Displaying items by tag: CCUS

Bulgaria: Greek carbon storage company EnEarth has signed a term sheet with Heidelberg Materials to negotiate exclusive agreements for the transport and storage of CO₂ from the Devnya cement plant. The project aims to capture, transport and store 0.8Mt/yr of CO₂ from the plant. It is part of a wider CCUS initiative by parent company Heidelberg Materials, called ANRAV, which aims to be the first full-chain CCUS project in Eastern Europe. It has received a €190m EU grant, including €38m for the storage site, and is scheduled to be operational before 2030.

Southeast Asia: The ASEAN Federation of Cement Manufacturers (AFCM) has launched the 2035 AFCM Decarbonisation Roadmap, which it says is the world’s first regional decarbonisation strategy for the cement sector. The roadmap was announced during the 46th AFCM Council Meeting in Brunei Darussalam, chaired by Dr Chana Poomee and attended by cement association leaders from all eight AFCM member countries.

The roadmap sets a shared framework for systematic CO₂ reduction aligned with national climate policies and global environmental goals. Supported by the Global Cement and Concrete Association (GCCA), it is built upon four pillars: expansion of low carbon cement, transition to renewable energy across production processes and enhancing efficiency to reduce energy consumption, deployment of decarbonisation technologies such as carbon capture, utilisation and storage (CCUS), and development of new supplementary cementitious materials.

Member associations from Brunei Darussalam, Cambodia, Indonesia, Malaysia, the Philippines, Singapore, Thailand and Vietnam said that national implementation will vary depending on local energy mix, policies, industrial maturity and material availability. The strategy could reportedly cut regional CO₂ emissions by up to 38Mt by 2035.

Germany: The Bundesrat has given final approval to legislation enabling industrial-scale underground CO₂ storage, marking Germany’s biggest policy shift to date on industrial decarbonisation. The new law establishes a national framework for CO₂ storage beneath the seabed, excluding protected and near-shore zones. It also includes an opt-in clause allowing individual federal states to authorise onshore storage, a provision of particular interest to industrial regions seeking local solutions.

A national CO₂ pipeline network will also be developed to transport captured emissions from plants to designated storage sites. Federal Economics Ministry State Secretary Stefan Rouenhoff said the legislation is a ‘crucial building block’ for Germany’s decarbonisation plans, especially for hard-to-abate sectors such as cement production.

Europe: The EU Innovation Fund has selected four of Heidelberg Materials’ carbon capture, utilisation, and storage (CCUS) projects for grant agreement preparation under its Net-Zero Technologies Call. Selected projects were assessed in terms of their potential to reduce greenhouse gas emissions, their degree of innovation, project maturity, replicability and cost efficiency. The selected projects are Anthemis in Belgium, AirvaultGOCO₂ in France, DREAM in Italy, and HuCCSar in Poland.

The Anthemis project in Belgium will equip the Antoing clinker plant with an oxyfuel carbon capture unit capable of capturing over 95% of the plant’s emissions, or more than 800,000t/yr of CO₂. The company also plans to transport and permanently store the captured CO₂. The AirvaultGOCO₂ project in France will capture nearly 1Mt/yr of CO₂ at the Airvault cement plant and transport it to permanent storage under the North Sea. The DREAM project in Italy will capture around 1Mt/yr of CO₂ from the Rezzato-Mazzano cement plant for storage in the Ravenna CCS hub beneath the Adriatic Sea. The HuCCSar project in Poland will develop the country’s first onshore CCS value chain and validate local CO₂ storage potential.

Chair of the managing board Dr Dominik von Achten said “This is a great day for the company and for the decarbonisation of the cement industry in Europe. The support from the Innovation Fund is a strong vote of confidence for our approach and our projects. Today’s milestone confirms that we are on the right track with the next chapters of our journey – building on the successful launch of our Brevik CCS project in Norway and the recent Final Investment Decision for Padeswood CCS in the UK.”

Member of the managing board Jon Morrish said “The selected projects in four of our European core markets are important drivers of innovation. We call on the four member states – France, Belgium, Italy and Poland – to work closely with us to enable the right framework conditions in order for us to reach Final Investment Decision for these projects. This will allow our customers to access carbon captured near-zero products under our evoZero brand at much larger scale.”

There have been a few sustainability-related news stories to note recently in Japan. Firstly, the Renewable Energy Institute (REI) released a report on decarbonisation pathways for the cement industry. Then, this week, the Japan Cement Association (JCA) held a press briefing on the sector’s work towards net zero and it released production and sales data. Finally, on a connected note, a speaker from Sumitomo Osaka Cement gave a presentation on recycling gypsum wallboard for cement production at last week’s Global Gypsum Conference.

