Displaying items by tag: research and development

US: The US Department of Energy has awarded C-Crete Technologies US$2m in funding. C-Crete Technologies is developing a method for using CO₂ captured at industrial sources or from the air as an ingredient in its cement-free concrete. The binder will produce almost no CO₂ and continue to absorb more CO₂ from the air over time. It offers scalability and cost-parity with conventional cement for concrete producers, according to the developer.

C-Crete Technologies president Rouzbeh Savary said “We are committed to crafting a cement-free, carbon-negative ready-mix concrete that doesn’t just mitigate CO₂ emissions but actively contributes to reversing climate change. Our aim is nothing short of revolutionising this hard-to-abate, carbon-heavy sector.”

US: The Department of Energy has awarded cement-free concrete developer C-Crete Technologies US$950,000-worth of research funding. The company will put the funds towards developing its concrete using new feedstocks.

Resources News has reported that C-Crete Technologies’ president Rouzbeh Savary said "By enlarging our technology toolbox to utilise geographically versatile and abundant feedstocks, we can ensure that local materials can be converted to cementitious binders, eliminating the need for shipping such materials over long distances.”

Japan: A team at the University of Tokyo has developed cement-free alternative concrete from ultra-fine sand and fly ash. NHK has reported that the process uses recyclable alcohols and has lower CO₂ emissions compared to concrete production using ordinary Portland cement. Research with industrial partners into possible construction sector applications is underway. Partnerships with Japanese ready-mixed concrete producers are reportedly also under discussion.

Further information is available from Yuzo Tobisaka, an independent Japanese consultant in the cement and ready-mixed concrete industry, at yuzo.tobisaka@gmail.com.

World: The Global Cement and Concrete Association (GCCA) has named the 15 anticipated deliverers of low-CO₂ cement and concrete production shortlisted for participation in its second Innovandi Open Challenge. The association chose the start-ups based on their potential to deliver CO₂ emissions reduction in the global cement and concrete sector in line with its Concrete Future 2050 Net Zero Roadmap. The applicants are presenting their pitches to GCCA members on 30 June 2023. All those accepted will gain access to members' plants, labs, networks and expertise. The following start-ups made the Innovandi Open Challenge 2023 shortlist:

GCCA cement director and innovation lead Claude Loréa said “We received more than 70 quality applications, so drawing up a shortlist was challenging." Loréa continued "Our essential industry needs something easily scalable and affordable. Those start-ups on the list demonstrated the most potential, and we look forward to hearing more about their ideas. But we’ll also be keeping in touch with other start-ups who didn’t make this year’s shortlist, with future projects in mind.”

Finland: Betolar has signed a cooperation agreement with concrete producer Consolis Parma to develop reduced-CO₂ hollow concrete slabs. The development process will implement Betolar's Geoprime binder into Consolis Parma's concrete production. Consolis Parma is committed to halving its CO₂ emissions between 2021 and 2035.

Consolis Parma's Technology Director Juha Rämö said “The use of alternative new binder combinations and additives that ensure the efficiency of the manufacturing process are key factors in achieving our climate goals. We are actively seeking new channels to address these challenges. The cooperation with Betolar is an important new partnership for us."

India: Adani Cement subsidiaries ACC and Ambuja Cements have launched the Cement and Concrete Research and Development Facility at Kalamboli in Maharashtra. Dion News Service has reported that the focus of the centre will lie in product development, productivity enhancement and increasing the efficiency of cement and concrete production.

Adani Cement CEO Ajay Kapur said "Our new research and development facility is our reinforcement towards our collective commitment to pushing boundaries, driving innovation, and addressing industry challenges."

New Zealand: Fletcher Building's Concrete Division, comprising Firth, Golden Bay, and Winstone Aggregates, has stepped up its commitment to developing innovative and increasingly sustainable concrete solutions with the opening of New Zealand's first commercial Concrete Innovation Lab, in Christchurch, South Island.

The Concrete Innovation Lab has been established to fast track the development of new concrete products and solutions with a particular focus on innovating to decarbonise concrete. The aim being to support customers as their building needs and specifications change in response to the need to build for climate change.

Dene Cook, Divisional Technical Manager, said "As an industry we have committed to decarbonising concrete, with the Global Cement & Concrete Association (GCCA), detailing a roadmap to net zero by 2050. Fletcher Building is excited by this challenge and the work we will do in the Concrete Innovation Lab will turn this from a paper commitment to a reality."

US: Researchers at Washington State University (WSU) have developed a method for making low-carbon concrete using cement and biochar, a type of charcoal made from organic waste that is nearly as strong as standard concrete. The team, led by doctoral student Zhipeng Li, strengthened the biochar with concrete wastewater. The biochar was able to suck up to 23% of its weight in carbon dioxide from the air.

Previous attempts to add biochar as a substitute in cement have significantly reduced the strength of the resulting concrete. However, the WSU project found that by treating the biochar with concrete washout wastewater it was able to add up to 30% biochar to cement mixtures. The paste made of the biochar-amended cement was able to reach a compressive strength after 28 days comparable to that of ordinary cement. The researchers used calcium in the concrete washout water to induce the formation of calcite, which benefits the biochar and, eventually, the concrete that incorporates it.

Xianming Shi, professor in the WSU Department of Civil and Environmental Engineering, said, “We’re very excited that this will contribute to the mission of zero-carbon built environment.” He added, “Most other researchers were only able to add up to 3% biochar to replace cement, but we’re demonstrating the use of much higher dosages because we’ve figured out how to engineer the surface of the biochar.”

The synergy between the highly alkaline wastewater that contains a lot of calcium and the highly porous biochar meant that calcium carbonate precipitated onto or into the biochar, strengthening it and allowing for the capture of carbon dioxide from the air. A concrete made of the material would be expected to continue sequestering CO2 for the lifetime of the concrete, typically 30 years in pavement or 75 years in a bridge.

The researchers have been working with the WSU Office of Commercialization to protect the intellectual property and have filed a provisional patent application on their carbon-negative concrete work. They recently received a seed grant from the Washington Research Foundation to produce more data for a variety of use cases. They are also actively seeking industry partners from the building and construction sector to scale up production for field demonstrations and licensing this WSU technology.

US: A team from the Massachusetts Institute of Technology (MIT) has developed a new method to sequester CO₂ in concrete before curing it. The method is based on the addition of bicarbonate of soda, which reacts with cement to produce a calcium carbonate-calcium silicone hydrate composite. The Journal of Engineering has reported that the method adds the benefits of CO₂ mineralisation during production and casting, doubling the mechanical performance of early-stage concrete. It also eliminates the effects of carbonation reactions in cured concrete, which weaken the concrete by lowering its alkalinity, which accelerates the corrosion of rebar. The method has the potential to sequester 15% of CO₂ emissions from cement production.

The team said “The pre-curing capacity of concrete to sequester CO₂ has been largely underestimated and underutilised. Our new discovery could further be combined with other recent innovations in the development of lower carbon footprint concrete admixtures to provide much greener, and even carbon-negative, construction materials.”

India: A team at SRM Institute of Science and Technology has patented a new concrete paving block produced using fibres from waste printed circuit board (WPCB). The refuse-derived material will replace some sand and clay in the concrete mix. SRM Institute of Science and Technology said that India generates 2Mt/yr of electronic waste (e-waste), and additionally imports this type of waste from other countries. Besides being non-biodegradable, WPCB is contaminated with colouring chemicals.

The developers said "The steadily rising volume of electronic waste poses a serious hazard to human health and the environment."