Rethinking Cement (2017)

Rethinking Cement report cover

Rethinking Cement is a research report presenting a pathway to zero carbon cement in Australia.

Cement production is the biggest industrial producer of emissions, causing 8% of global carbon emissions – more than the global car fleet.

The first stage of cement making is to transform limestone (calcium carbonate – CaCO3) into lime (CaO), thus releasing carbon dioxide (CO2) as a waste product. Over half of cement-related emissions are due to this chemical process. We can’t continue to use limestone in this way, any more than we can keep burning coal.

Rethinking Cement shows how Australia can lead the world with zero carbon cement. We have the technology to wipe out emissions from cement in ten years, and with smart thinking, we can even turn cement into a carbon sink of the future.

Rethinking Cement is the first part of Beyond Zero Emissions’ Zero Carbon Industry Plan.

A zero carbon cement industry

This report describes a pathway for tackling cement emissions involving the following five strategies:

  • Strategy 1: Supplying 50% of cement demand with geopolymer cement. The reactions involved in making geopolymer cements do not generate greenhouse gases, and therefore zero emission geopolymer cements are possible.
  • Strategy 2: Supplying 50% of cement demand with high-blend cements. Regular cement can be blended with other materials, reducing its carbon intensity. This strategy proposes increasing the proportion of replacement material to 70%, using fly ash, slag, clay and ground limestone.
  • Strategy 3: Mineral carbonation. This strategy employs a new technology, mineral carbonation, to capture the emissions from the remaining production of Portland cement. With mineral carbonation, waste carbon dioxide is captured and chemically sealed within rock.
  • Strategy 4: Using less cement. By designing structures to use concrete more efficiently, utilising high strength cement, and replacing concrete with timber, overall cement consumption could be reduced by around 15% in 10 years.
  • Strategy 5: Carbon negative cements. There is the long-term potential to develop magnesium-based cements which absorb carbon dioxide, and would therefore have a negative emissions profile.

Making It Happen

Governments and industry can support a rapid shift to a zero carbon cement industry. One powerful stimulus to all the technologies presented in this report would be a national policy putting a price on cement carbon emissions, including imported cement. The Australian Government could back up such a policy with a national target to reduce the carbon intensity of cement, which becomes progressively more stringent.

This target could be supported by public investment into research and deployment of low-carbon cements, similar to the support for renewable energy provided by the Clean Energy Finance Corporation and the Australian Renewable Energy Agency.

Governments should also introduce new regulations or incentives to encourage the use in cement production of stockpiled fly ash and other waste materials such as waste glass, red mud and bagasse ash.

More about the Zero Carbon Industry Project:

  • Report launch,
  • Podcasts and videos,
  • Progress updates.

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Our research is showing that Australia can rapidly move to a zero carbon emissions economy.  We can become a renewable energy superpower, grasping a secure and prosperous future. View a brief overview of our plans for this transition.

Beyond Zero Emissions is having impact, for example: (1) Our 2012 report, Repowering Port Augusta, and our advocacy eventually led to the 2017 $680 million contract for a solar thermal plant in South Australia, and (2) BZE has been ranked as one of the best independent think tanks in the world, by the Lauder Institute in Pennsylvania USA.

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By |2018-06-21T22:40:32+00:0018 Aug 2017|Cement Plan, Featured, Publication Overview|Comments Off on Rethinking Cement (2017)