Sustainable construction needs monitoring
Sustainable construction is becoming increasingly important. If the natural building materials used in a building are unintentionally exposed to moisture and moisture as a result of moisture protection that does not function properly or is damaged by undetected influences, this inevitably leads to profound damage to the building fabric. Valuable resources are lost prematurely.
The number of such cases is currently rising sharply. In large-volume timber construction in particular, this can lead to dramatic cases of damage. The simple formula applies: the longer the moisture is exposed and the larger the structure affected by the event, the greater the damage. This development is reinforced by the increasing trend towards the use of flat roofs for extensive and more and more intensive greening, for roof terraces, for photovoltaics and now also for the storage of rainwater. Modern, i.e. used flat roofs can therefore practically no longer be inspected from the visible side of the roof, as they used to be. At the same time, the rainwater on so-called retention roofs remains on the roof surfaces for longer and longer. Even in the case of minor damage, larger and larger quantities of water penetrate the structure faster and faster and damage the structure.
High-quality roof surfaces of a DGNB-certified commercial property — The waterproofing surfaces can no longer be visually inspected — leak testing and leakage detection is also not possible due to the use from the visible side
But how can a building be sustainable if it suffers considerable loss of substance after a short time as a result of moisture damage that is not noticed or noticed too late? And how can a building be sustainable in which exactly this scenario will inevitably occur in 30 or 40 years at the latest at the end of the mechanical service life of the waterproofing?
So is it sustainable, responsible and forward-looking if we expose ourselves and, above all, future generations to the great danger that our ecological buildings will have to be demolished or at least extensively renovated in just a few years, but certainly sometime in the next few decades, because moisture and moisture have caused serious damage unnoticed? And much more importantly: Is there an approach that can effectively avert this danger?
With real-time monitoring, leaks are detected immediately when water enters the structure – the elimination of the leak is also clearly visible over time.
Yes. If we want to avoid what has been described in the first paragraphs, two things are urgently needed: precise, i.e. correct, up-to-date, complete and reliable information about the state of a building’s moisture protection and the willingness to translate the knowledge gained from this information into timely and planned action.
In fact, the trends in ecological construction described above, namely the increasing use of moisture-sensitive building materials, such as wood, and the increasingly inaccessible and invisible laying of waterproofing, which is so important for moisture protection, underneath ever thicker wear layers, mean that the quality of the conventionally available information about the condition of moisture protection in a building tends to get worse and worse – so badly that it is that they make timely and planned action impossible where action is needed.
Real-time monitoring systems with electric field tomography (EFT) enable automated data analysis and provide precise information about the leakage position – repairs can be carried out quickly and in a targeted manner.
These connections are not new. As early as 1995, the “First Building Damage Report” of the Federal Ministry of Building explained in detail that avoidable structural damage can only be avoided if the level of information on the condition of moisture protection of buildings is improved by the use of suitable monitoring systems, today referred to as monitoring systems. This was combined with the appeal to make public funding of construction projects dependent on the development and use of such systems in practice. While the appeal was primarily economically justified at the time, it takes on much greater significance and topicality in view of the current sustainability and resource discussion and in view of the current ecological, sustainability-oriented building trends. It is therefore hardly comprehensible and, in view of the correlations shown, it also appears to be less than responsible if the majority of flat roofs of new buildings declared as sustainable are still erected without any devices for monitoring moisture protection, although unlike in 1995, there have now been tried and tested real-time monitoring systems for this task for years, with which waterproofing damage is detected and automatically located at any time. even where you can’t look otherwise. Such systems cost money. Not using them costs a lot more money in the long run.