Making cement sustainable

Making cement sustainable
Cement is a vital building material but it also makes a significant contribution to global carbon dioxide emissions. Sabbie Miller is researching ways to make cement and concrete more sustainable. Credit: Reeta Asmai, UC Davis

Cement production accounts for up to nine percent of global anthropogenic carbon dioxide emissions, according to the World Business Council for Sustainable Development. Sabbie Miller, assistant professor in the Department of Civil and Environmental Engineering, aims to change that by finding alternative ways to make cement or replace it altogether. 

People have been using as a building material for thousands of years. Mixed with water and rock fragments, it forms for buildings, highways and bridges. 

Making cement involves heating limestone and clay to 1450°C (2640°F), which both consumes energy and releases carbon dioxide. The process also requires large amounts of fresh water. Yet the reason cement plays such a major role in carbon dioxide emissions comes down to the sheer amount of concrete being poured worldwide. 

"It's a reflection of society changing and the building of more infrastructure," Miller said. 

Miller, who serves on the sustainability committee of the American Concrete Institute, focuses her research on three areas: Alternative to conventional cement, ways to replace or reduce the amount of cement in concrete, and engineering approaches that target desired mitigation strategies for reducing environmental impacts of cement and concrete. 

"I've found that structural design and material engineering rarely meet paths – if the structural engineer says I need a 25 MegaPascal (standard) concrete, no one ever says can I redesign the structure so I can get away with less, but higher-strength concrete," she said. 

One recent study by Miller and colleagues published in Nature Materials describes how the field of sustainable research is evolving; small changes with readily implementable methods could dramatically cut worldwide from concrete production by about 20 percent, she argues. Miller has also explored less commonly considered environmental impacts in the production of concrete, such as , and has shown that the production of this one material is resulting in about 20 percent of global industrial water consumption.

There is a wide range of alternative materials that could be used to make cement with less energy, or to replace cement in concrete. Miller wants to know how these alternatives affect the structural and thermal properties of concrete and cement. How do they compare to conventional materials? How long will they last and what happens when they break down? What raw materials are needed to produce them and what impact does that production have on the environment? 

For some applications, it might be possible to use less of an alternative material and still reduce environmental impacts by improving the overall strength and durability of a structure.

"Longevity could reduce demand for materials associated with replacement and maintenance," Miller said.

With no slacking in global demand for concrete, there is plenty of scope for lessening the impact on , energy use, water demand, and .

"It's the very edge of an ocean of research," Miller said. 


Explore further

Researchers use coal waste to create sustainable concrete

More information: Paulo J. M. Monteiro et al. Towards sustainable concrete, Nature Materials (2017). DOI: 10.1038/nmat4930

Sabbie A Miller et al. Readily implementable techniques can cut annual CO2emissions from the production of concrete by over 20%, Environmental Research Letters (2016). DOI: 10.1088/1748-9326/11/7/074029

Sabbie A. Miller et al. Impacts of booming concrete production on water resources worldwide, Nature Sustainability (2018). DOI: 10.1038/s41893-017-0009-5

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Citation: Making cement sustainable (2018, October 17) retrieved 21 July 2019 from https://techxplore.com/news/2018-10-cement-sustainable.html
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