Displaying items by tag: carbon capture
Cemex and Carbon8 Systems partner for carbon capture research
10 December 2021Mexico/UK: Cemex has partnered with UK-based carbon capture equipment supplier Carbon8 Systems to evaluate possible uses of the supplier’s Accelerated Carbonation Technology (ACT) in the group’s cement production. Operators can use the equipment to produce carbon-infused sustainable materials from thermal residues. Cemex says that one possible application will be in the production of supplementary cementitious materials. Under the partnership, Carbon8 Systems will evaluate a range of Cemex’s byproducts for possible use, beginning at its Rüdersdorf cement plant in Germany and Rugby cement plant in the UK. It will also evaluate the suitability of alternative lightweight aggregates produced using ACT for sale in each market.
Executive vice president sustainability, commercial, and operations development Juan Romero said "This initiative with Carbon8 Systems is another example of the work we are doing with partners across industries, academia, and startups to tap into the latest innovation and disruptive technologies to achieve our ambition of delivering net-zero CO2 concrete globally to all of our customers."
Japan: Taiheiyo Cement and the University of Tokyo have patented a carbon capture system based on a new carbon fixation method. The method passes CO2-bearing gas over 40mm granules of a hardened cementitious material at 75 - 100°C. The granules then fix the CO2 from the stream to themselves, for utilisation or storage.
Cool Planet Technologies and Hereon to supply carbon capture system for Holcim Deutschland’s Höver cement plant
09 November 2021Germany: Cool Planet Technologies and Hereon have signed a memorandum of understanding with Holcim Deutschland to deliver a carbon capture system for a carbon capture and storage (CCS) trial at the producer’s Höver cement plant in Lower Saxony. Cool Planet Technologies will install their system, which is based on Hereon’s PolyActive membrane technology. The system will have a capture capacity of 5600t/yr and operate from early 2022 to early-mid-2023. If successful, two subsequent expansions will increase the system’s capacity to 170,000t/yr, commencing operation in 2024, and 1.3Mt/yr, commencing in 2026.
The suppliers say that their membrane-based capture system is capable of reducing the energy intensity and eliminating the need for other chemical inputs in CCS.
Dalmia Cement commits to 100% low carbon cement production 2031
09 November 2021India: Dalmia Cement plans for 100% of its cement to be low carbon by 2031. The company has a US$405m carbon capture and utilisation (CCU) investment plan to help it to realise its goal. It will also undertake carbon offsetting measures.
Business Line News has reported that the company plans to spend US$1.35bn to increase its installed cement capacity by 52% to 50Mt/yr from 33Mt/yr before the 2024 financial year.
LafargeHolcim US reveals more detail on carbon capture study at Ste. Genevieve cement plant
03 November 2021US: LafargeHolcim US has revealed more information about a commercial-scale carbon-capture study based at its integrated Ste. Genevieve cement plant in Missouri. The project aims to deliver a front-end engineering design (FEED) study for a carbon capture retrofit that can separate up to 95% of CO2 emissions at the plant. The captured CO2 will be ‘pipeline ready’ for geological storage and analysis of the project socio-economic impact will also be part of the study. The US Department of Energy’s National Energy Technology Laboratory awarded US$4m to the Prairie Research Institute at the University of Illinois to work on the project in early October 2021. LafargeHolcim and Air Liquide are also making cost share contributions.
The design will use Air Liquide’s Crycocap FG system at the cement plant. LafargeHolcim US says that it combines pressure swing adsorption capabilities with cryogenic refrigeration technologies to achieve high CO2 capture rates with high CO2 purity rates. Notably, for a carbon capture project, the Ste. Genevieve plant has one of the largest single clinker kilns in the world.
