Brick protects against warming

With temperatures rising due to global warming, high thermal mass buildings, such as those of masonry, have the potential to be significantly cooler than their lightweight counterparts. This is just one of the principles enshrined in a recent study entitled “UK Housing and Climate Change: Heavyweight v. Lightweight Construction” undertaken by Chris Twinn of Arup for Bill Dunster Architects.

Although such concepts have been understood for centuries, this is one of many recommendations in a study that proposes design responses to climate warming. Set to become influential among housing decision makers, the report examines the benefits of heavyweight, high mass construction versus lightweight, low mass alternatives. It cites the potentially poor performance of thermally lightweight construction and how, all other things being equal, heavy thermal mass (greater than 1500 kg/m³⁾ is able to better absorb excess solar gains.

Twinn says: “A lot of lightweight prefabricated construction will cook as the climate hots up.

This will make the occupants uncomfortable and prompt them to install air-conditioning.” The report also stresses the importance of managing excess solar heat gains using strategies that include ventilation, shading, domestic appliances and having north-facing bedrooms.

Characteristics that will help homes better absorb future excess heat gains are the inclusion of large, exposed areas of heavyweight thermal mass. So a brick cavity wall where the internal leaf is fairfaced brickwork and the ceiling exposed concrete, could be one way of increasing thermal mass.

Underlining the benefits of heavyweight construction, architect Bill Dunster recently pleaded for a halt to the current “obsession with lightweight prefabrication”, warning that if housing is not built to the highest standards by 2050, it could need demolishing within 40 years.

See www.zedstandards.com