Stavebně technické, urbanistické a investiční souvislosti lokalizace stavby z hlediska možného přenesení požáru

Abstract

The subject of the thesis is to determine the size standoff distances between objects. In practice, the procedure used, which is described in the current standards, it uses the principle of heat transfer by radiation. The entire procedure for determining distances against reality is simplified and cannot do without the tabulated values that are necessary to facilitate the calculation and therefore overestimated.

The aim is to assess the practical procedures used for determining standoff distances and alternative solutions at the required level with sufficient precision to enable you to get better value and more economical placement of objects in a given space. The work is focused on addressing the effective interaction of positioning objects to protect buildings against fire spreading after fire. From the realized calculations it is apparent that the calculations are updated, leading to impairment standoff distances and therefore to reduce the size of the fire hazardous area. This will allow better and effectively place objects on land and in built-up areas. Reduced demands on the built-up area will be reflected in the implementation phase in the reduced built-up area and in short lengths of piping technical - transport infrastructure. Throughout the life cycle of the building were significantly reduced costs of operation, repair and maintenance. In this work, specifically in the context of an ongoing case calculated reduced demands on the built-up area and can be quantified savings. The results are applicable and useful in practice, especially in urban planning, design activities at a facility management.