Is it possible to energy-upgrade period buildings without losing stylistic features subject to monument preservation? The potential of SLENTITE® high-performance insulation material is illustrated by the current practical example of modernization of a period villa in Hamburg. CORPUS is following the refurbishment and renovation work.
Cutting energy consumption and improving home comfort – two key goals of an energy upgrade. With the right insulation this is feasible even in period buildings listed as monuments.
According to the Federal Statistical Office, over 50 percent of buildings in Germany were built before 1960. But anyone who chooses a home with a history can expect to invest work in the building’s upkeep. To preserve the house’s charm and comply with the demands of monument preservation, it is essential to leave certain building features in their original state. Consequently, energy upgrades are often necessary yet challenging at the same time. A typical feature of period buildings is their high energy consumption, due above all to insufficient insulation and thermal bridges in the facades. With modern rehabilitation techniques, major energy and cost savings can be achieved – thus contributing directly to climate protection. In addition, good insulation is capable of boosting home comfort and coziness enormously for the building’s inhabitants. So where’s the problem?
Conventional insulation materials often take up so much space that they fail to meet the requirements for preservation of the building’s style. The fact that there are alternatives is illustrated by a current practical example in Hamburg – this is where slim SLENTITE® high-performance insulation has been instrumental in the modernization and renovation work in various “problem areas” of a period villa for the first time. CORPUS has been following the construction work on site.
The three-story residential building erected in 1937 is outdated both technically and energy-wise. The backlog of modernization is now being worked off with extensive refurbishment work – with renovation also having to comply with monument preservation guidelines. These include above all the retention of the original facade of typical Hamburg red brick, which rules out external insulation. Inside there is also plenty to admire – and protect: Elements such as the windows with wooden embrasure and the radiator recesses typical of the period and the associated radiators. This is where SLENTITE® takes its cue: Thanks to its exceptional insulation value, this innovative material from BASF can be used in thickness range between 10 and 15 mm. As a result, thermal bridges as could arise due to poorly insulated radiator recesses can be prevented without impairing the character of the room.
With SLENTITE®, an aerogel-based insulation material has been made available in panel form for the first time. The material is well on the way to market launch, and in the villa in Hamburg its special properties can already be witnessed. All the rooms are to provide the desired room comfort after modernization. With SLENTITE®, this is absolutely no problem. A fitness room and a work room are being created in the basement – precisely where room humidity is particularly high. Here again, the open-porous structure of the polyurethane aerogel ensures effective moisture regulation and so creates the conditions for a pleasant interior climate.
Work on the period building is in full flow, and the building will soon be ready for occupancy. A large proportion of the cellar and radiator recesses on the first floor have already been insulated, and the process is continuing on the upper floors. It is precisely SLENTITE®’s ease of handling and straightforward processing that make it the ideal insulation material for a residential project of this kind. It can be cut to size without generating dust, swiftly bonded in place, and plastered without difficulty. CORPUS will soon be reporting again on the outcome and the experience with the high-performance insulation material on site.