黑洞社区

The inflatable roof at Heathrow

The latest attraction at Heathrow airport isn鈥檛 another mega-terminal but a giant inflatable armadillo. It could prove to be a welcome diversion for nervous or fractious children coming in to land because its ribbed surface looks just like an inviting bouncy castle. But the kids will be disappointed once they discover that it is in fact the roof of the National Express coach station.

Construction professionals, on the other hand, are likely to be delighted. This is the world鈥檚 first permanent inflatable roof and its advantages mean we could see many similar eye-catching structures. The team took a risk with this untested technology because they believed it to be the ideal solution for a difficult site. Coach operator National Express wanted to create a 1100 m2 column free, covered departures lounge from an existing, open space. Just to make the job more tricky, there was nowhere to put the foundations for a conventional structure because one of the airport鈥檚 Tube stations is underneath the site.

A visualisation of the completed interior

The team鈥檚 solution also had to be easy and quick to construct. 鈥淭wo million passengers use the coach station a year, which was a major constraint. We had to maintain passenger movements with minimal disruption and no accidents,鈥� explains Jim Bowyer, senior at airport operator BAA.

鈥淭raffic management was also critical as everything comes into the airport through the nearby tunnel. If this was obstructed in any way, before you knew it the tunnel would be blocked and it would back up the spur road and affect the M25. It can block the M25 in four minutes.鈥� On top of these constraints, the team had to prove that this unprecedented structure would be safe.

Given these difficulties, why did the team opt for an inflatable roof? Well, it is incredibly light 鈥� just 120 g/m2 鈥� yet capable of supporting up to two tonnes/m2. This meant it could easily span the 45 m of the concourse with a minimal support structure sitting on shallow foundations. Best of all, the roof could be prefabricated then installed overnight.

Crucially, the solution also had the architectural appeal designer D5 Architects was looking for. 鈥淣ational Express wanted an iconic structure that was very memorable,鈥� explains Andy Hilton, an architect at D5. 鈥淲e also wanted something that reflected the transient nature of the site. This will always be changing. It is very responsive to any wind movement and because it is translucent, it instantly reflects changes to the quality of the light.鈥�

The building as seen by aerial passengers.

But there was a long way to go to realise this vision. 鈥淚t was a bit of a pipe dream to start with. We knew what we wanted to do but we had to embark on quite a long investigation to get it to work,鈥� says Hilton. In researching the idea, D5 Architects enlisted the help of balloon maker Lindstrand. The firm specialises in fabrics that are subject to tensile stress under pressure, such as round-the-world balloons and the parachutes needed to slow space probes landing on Mars. It has also built temporary inflatable structures. But most importantly for the team, Lindstrand had test facilities that could be used to prove the roof could meet 黑洞社区 Regulations. 鈥淲e have extreme test labs and can simulate the environments of different planets,鈥� says John Pattison, Lindstrand鈥檚 project manager. 鈥淏ut it鈥檚 been a tremendous challenge all the way as there were no standards to guide us.鈥�

Lindstrand decided to stick to what it knew and used process standards and design standards approved for aircraft. This made the job even tougher, as aeroplanes are built to a more stringent 鈥渇actor of safety鈥� 鈥� that is, the ratio of the breaking stress of a structure compared to the maximum stress it is designed to resist in normal use. For a plane, this is four, whereas buildings usually make do with 1.5. The roof had to satisfy three key regulations governing wind, snow loading and fire. It proved difficult to model these conditions on computer because of the way fabric behaves under loading, so the only way to be sure the roof would perform was to build prototypes. 鈥淲e designed and built five prototypes using different methods to find out which would give us the factor of safety we required,鈥� says Pattison. 鈥淓ach was tested to destruction, which wasn鈥檛 cheap, but we鈥檝e achieved what we wanted.鈥�

For starters, the roof has to be able to resist normal loads, including those imposed by wind or snow. These exert downwards, sideways and upwards pressures. Conventional roofs are inherently heavy, so uplift isn鈥檛 too much of a problem. This was not the case with this roof, as Ben Karunasekera, an associate at multidisciplinary consultant WSP Cantor Seinuk, explains. 鈥淭he primary problem wasn鈥檛 the downloads but the uplift.鈥� The fact that the roof was shaped like a wing did not help, either. The solution was to tie it down to its supporting steel structure (see 鈥淗ow the roof works factfile). The roof functions structurally as an arch made up of a series of tubes. The air pressure in these tubes is crucial for its structural integrity: if the roof loses pressure, down it comes. So what happens if it gets a puncture? The answer was to divide the roof into distinct zones or 鈥渃ells鈥� consisting of several tubes joined together. Lindstrand designed the roof so a punctured cell could be held up by the two on either side. The number of tubes making up a cell varies according to the span 鈥� the long span cells have fewer tubes, so it is easier for the adjacent cells to hold them up.

A series of round tubes makes up the striking inflatable roof

The high factor of safety means the danger of a roof collapse is extremely remote. If a section gets a puncture, sensors will increase the pressure in the adjacent tubes to compensate. A series of fans keep the tubes inflated to a normal working pressure of 0.5 pounds per square inch. Increasing the pressure increases the load the roof can take. The tubes can go up to 1 psi, which is more than enough to compensate, but the tubes have been tested up to 5 psi. Furthermore, there are backup fans that can blast air into the tubes to keep these pressurised in the event of a large puncture.

Fire resistance was the final challenge, because the roof is made from a PVC-coated fabric and regulations demanded it stay up for 30 minutes in the event of a fire. The zoned nature of the roof means a local fire can create a hole in the roof without a collapse and according to Pattison, the roofing material won鈥檛 support a naked flame 鈥� meaning fire couldn鈥檛 spread through the roof.

The team鈥檚 hard work has paid off: their design satisfied the planners and building control, the roof has been erected and work is continuing underneath on facilities in the concourse. For now, passengers flying into Heathrow are enjoying a unique view but Lindstrand hopes this will change. Having won the necessary approvals, it wants to create a new market for inflatable roofs so it won鈥檛 be long before they are popping up everywhere.