A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
VARYING THERMAL TRANSMITTANCE WALL
An adaptive wall (P) comprises, embedded in the wall, a duct (1) which extends more into the innermost layer (SI) of the inner wall (PI) and into the outermost layer (SE) of the outer wall (PE) of the wall (P). Inside the duct (1), a heat transfer fluid (2) which usually is stationary in the resting condition is present, wherein said fluid (2) is free to move and circulate in the duct (1) by virtue of a thrust member (5). The thrust member (5) is adapted to move the fluid (2) from the resting condition to cause it to flow inside the duct (1). A first indoor surface temperature probe (Tpi) and a second outdoor surface temperature probe (Tpe) are provided on the wall (P), which are positioned embedded in the innermost layer (SI) of the inner wall (PI) and in the outermost layer (SE) of the outer wall (PE), respectively, to measure the indoor (Ta) and outdoor (Tb) temperature. The adaptive wall (P) further includes a control unit (4) which acquires the data (Ta, Tb) measured by the first (Tpi) and second (Tpe) temperature probes, compares them and controls the thrust member (5) to leave the heat transfer fluid (2) stationary or cause it to flow according to the results of such a comparison of the indoor temperature (Ta) with the outdoor temperature (Tb).
VARYING THERMAL TRANSMITTANCE WALL
An adaptive wall (P) comprises, embedded in the wall, a duct (1) which extends more into the innermost layer (SI) of the inner wall (PI) and into the outermost layer (SE) of the outer wall (PE) of the wall (P). Inside the duct (1), a heat transfer fluid (2) which usually is stationary in the resting condition is present, wherein said fluid (2) is free to move and circulate in the duct (1) by virtue of a thrust member (5). The thrust member (5) is adapted to move the fluid (2) from the resting condition to cause it to flow inside the duct (1). A first indoor surface temperature probe (Tpi) and a second outdoor surface temperature probe (Tpe) are provided on the wall (P), which are positioned embedded in the innermost layer (SI) of the inner wall (PI) and in the outermost layer (SE) of the outer wall (PE), respectively, to measure the indoor (Ta) and outdoor (Tb) temperature. The adaptive wall (P) further includes a control unit (4) which acquires the data (Ta, Tb) measured by the first (Tpi) and second (Tpe) temperature probes, compares them and controls the thrust member (5) to leave the heat transfer fluid (2) stationary or cause it to flow according to the results of such a comparison of the indoor temperature (Ta) with the outdoor temperature (Tb).
VARYING THERMAL TRANSMITTANCE WALL
WAND MIT VARIABLER THERMISCHER DURCHLÄSSIGKEIT
PAROI DE TRANSMITTANCE THERMIQUE VARIABLE
BALDINELLI GIORGIO (author) / BIANCHI FRANCESCO (author)
2024-01-10
Patent
Electronic Resource
English
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