Renovating a piece at a time
Coming home from work one day, you’re taken aback to find your apartment building encased in scaffolding. And then it hits you that the agency that manages the property did announce that your building is going to be renovated with the promise that a new façade and new windows will mean paying less for utilities. You can now look forward to months of noise pollution and to artificial darkness caused by the scaffolding wrap and there are bound to be interruptions and delays that draw the whole thing out. Strangers will be traipsing through your apartment in dirty boots and you’ll have to figure out how to tell your boss that you’ll need to occasionally take off work to let workmen into your private space and hang around until they’re done. If you rent in an apartment building or complex, this may indeed have happened to you. But the truth is that such renovations are by and large both sensible and justified. Older buildings account for over 80 percent of heating requirements in the majority of European industrialized countries, but the current renovation rate aimed at raising energy efficiency is less than one percent per year. One reason may be that property owners tend to have a hard time deciding whether or not to renovate. They want to be sure that, in addition to improving energy efficiency, any renovations they commission can also be carried out as economically as possible, within a reasonable timeframe and ideally with some form of public subsidy to offset some of the cost. Since it’s common for a number of different contractors to be involved, planning and executing these kind of renovations ends up being rather complicated. And any substandard construction work is likely to anger residents who, in the worst-case scenario, may even seek rebates on rent to compensate for the great inconvenience they have suffered.
Recent renovation projects to make use of prefabricated elements have tended to use stackable (single-story), horizontal, wood-frame designs featuring built-in windows and doors. The basic design of these wall sections most closely resembles the traditional principles of making prefabricated houses and even uses similar transport logistics and assembly techniques. Integrating segments featuring technical building systems – in particular those related to supply lines and channels – into these horizontally, stackable, single-story elements proved problematic and the scientists determined that vertical systems designed to cover many or all stories were more suitable for fully integrating these building services segments. Since the channels or lines can then be brought together either in the segment base or under the building’s roof, it is no longer necessary to connect the channels or lines across the vertical segments. However, the sheer size of the segments makes transporting them to the renovation site just as tricky as mounting them onto the existing façade. “Each of these large segments would have to be transported on its side by truck and then rotated 90 degrees to stand on end ready for mounting. Attaching such segments means that the building can’t have scaffolding around it because the height of them would make feeding one between the building and its wrapper virtually impossible,” says Stiegel. “This made it clear that we would have to switch to a smaller format.” And it soon became obvious what the benefits of going smaller were going to be. The new “small segment approach” not only simplified the planning process, but also meant not having to abandon the usual logistics. What is more, routing the lines from one small segment, or module, to another was no problem and there were no longer any limitations in terms of what shape modules had to be to execute a particular façade design.
Windows have always been the most technologically demanding components that go into a building’s envelope. This is true both in terms of what it takes to manufacture windows and to install them in whatever openings a particular building provides. “Sadly this is also where you encounter the bulk of faulty planning and workmanship. The more difficult the assembly work, the more likely it is that a mistake will be made, which is why moving operations to the workshop greatly increases the quality of the finished product,” explains Stiegel. This is also where – in line with the minimally invasive approach to renovation – the building’s technical components and supply systems are integrated into the façade modules. Supply systems have to be fed through the exterior wall so they can be connected to the likes of heaters or electrically operated shutters. The Fraunhofer IBP scientists developed a technical systems box that is integrated into the window module directly underneath a removable windowsill. Locating the box here provides an easily accessible space in which to install technical components. In addition to ventilators, heat exchangers and filters, each box accommodates all the building service components required to supply each room. Any attempt to install all these features on the interior walls would prove so unpopular that it would simply be impracticable. What the scientists have done is to produce an insulating collar construction around the window facing – a construction that lines the entire existing window jamb, enables the window to be installed at exactly the desired wall depth and removes the need for any significant on-site reworking.
Supplying a building with fresh air can be done using either a centralized or decentralized ventilation system. Equipping an apartment building with a centralized ventilation system capable of heat recovery relies on each apartment having its own ventilation channels in order to ensure the required air flow to and from each room. Adapting the fabric of existing buildings in order to retrofit them with these channels is extremely complicated, expensive and – simply for reasons of space – often impossible. A promising alternative is to integrate ventilation channels into the new façade design and Fraunhofer IBP has developed the FAW-System ®, which combines insulation and ventilation channels in a single module. Air flows through recesses that have been machine brought into composite thermal insulation panels during the production process. Special expanded polystyrene panels are added wherever pipes or conduits have to be routed through insulation cladding. Since these panels can be installed alongside conventional composite thermal insulation panels, incorporating them only slightly raises the overall cost of renovation. The crucial point is to make sure that all the pieces are in the right place to ensure air-tight seals, as well as connection to centralized distributors and to rooms with special ventilation needs.
IBP Research News 530 (only German)