Wooden heritage buildings and preventing them against fire
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Issue Vol. 14 No. 4 (2015)
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Hydrophobisation effectiveness of building ceramics, polymeric inorganic ultrasound integrated with the addition of fillers
019-027
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The castle in town of Brody: the phases of development of fortifications
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Analysis of adaptability of the recreational property in a wooden residential building with functional behavior of solutions and technologies vernacular
029-042
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The study of the mechanical properties of the porous gypsum
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Reasons of realization of low energy consuming houses on rural areas
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Conservation of wooden vernacular architecture – lessons and experience from the work carried out
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Wooden heritage buildings and preventing them against fire
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The physical and mechanical properties of magnesium oxychloride cement-based materials
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Measurement and drawing inventory of wooden architecture monuments in the renovation process – problems and proposal of standardization
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Customizing residential buildings for people with dysfunction of motion
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Analysis of the development of cluster cracks in the cement paste modified by microsilica
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Analysis of bearing capacity of wooden rafter frames in wooden vernacular building
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Milk runs model with overtime: application to cluster supply chain
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The impact of temperature, humidity and the direction of analysis on thermal conductivity λ in different types of wood
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Preventive conservation of historical wooden architecture
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Measurement, inventory and diagnostics of wooden vernacular architecture - selected issues the use of terrestrial scanning technology
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How to adapt wooden buildings to fire regulations?
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Researches of mineral-cement-emulsion mixes (MCE)
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Strengthening Klein’s floor slabs with the use of current norms
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Abstract
The protection of wooden heritage buildings against fire, biodeterioration, robbery and vandalism is one of the most important tasks in the field of cultural property preservation. In Poland and other European countries, the most popular wood-made objects are historical wooden churches (Catholic and Orthodox ones), rural huts, cottages, sheds, barns and wooden wind mills which are like open air museums. Wood is the most common raw material that was used for the construction of these objects since ancient times. Generally these wooden objects are wholly combustible, they are mostly located beyond towns and difficult to guard and exposed to risk of setting on fire. Not everywhere there is a sufficient supply of water from water tanks and fire hydrant network. Moreover, there is a lack of good access ways for fire brigade vehicles and no fire detecting systems were installed in many of these objects. Unfortunately, fire retardant application is insufficient or totally absent in these heritage buildings. This manuscript presents general possibilities of the application of modern technology of fire retardancy systems intended for the protection the heritage objects against fire disaster. None or only minimal influence on an ancient object wood is the advantage of the above systems. The fire safety strategy for wooden buildings and historical sites requires an agreement and compromise between the point of view of art. Historians and conservators and that of fire-fighting experts.
