p ovoltaic concrete: the next big thing in architecture? o

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p ovoltaic concrete: the next big thing in architecture?

recent a ncements signal that energy-generating concrete could play a larger role in the future of architecture.

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the widespread adoption of p ovoltaics remains one of those looming questions in architecture. despite the growing prevalence of pv-systems all of over the world, many onlookers are eager to see much, much more and at a much faster rate. with the operation of buildings accounting for almost 40% of the world’s overall energy consumption, the platform for energy reduction is inconceivably large, and as a result, expediency is key.

aside from politics, issues that have historically slowed the sweeping integration of solar panels include their imposing aesthetic appearance and their steep costs. as a result, researchers are not only challenged with creating p ovoltaic iterations that are incredibly efficient, but also cheaper and aesthetically pleasing. this has resulted in a large move towards building integrated systems, which harness p ovoltaics as replacements for conventional building materials, such as roofs and façades, rather than as add-on elements. the ongoing mastery of these technologies will play a key role in the common adoption of p ovoltaics throughout architecture.

image via tesla

one recent high-profile example includes tesla’s solar roof tiles, which look astonishingly like everyday, non-p ovoltaic roof tiles. elon musk’s goal with this preeminent product, which went into production last year, was to create an attractive p ovoltaic roof replacement method that could accommodate a wide array of architectural styles. tesla achieved this by producing tiles out of tempered gl , with a color film and microscopic louvers that allow light to p through to the panasonic-made solar cells. according to tesla, the high-performance gl is just as tough as steel.  

tesla is not the only company channeling their capacity into these sorts of developments. several recent a ncements in p ovoltaic construction signal that energy-generating concrete could play a larger role in the future of architecture. two cases in particular, stand out in their recent contributions to the burgeoning field of p ovoltaic concrete.

p ovoltaic concrete

lafargeholcim and heliatek’s prefabricated cladding with integrated solar energy system; via agg-net

p ovoltaic concrete

heliatek’s heliafilm via innogy

lafargeholcim and heliatek

in november 2017, lafargeholcim and heliatek presented a prototype for a new p ovoltaic concrete façade system at french construction fair, batimat. with two different yet complementary sets of knowledge, lafargeholcim and heliatek joined forces to create an architectural concrete panel façade system with the potential to double the power harvesting capacity of traditional roof-based solar technologies.

larfargeholcim is a swiss building material manufacturer and the world’s largest cement-maker, while heliatek is a german solar energy manufacturing company. the new system combines lafargeholcim’s ductal concrete panels with heliatek’s lightweight and extremely thin solar film called heliafilm. with this new solution, prefabricated ductal panels can be delivered to site with an integrated solar energy-generation system.

according to lafargeholcim, “with a co2 life cycle impact close to five times less than traditional crystalline p ovoltaics, the heliafilm is the greenest p ovoltaics solution worldwide.” additionally, if a typical 10-story commercial building covered 60% of its façade, these panels could generate about 30% of its annual energy requirement. with this a nced system, the manufacturers hope that architects will be able to mitigate the energy costs of buildings while enjoying the benefits of a light, low maintenance and long-lasting cladding solution.

block research group at eth zurich

researchers of the block research group at eth zurich have developed an ultra-thin, self-supporting, p ovoltaic concrete structure with multiple layers of functionality. beyond just power generation, this incredibly sinuous structure offers thermal regulation, insulation and waterproofing properties.

layers of heating coils, cooling coils and insulation are sandwiched between two layers of concrete. echoing lafargeholcim and heliatek’s work, the final concrete layer is covered with a thin film of p ovoltaic cells that will generate energy for the designated building. at an average thickness of approximately two-inches, this work provides endless insights for the future of p ovoltaic concrete, and demonstrates that it is possible to build a thin concrete shell using flexible formwork and p ovoltaic elements.

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header image via architect magazine.