This paper seeks, as a part of Algerian policy, to encourage the reconstruction of the ground in order to achieve economic reconstruction and the safety of inhabitants and the environment. The study focuses on the hygrothermal behaviour of compressed and stabilised earth blocks that can be used in different climate zones, like the south of Algeria, where the temperature is up to 50°C in summer, and the coastal towns, where humidity exceeds 80%. Accordingly, an experimental study has been conducted to determine the influence of temperature on the sorption isotherms for compressed and stabilised earth blocks stabilised with 6% of cement. The sorption isotherms were measured at temperatures of 10, 23, 30, 40 and 50°C. Twelve equations have been fit to the experimental isotherms to find the one that gives the best agreement. An experimental model was then developed based on the Oswin model describing the dependence of temperature on the sorption characteristics of compressed and stabilised earth blocks. The results show a significant influence of the increase in temperature on the hygrothermal behaviour, in particular a reduction of 11% in the equivalent water content between 10°C and 50°C.
The aim of this work is to examine the thermohydric behavior of a building made of compressed stabilized earth bricks (CSEB), by testing its effectiveness in stabilizing the quality of indoor air, compared to four conventional materials. The study is carried out using TRNSYS-COMIS software with its Buffer Storage Humidity Model for three types of climates: desert, Mediterranean, and dry and cold semi-arid climate. The results highlight the contribution of the CSEB material in regulating the indoor relative humidity of buildings, also in limiting the effects of condensation thanks to its adsorption effect.
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