Floor heating systems are typically characterized by a relatively high thermal inertia, thus they react slowly to setpoint changes. When the system turns on, an under-heating period could occur for a relative long period, vice versa when the setpoint is decreased the floor thermal inertia could lead to overheating. In residential applications, the users try to avoid these discomfort problems by using a constant setpoint, higher than the setback. In this way the average energy consumption as well as the user’s bill increases. A smarter solution to mitigate this problem is to include a pre-on period parameter, so that the system will turn on a certain time before the increase in setpoint to avoid the under-heating period and a pre-off period ...
Research studies concerning heating and cooling systems have increased in recent years, pledging gre...
Home retrofitting provides a means to improve the basic energy and comfort characteristics of a buil...
Controllers employing optimal control strategies will path the way to enable flexible operations in ...
Floor heating systems are typically characterized by a relatively high thermal inertia, thus they re...
Thermally Activated Building Systems (TABS) are difficult to control due to the time lag between the...
Today, the control of heat pumps aims to first and foremost maintain a comfortable indoor temperatur...
Model Predictive control is an advanced control tech-nique that has been used to optimize thermal co...
International audienceThis paper presents and demonstrates, by numerical simulation, a mixed-integer...
A model based predictive control method is applied in order to determine the optimal supply fluid te...
Building equipment accounts for almost 40% of total global energy consumption. More than half of whi...
Advantages of Model Predictive Control (MPC) strategies for control of building energy systems have ...
This paper presents a thermal control methodology based on an indoor temperature predictive model th...
The goal of maintaining users’ thermal comfort conditions in indoor environments may require complex...
Research studies concerning heating and cooling systems have increased in recent years, pledging gre...
Home retrofitting provides a means to improve the basic energy and comfort characteristics of a buil...
Controllers employing optimal control strategies will path the way to enable flexible operations in ...
Floor heating systems are typically characterized by a relatively high thermal inertia, thus they re...
Thermally Activated Building Systems (TABS) are difficult to control due to the time lag between the...
Today, the control of heat pumps aims to first and foremost maintain a comfortable indoor temperatur...
Model Predictive control is an advanced control tech-nique that has been used to optimize thermal co...
International audienceThis paper presents and demonstrates, by numerical simulation, a mixed-integer...
A model based predictive control method is applied in order to determine the optimal supply fluid te...
Building equipment accounts for almost 40% of total global energy consumption. More than half of whi...
Advantages of Model Predictive Control (MPC) strategies for control of building energy systems have ...
This paper presents a thermal control methodology based on an indoor temperature predictive model th...
The goal of maintaining users’ thermal comfort conditions in indoor environments may require complex...
Research studies concerning heating and cooling systems have increased in recent years, pledging gre...
Home retrofitting provides a means to improve the basic energy and comfort characteristics of a buil...
Controllers employing optimal control strategies will path the way to enable flexible operations in ...