The REI’s report is similar to other roadmaps published by cement associations around the world. The differences with the Global Cement and Concrete Association (GCCA) targets are worth pointing out though. The JCA is more conservative on the use of blended cements. It only specifies an aggregate CO₂ reduction target for 2030, limited to a greater use of alternative fuels (AF) and improved energy efficiency. Similarly, it forecasts clinker factors of 0.825 in 2030 and 0.80 in 2050, compared to the GCCA targets of 0.58 in 2030 and 0.52 in 2050. The report goes on to show that JCA members have higher Scope 1 and 2 emissions and a higher clinker factor than comparable multinationals, including Holcim, Heidelberg Materials and SCG. In summary the REI concludes that the local sector has been delayed in adopting blended cements, slow on using more renewable energy and continues to be reliant on coal.

The JCA’s update is more practical and outlines what can be expected. A benchmarking system for the sector was established in the 2025 financial year. The country’s emissions trading scheme will then start in the 2026 financial year. Companies that emit a three-year average of over 100,000t/yr of CO₂ will be subject to the scheme. The JCA is currently emphasising the sector’s role at the heart of the circular economy. It pointed out that it used just under 22Mt (5%) of the country’s total waste in 2024. It had an AF substitution rate of 27% in that year also. Other waste streams used included over 5Mt of blast furnace slag, over 6Mt of coal ash and around 1.7Mt of flue-gas desulphurisation (FGD) gypsum.

That last one ties into a presentation that Yuki Mihashi, Sumitomo Osaka Cement, gave at the recent Global Gypsum Conference, held last week in the Netherlands. He gave an overview of his company’s pilot testing of a carbon capture and utilisation process that uses waste gypsum wallboard and mineralises it to make an artificial limestone from cement plant CO₂ emissions. The current pilot plant is based in Osaka and was completed in June 2025. It consumes 10kg/hr of gypsum and can produce around 5.8kg/hr of calcium carbonate. Gypsum wallboard professionals at the event had previously expressed concerns about competition for raw materials from cement producers. If developments like this one progress to full scale deployment there could potential be repercussions in other industrial sectors.

Graph 1: Cement production in Japan, 2019 - 2025. Source: Japan Cement Association. Figure for 2025 is estimated based on nine-month data.

Finally, the latest data from the JCA shows that cement production fell by 3% year-on-year to 32.99Mt in the first nine months of 2025 from 34Mt in the same period in 2024 . Overall sales followed a similar trend, although exports rose by 9% from 5.91Mt to 6.43Mt. This follows a general decline in cement production in Japan since the mid-1990s.

In summary, work on sustainability in the cement sector continues in Japan as it does elsewhere. The conservative approach to clinker factor forecasts is interesting to note compared to more optimistic projections elsewhere. A slower update of blended cements may explain some of this. Interestingly, Taiheiyo Cement said in June 2025 that it was expanding a hub in Saiki to export blended cements rather than using them domestically. On other issues, a current lower AF substitution rate compared to Europe offers one pathway for emissions reduction. The impending ETS may also galvanise action and investment. Expect plenty more sustainability news in the coming weeks ahead of the 30th Conference of the Parties (COP), which is set to take place in mid-November 2025 in Belém, Brazil.

The 1st CemFuels Asia Conference & Exhibition will take place on 2 – 3 February 2026 in Bangkok

Norway/Germany: Heidelberg Materials has officially launched its evoZero product, which the company claims to be the world's first ‘carbon-captured cement,’ to customers across Europe. evoZero is a globally unique product, made possible by carbon capture technology at Heidelberg Materials' CCS plant in Brevik, Norway. The product comes with a uniquely low Global Warming Potential, delivered via a process that is now fully third-party verified by DNV Business Assurance Germany and digitally traceable to ensure seamless transparency.

One of the very first deliveries of evoZero was to the construction of the new Skøyen Station in Oslo, Norway. Another early project for evoZero is the DREIHAUS 3D-printing project, with a total of three houses currently being developed in Heidelberg, Germany. Compared to traditional construction methods, the 3D printing process enables significantly reduced material consumption through optimised design, further reducing CO₂ emissions.
Dominik von Achten, CEO of Heidelberg Materials, said "I am proud and excited to announce that the entire process chain is now established and our Brevik CCS facility is directly contributing to the reduction of carbon emissions in the built environment. evoZero stands as proof of Heidelberg Materials' commitment to real, measurable decarbonisation and our ambition to lead the transformation of construction.”

