standard, fixed setpoint assumptions. Room air temperature data from 63 apartments near Boston, MA were used to generate unique hourly heating setpoint schedules. These observed temperature histories were then used to model the expected variation in energy use of an apartment due to manual thermostat adjustment. Significant differences in energy consumption were observed when variable setpoints were used instead of fixed setpoints, indicating the need for improving thermostat assumptions and updating models with more realistic schedules.
[1]
Willett Kempton,et al.
Two Theories of Home Heat Control
,
1986,
Cogn. Sci..
[2]
Cecilia R. Aragon,et al.
How People Actually Use Thermostats
,
2010
.
[3]
Therese Peffer,et al.
Usability of residential thermostats: Preliminary investigations
,
2011
.
[4]
Therese Peffer,et al.
How people use thermostats in homes: A review
,
2011,
Building and Environment.
[5]
Todd Malinick,et al.
Destined to Disappoint: Programmable Thermostat Savings are Only as Good as the Assumptions about Their Operating Characteristics
,
2012
.
[6]
Verena Tiefenbeck,et al.
Field Evaluation of Programmable Thermostats
,
2012
.
[7]
Bryan Urban,et al.
TOWARDS BETTER MODELING OF RESIDENTIAL THERMOSTATS
,
2012
.