Vegetal materials were one of the first construction materials used by humans, but the development of petrol-based synthetic materials in the last century replaced them in mainstream construction techniques. However, since environmental impact and resource depletion are increasingly becoming a central issue, vegetal materials are revisited. Natural thermal insulations are mainly developed from woody materials and industrial fibres, but these raw materials are not always locally available. Thus, the use of crop by-products is proposed here. The availability of crop by-products to be used as raw materials for building thermal insulations in Spain is evaluated. It is then compared to demand forecasts based on two different scenarios. Results vary greatly from one scenario to another, but they indicate that the amount of crop byproducts is sufficient to meet estimated demand. Barley and wheat straw are by far the most abundant by-products, followed by corn, rice and sunflowers. Available corn by-products would be sufficient to insulate between 250,000 and 450,000 dwellings yearly.
Abstract. Fire spread through the façades is widely recognized as one of the fastest pathways of fire spreading in the buildings. Fire may spread through the façade in different ways depending on the type of façade system and on the elements and materials from which it is constructed. Ventilated façades are multilayer systems whose main feature is the creation of an air chamber of circulating air between the original building wall and the external cladding. The "chimney effect" in the air cavity is a mechanism that improves the façade's thermal behaviour and avoids the appearance of moisture from rain or condensation. However, in a event of fire, it may contribute to the quickest spreading of fire, representing a significant risk to the upper floors of a building. This study deals with some aspects of fire propagation through the ventilated cavity in ventilated façade systems. Also we review the provisions stipulated by the Spanish building code (Código Técnico de la Edificación, CTE) [1] to avoid fire spread outside the building.The results highlight the importance of the use of proper fire barriers to ensure the compartmentalization of the ventilated cavity, as well as the use of non-combustible thermal insulation materials, among others. In addition, based on the results, it might be considered that the measures stipulated by the CTE are insufficient to limit the risks associated with this kind of façades systems. The study has been performed using field models of computational fluid-dynamics. In particular, the Fire Dynamics Simulator (FDS) software has been used to numerically solve the mathematical integration models.
Se estudió el efecto de la inclusión de urea sobre la composición y cinética de degradación ruminal in situ en el ensilado de rastrojo de maíz. Se partió de cuatro de tratamientos al adicionar el 0, 1, 2 y 3% de urea a una mezcla de rastrojo de maíz con el 10% de melaza. Se elaboraron 128 microsilos (3 kg/unidad y 4 repeticiones por tratamiento). La apertura de los silos se realizó a los 7, 14, 21, 28, 35, 42, 49 y 56 días. Se determinó el contenido de la materia seca (MS), materia orgánica (MO), proteína bruta (PB), FND y FAD. La degradabilidad in situ se obtuvo mediante el método de Mehrez y Orskov y la degradabilidad de MS y PB mediante el análisis de los residuos con el método Kjeldhal. Los datos se analizaron con el procedimiento GLM y el test de Tukey (P±
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