This paper presents a heat storage and cooling concept that utilizes a phase change material (PCM) and a thermally activated building system (TABS) implemented in a hollow core concrete deck. Numerical calculations of the dynamic heat storage capacity of the hollow core concrete deck element with and without microencapsulated PCM are presented. The new concrete deck with microencapsulated PCM is the standard deck on which an additional layer of the PCM concrete was added and, at the same time, the latent heat storage was introduced to the construction. The challenge of numerically simulating the performance of the new deck with PCM concrete is the thermal properties of such a new material, as the PCM concrete is yet to be well defined. The ...
A new type of concrete with PCM (Phase Change Material) thermal energy storage system is presented. ...
The use of phase change materials (PCMs) in building elements has gained increasing popularity in re...
A preliminary study on the increased thermal capacity in Thermal Energy Storage concrete solids with...
The paper presents the numerically calculated dynamic heat storage capacity of the prefabricated hol...
The paper presents the full-scale experimental investigation of the dynamic heat storage potential o...
The building sector accounts for approximately 40% of the world’s total use of primary energy, and t...
This paper investigates heat storage and cooling concept that utilizes both phase change material (P...
Development of energy efficient and environmentally friendly materials to reduce energy consumption ...
The fast economic development around the globe and high standards of living imposes an ever increasi...
The fast economic development around the globe and high standards of living imposes an ever increasi...
It is a practical approach to store energy in building materials by incorporating Phase Change Mater...
The implementation of phase change thermal storage technology represents a high-potential strategy f...
To increase the heat capacity in lightweight construction materials, a phase change material (PCM) c...
Using the mass of a building as a thermal storage system can reduce the demand on the auxiliary heat...
Abstract TABS (Thermally Activated Building System) has recently applied by huge commercial building...
A new type of concrete with PCM (Phase Change Material) thermal energy storage system is presented. ...
The use of phase change materials (PCMs) in building elements has gained increasing popularity in re...
A preliminary study on the increased thermal capacity in Thermal Energy Storage concrete solids with...
The paper presents the numerically calculated dynamic heat storage capacity of the prefabricated hol...
The paper presents the full-scale experimental investigation of the dynamic heat storage potential o...
The building sector accounts for approximately 40% of the world’s total use of primary energy, and t...
This paper investigates heat storage and cooling concept that utilizes both phase change material (P...
Development of energy efficient and environmentally friendly materials to reduce energy consumption ...
The fast economic development around the globe and high standards of living imposes an ever increasi...
The fast economic development around the globe and high standards of living imposes an ever increasi...
It is a practical approach to store energy in building materials by incorporating Phase Change Mater...
The implementation of phase change thermal storage technology represents a high-potential strategy f...
To increase the heat capacity in lightweight construction materials, a phase change material (PCM) c...
Using the mass of a building as a thermal storage system can reduce the demand on the auxiliary heat...
Abstract TABS (Thermally Activated Building System) has recently applied by huge commercial building...
A new type of concrete with PCM (Phase Change Material) thermal energy storage system is presented. ...
The use of phase change materials (PCMs) in building elements has gained increasing popularity in re...
A preliminary study on the increased thermal capacity in Thermal Energy Storage concrete solids with...