Post by somrat6islam222 on Feb 17, 2024 6:54:40 GMT -5
Comfort throughout your home, reducing sudden changes inside the home. Source: ANFAPA The first evaluation step when addressing the rehabilitation of a building is to examine the support; it will be necessary to determine its resistance and adhesion capacity; Likewise, if necessary, it will have to be cleaned and sanitized, eliminating and replacing loose elements of the façade to leave it perfectly prepared to receive the SATE system. Once a SATE is applied, a series of important thermal improvements occur, among which are: Increase in the thermal inertia of the enclosures Thermal inertia is the difficulty that materials have in changing their temperature.
Directly linked to the accumulation of energy. Enclosures with a lot of inertia accumulate a lot of energy and that energy acts as a protective cushion against fluctuations in outside temperatures , such as in constructions of large walls, churches, rural mansions, etc. Their interior temperature differs greatly from the exterior, due to their large thermal mass. Source: ANFAPA In new Phone Number List constructions it is not possible to make these large walls, so enclosures are made that include insulating materials that transform the concept of mass by conductivity, making it possible to obtain the same efficiency values while being lighter. Thermal inertia has two effects: it increases the time it takes.
Exterior heat wave to pass through the enclosure and in the heat conduction process, part of the accumulated heat tends to escape to the outside. Therefore, the further outward the insulating layer is, the slower the phase shift and the smaller the damping. Reduction of thermal bridges There is a widespread custom of constructing buildings with enclosures that rest partially on the edges of the slabs, using the support of ceramic brick / of their width (/ foot) and with an air chamber (with insulation or not) and a double ceramic partition (simple hollow brick). This type of enclosure makes it possible to have thermal bridges throughout the building envelope. Increasingly in those in which.
Directly linked to the accumulation of energy. Enclosures with a lot of inertia accumulate a lot of energy and that energy acts as a protective cushion against fluctuations in outside temperatures , such as in constructions of large walls, churches, rural mansions, etc. Their interior temperature differs greatly from the exterior, due to their large thermal mass. Source: ANFAPA In new Phone Number List constructions it is not possible to make these large walls, so enclosures are made that include insulating materials that transform the concept of mass by conductivity, making it possible to obtain the same efficiency values while being lighter. Thermal inertia has two effects: it increases the time it takes.
Exterior heat wave to pass through the enclosure and in the heat conduction process, part of the accumulated heat tends to escape to the outside. Therefore, the further outward the insulating layer is, the slower the phase shift and the smaller the damping. Reduction of thermal bridges There is a widespread custom of constructing buildings with enclosures that rest partially on the edges of the slabs, using the support of ceramic brick / of their width (/ foot) and with an air chamber (with insulation or not) and a double ceramic partition (simple hollow brick). This type of enclosure makes it possible to have thermal bridges throughout the building envelope. Increasingly in those in which.