Gold Ridge Resource Conservation District

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How can we reduce concrete’s hefty carbon footprint?

Construction site in China

A roomful of materials scientists, gathered at UCLA for a recent conference on “grand challenges in construction materials,” slowly passed a brick-size white block around the room. They held in their hands, briefly, part of the solution to one of those grand challenges. The white block, rock solid and surprisingly lightweight, was a new alternative to cement, the glue that holds together aggregate, or crushed rock, to make the world’s most ubiquitous building material: concrete.

Production of cement — and by extension, concrete — has a large environmental footprint, mostly due to the huge amount of energy it takes to heat limestone, cement’s key ingredient, and the subsequent chemical process it undergoes. The process of creating cement emits upwards of 80 percent of the cement’s weight in carbon dioxide and accounts for about 5 percent of human-generated CO2 emissions annually. Though the white block’s production still requires some of the CO2-emitting fuel use of typical cement making, CO2 is also one of the ingredients used to create it. About one-third CO2 by mass, the cementlike substance reduces its carbon footprint by sequestering CO2 inside the finished product.

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Source:  Nate Berg, Ensia, April 13, 2016

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