Add to ORKGDifferent heating system controllers for passive solar buildings are compared on two different buildings. The performance criterion combines energy performance and thermal comfort using the "cost function " paradigm. The experimental facilities did not allow a direct experimental comparison by using two identical buildings. The controllers were implemented alternatively in one building and a performance comparison was obtained in two ways: first by identifying short periods that have similar driving variables (weather conditions and building occupancy) and comparing the experimental results obtained in both cases. The second method mixes experiments and simulation using a well-tuned model of the building and its occupants. This pa...
The use of building performance simulation (BPS) tools to guide decisions during the design process ...
The use of building performance simulation (BPS) tools to guide decisions during the design process ...
Building heating and cooling energy needs result from the thermal balance calculation, and can be de...
Different heating system controllers for passive solar buildings are compared on two different build...
peer reviewedDifferent heating system controllers for passive solar buildings are compared on two d...
Different heating system controllers for passive solar buildings are compared on two different build...
peer reviewedDifferent heating system controllers for passive solar buildings are compared on two di...
This paper describes the methodology used in a simulation process that pretend to compare predicted ...
peer reviewedThis paper describes the methodology to apply discrete-time optimal control to a buildi...
An optimal controller for auxiliary heating of passive solar buildings and commercial buildings with...
This paper presents a comparison of different scenarios in controlling the space heating systems in ...
A framework for the design and simulation of a building envelope and an HVAC system is used to compa...
A comparison between energy performance, simulated by means of the EnergyPlus building simulation pr...
The building industry's rising commitment to resource efficiency is influencing the evolution of bui...
The use of building performance simulation (BPS) tools to guide decisions during the design process ...
The use of building performance simulation (BPS) tools to guide decisions during the design process ...
Building heating and cooling energy needs result from the thermal balance calculation, and can be de...
Different heating system controllers for passive solar buildings are compared on two different build...
peer reviewedDifferent heating system controllers for passive solar buildings are compared on two d...
Different heating system controllers for passive solar buildings are compared on two different build...
peer reviewedDifferent heating system controllers for passive solar buildings are compared on two di...
This paper describes the methodology used in a simulation process that pretend to compare predicted ...
peer reviewedThis paper describes the methodology to apply discrete-time optimal control to a buildi...
An optimal controller for auxiliary heating of passive solar buildings and commercial buildings with...
This paper presents a comparison of different scenarios in controlling the space heating systems in ...
A framework for the design and simulation of a building envelope and an HVAC system is used to compa...
A comparison between energy performance, simulated by means of the EnergyPlus building simulation pr...
The building industry's rising commitment to resource efficiency is influencing the evolution of bui...
The use of building performance simulation (BPS) tools to guide decisions during the design process ...
The use of building performance simulation (BPS) tools to guide decisions during the design process ...
Building heating and cooling energy needs result from the thermal balance calculation, and can be de...