Belgium: Etex and Heidelberg Materials have joined forces on CEMLOOP XL, an industrial-scale project co-funded by the EU’s LIFE Programme that aims to revolutionise fibre cement recycling through a fully closed-loop process integrating carbon capture utilisation and storage (CCUS) technology. According to a press release by Etex, this will reduce CO₂ emissions in cement production by at least 20% and cut energy consumption in the process by 15%.

The project will combine the two companies' expertise to create a fully circular process where waste fibre cement is transformed into high-quality secondary raw material to produce low-carbon cement that will be reused in new fibre cement products. Etex, in collaboration with the Jacobs Group, is developing a recycled fibre cement paste (RFCP) process that converts waste from Etex’s production lines and the wider construction sector into reusable material and avoids landfilling. A new recycling facility in Hemiksem, near Antwerp, is under construction and scheduled for completion by mid-2026.

At Heidelberg Materials’ Lixhe cement plant in Liège, the company is implementing CCLIX, a carbonation process that treats RFCP with CO₂ captured from kiln exhaust gases. This produces carbonated RFCP (cRFCP), which regains cementitious properties and can partially replace clinker in low-carbon cement production. A dedicated carbonation reactor is set to be commissioned at Lixhe by the end of 2028.

Etex says that CEMLOOP XL will prevent 60,000t/yr of fibre cement waste, save 100,000t/yr  of raw limestone, and capture or avoid around 900kg of CO₂ for each tonne of RFCP produced. This process combines utilisation and storage in one step - the captured CO₂ becomes chemically bound within the new product, acting as a permanent CO₂ sink.

Eric Bertrand, chief innovation officer at Etex, said “By 2030, we aim for over 20% of our inputs to come from circular sources and to send zero waste to landfill. Fibre cement plays a central role in this transformation. For the first time, it will follow a fully circular journey - a milestone only made possible through strong partnerships like this with Heidelberg Materials.”

Thailand: The Thai Cement Manufacturers Association (TCMA) has signed a memorandum of understanding (MOU) with the government of Saskatchewan in Canada, represented by the Ministry of Trade and Export Development, to strengthen cooperation in sustainable industrial development and decarbonisation. The agreement focuses on energy transition and advanced carbon capture, utilisation and storage (CCUS) technologies, with potential pilot projects to be explored under the Saraburi Sandbox project. A joint working group will be established to drive implementation and progress will be reviewed annually.

Nopadol Ramyarupa, vice chair and acting chair of TCMA, said “This collaboration aims to accelerate the Thai cement industry’s progress toward achieving the Net Zero 2050 goal by facilitating collaboration on technological advancements on green energy transition and CCUS technologies. Furthermore, if a pilot project can be established in Saraburi Sandbox, it would be beneficial in supporting Thailand’s green economy. It could serve as a role model on industry decarbonisation and inspire the regional and beyond.”

Warren Kaeding, Minister of Trade and Export Development, Saskatchewan, said “This partnership demonstrates how Saskatchewan’s expertise in clean energy and innovation is creating global opportunities. The collaboration with TCMA provides not only an opportunity to share knowledge and experience with Thailand and ASEAN but also reinforces Canada–Thailand relations in advancing greenhouse gas reduction, a critical global agenda, alongside expanding trade and investment opportunities between our countries.”

Norway: TotalEnergies, Equinor and Shell have announced that the first CO₂ volumes were transported by ship from Heidelberg Materials’ Brevik cement plant to Northern Lights’ Øygarden facilities. They were then injected 2600m under the seabed, 100km off the coast of western Norway. Phase one of the project has a storage capacity of 1.5Mt/yr. A second phase, approved in March 2025, will expand capacity to more than 5Mt/yr from 2028.

TotalEnergies’ senior vice president of carbon neutrality Arnaud Le Foll said “With the start of operations of Northern Lights, we are entering a new phase for the CCS industry in Europe. This industry now moves to reality, offering hard-to-abate sectors a credible and tangible way to reduce CO₂ emissions.”

India: Tamil Nadu will host one of five national carbon capture and utilisation (CCU) testbeds aimed at lowering CO₂ emissions in the cement sector in a step towards the country’s 2070 net-zero target, according to The New Indian Express newspaper. The testbed will be located at UltraTech Cement’s Reddipalayam plant in Ariyalur district, supported by the Indian Institute of Technology Madras and Birla Institute of Technology and Science Pilani. The project is part of a Department of Science and Technology (DST) programme, which will trial an oxygen-enriched kiln system capturing up to 2t/day of CO₂ for mineralisation into concrete products. Other CCU testbeds are being established in Rajasthan, Odisha and Andhra Pradesh, with JK Cement and Dalmia Cement involved.

Union Minister for Science and Technology and Earth Sciences Jitendra Singh said the DST was currently processing financial sanctions for the projects, and full-scale implementation is expected in 2025.