The covered Zaragoza World Expo 2008 pavilion bridge, that spans the River Ebro, features a façade made up of GRC tiles mounted on a diagrid structure. Copyright FG SG Fotografia de Arquitectura.

+ We already have the technology and data to fine-tune building envelopes to respond better in dynamic environments resulting in higher comfort levels and reduced energy use.

A greener future’s not all about electric cars; it’s about smart building engineering too.

Façades are the screen wall of cities: put simply, things hang from them. But what kind of smart technologies will we hang from façades in our new, smarter cities? I believe it won’t be smart phones or social media. Despite the hype, I don’t think it will be LED screens either. Here are my predictions for the façades of the future.

First there’s the glazed part

Imagine a window glass that can modify the wavelength of solar radiation, transforming ultraviolet into visible rays. The result would be more natural light all year round. A glass with a higher light transmission and dynamic solar control: now that’s something to invest in. Glass, either double or triple glazed, is always worse than an opaque wall in terms of thermal insulation – ten times worse as a rule of thumb. So imagine a new glass pane with a U-value of 0.4W/m2ºK – a rate of heat loss just twice as much as an efficient opaque wall. Two competing technologies are almost there: closed cavity over-pressurized glass (quadruple glazed and thick for curtain walling) and vacuum insulated glass (double glazed and thin for residential windows).

Then there’s the opaque part

The first goal here is to improve thermal mass while reducing weight and depth. This will need cheap (not there yet) phase change particles embedded in thin plasterboard. Or with exposed, very efficient concrete located at ceiling level. The target? Lightweight, prefabricated, opaque façades that are easy to install and to reuse and that behave thermally as heavy massive walls. We only have to cross the cost threshold, and we can do that using existing materials and aggregates.

And finally, there’s the dynamic or responsive concept

This is the new strong idea. Why should we only live in highly passive but fenced cells all year round? Envelopes should be capable of storing, filtering and redirecting thermal, light and air flows – not just acting as barriers to them – according to the conditions inside and outside the building.

Imagine a façade with a variable U-value, so that energy flows out when inner heat is excessive. One way this can be done is with blown fibre insulation, modified with spray-applied microencapsulated phase change materials. The trick here is finding dynamic responses that are simple to implement and to maintain.

We already have the technology and we can harvest the data to fine-tune our envelopes for a better response in a dynamic environment. Simulation and measuring should go hand-in-hand to avoid mistakes, but the result will be a higher level of comfort and reduced energy use.

This isn’t just a list of gadgets. Some of my predictions might be wrong in the detail but hopefully not in their approach — responsive building envelopes. This will see smart, simple to manage façades improving our buildings and helping create leaner neighbourhoods and smarter cities. It has to, because it’s something we owe to the next generation.