Cemex Zement and Carbon Clean to install carbon capture system at Rüdersdorf cement plant
29 October 2021Germany: Cemex Zement’s Rüdersdorf, Brandenburg, cement plant is to host a new 100t/day carbon capture installation. Cemex Zement will collaborate with UK-based Carbon Clean on a front-end engineering and design (FEED) study for the project. The system will combine captured CO2 with sustainably sourced hydrogen in order to produce green synthetic hydrocarbons. The partners aim to increase the system’s CO2 capture capacity to 300t/day by 2026, before finally scaling it up to 2000t/day.
Europe, Middle East, Africa and Asia regional president Sergio Menendez said “This project with Carbon Clean is the latest development in Cemex’s plan to achieve carbon neutrality at the Rüdersdorf cement plant by 2030, through our pioneering carbon neutral alliance with expert industrial consortiums. Carbon capture will play a fundamental role in the efforts to succeed at this goal and ensure our operations are more sustainable.”
UK: The government has awarded funding to the planned HyNet North West low-CO2 industrial cluster. The cluster will reduce industrial CO2 emissions by 10Mt/yr in North Wales and North West England. It includes a planned 800,000t/yr carbon capture installation at Hanson UK’s Padeswood cement plant in Flintshire. The producer is currently carrying out a feasibility study at the plant. Parent company HeidelbergCement said that the project will play a ‘critical role’ in the UK’s transition to net zero CO2 emissions by 2050.
Chair Dominik von Achten called the decision “A well-deserved recognition for the HyNet consortium and our colleagues working on carbon capture and storage (CCS) in the UK as part of this collaborative project. Cutting CO2 emissions is a key priority for us, and we are delighted to add our Padeswood cement works to our growing range of CCS activities, as a key part of our pathway to reaching net zero.”
Germany: Holcim Deutschland has signed a memorandum of understanding with Cool Planet Technologies (CPT) to build a pilot CO2 capture unit at Holcim’s Höver cement works, near Hannover, based on Hereon’s PolyActive membrane technology. The objective of the unit is to demonstrate the performance, economics and operability of the capture technology at scale. Following this the partners will seek to establish a framework for the technology’s implementation in Holcim’s other cement plants in Germany.
Initial tests are scheduled to commence in the first quarter of 2022 with the first phase of the project, capturing 5600t/yr of CO2, scheduled for start-up in the second quarter of 2023. If successful, it is planned to expand the unit in two further phases capturing 170,000t/yr and 1.3Mt/yr starting-up in 2024 and 2026 respectively. The final phase will capture over 90% of the carbon dioxide emissions from the Höver plant and deliver the CO2 in high-purity liquid form for use or sequestration.
CPT is working with Hereon, part of the Helmholtz Association of Research Centres, Germany’s largest research organisation, to commercialise their PolyActive membrane technology after a decade of development. This technology is designed to capture CO2 from carbon rich gas streams and has already been technically proven in the laboratory and piloted in two coal-fired power stations.
Vicat aims to start cultivating spirulina at Montalieu-Vercieu cement plant in summer of 2022
20 October 2021France: Vicat says it aims to start cultivating spirulina at its Montalieu-Vercieu cement plant in the summer of 2022 as part of its Cimentalgue project. It plans to grow 1t/yr until 2024 as part of a trial looking at volume and quality, according to the Agence France Presse. It will use CO2 and waste heat from the plant to grow the cyanobacteria that can be used as a food source.
The project is being conducted with Algosource and the GEPEA (Process Engineering for Environment and Food) laboratory at the University of Nantes. TotalEnergies is also involved as a financial backer. The project has a budget of Euro2m and is also supported by the Environment and Energy Management Agency (ADEME).
Spain/Norway: A team from Cartagen Polytechnic and Ostfold University College has demonstrated that Cementos La Cruz could reduce the cost of its concrete production by Euro1.45/m3, or Euro29,000/month by curing concrete with captured CO2. EuropaPress has reported that the use of CO2 would reduce the amount of cement required by 7 – 8%. This in turn would remove an estimated 4.6% of CO2 from the concrete’s production.