Displaying items by tag: Germany
China: Anhui Panjing Cement has ordered an upgrade to its production line from KHD and AVIC. The project includes: installing new triple cyclones in conjunction with existing preheater top stage twin cyclones; a partial modification of downcomer duct; installing a new preheater fan; adding optimised and larger dip tubes for the existing cyclones; installing a new Pyrobox type calciner firing system; adding new raw meal pipes for the two lowest cyclone stages; making calciner modification within the existing preheater building; and installing a new kiln drive system. Where possible the project plans to use reuse existing equipment. It is scheduled for completion by January 2022. It follows a previous upgrade at the plant in 2020 – 2021.
Other recent orders that KHD has announced with China-based cement companies include an upgrade to a production line at Hongshi Group’s Lanzhou plant in Gansu province and the installation of NOx-reducing modifications on a 5000t/day clinker production line operated by China United Cement Baoding.
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.
In the two and a half years since Calix brought together cement producers across corporate and national boundaries to form the first Low Emissions Intensity Lime And Cement (LEILAC-1) consortium and commissioned a carbon capture installation at the Lixhe cement plant in Belgium on 10 May 2019, carbon capture and storage (CCS) has passed some major milestones. New installations have made Global Cement headlines from Canada (at Lehigh Cement’s Edmonton plant in November 2019) to China (at a China National Building Material (CNBM) plant in July 2021). Twelve other European cement plants now host current or planned carbon capture trials – including the first full-scale system, at HeidelbergCement’sBrevik plant in Norway. A second Calix-led project in Germany, LEILAC-2, attracted Euro16m-worth of funding from the European Union in April 2020.
The work of LEILAC-1 – backed by HeidelbergCement, Cemex, Lhoist, Tarmac and others, with Euro12m in funding – set the benchmark in innovation. Its pilot plant successfully captured 100% of 'unavoidable' process emissions by indirectly heating raw materials inside a vertical steel tube. Called direct capture, the model removes a CO2 separation step, as our subsequent price analysis will reflect.
1) Both limestone and raw meal may be processed;
2) CO2 is successfully separated;
3) The energy penalty for indirect calcination is not higher than for conventional direct calcination.
Additionally, Calix’s first departure into the cement sector has demonstrated that its model exhibits no operational deterioration, does not suffer from material build-up and has no impact on the host plant when used in cement production. The plant’s clinker capacity remained the same as before the trial. Most importantly of all, the Lixhe cement plant recorded no process safety incidents throughout the duration of the trial.
The study has also put an evidence-based price tag on industrial-scale CCS at a cement plant for the first time: Euro36.84/t. Figure 1 (below) plots the full-cycle costs of three different carbon capture installations at retrofitted 1Mt/yr cement plants using 100% RDF, including projections for transport and storage. Installation 1 is an amine-based carbon capture system of the kind installed in the Brevik cement plant’s exhaust stack; Installation 2 is the Calix direct capture system and Installation 3 consists of both systems in combination. Direct capture’s costs are the lowest, while the amine retrofit and the combination installation are close behind at Euro43.68/t and Euro43.25/t respectively.
Figure 1: Full-cycle costs of three different carbon capture installations at retrofitted 1Mt/yr cement plants using 100% RDF
Installations 1 and 3 both entail additional energy requirements for the separation of CO2 from flue gases and air. With the inclusion of the CO2 produced thereby, the cost of Installation 1 rises to Euro94/t of net CO2 emissions eliminated, more than double that of Installation 2 at Euro38.21/t. The combination of the two in Installation 3 costs Euro67.3/t, 76% more than direct capture alone. Figure 2 (below), breaks down the carbon avoidance costs for each one and compares them.
Figure 2: Carbon avoidance costs of three different carbon capture installations at retrofitted 1Mt/yr cement plants using 100% RDF
The Global Cement and Concrete Association (GCCA)’s seven-point Roadmap to Net Zero strategy puts CCS at the forefront of concrete sector decarbonisation. CCS is expected to eliminate an increasing share of global concrete’s CO2 emissions, rising to 36% in 2050 – by then 1.37Bnt of a total 3.81Bnt. This will depend on affordability. Calix’s model has reduced the capital expenditure (CAPEX) of a carbon capture retrofit by 72% to Euro34m from Euro98m for the amine-based equivalent. When built as part of a new plant, the CAPEX further lowers to Euro27m. Both models may also be retrofitted together, for Euro99m. In future, Calix expects to install direct capture systems capable ofachieving Euro22/t of captured CO2. By contrast, the cost of emitting 1t of CO2 in the EU on 11 October 2021 was Euro59.15.
In what it calls the Decade to Deliver, the GCCA aims to achieve a 25% CO2 emissions reduction in global concrete production between 2020 and 2030, in which CCS plays only a minor part of less than 5%. LEILAC-1 presents a visionof affordable carbon avoidance which complements cement companies’ 2030 CO2 reduction aspirations.
Unlike conventional CCS methods, however, direct capture only does two thirds of a job – eliminating the emissions of calcination, but not combustion. This would appear to make it unsuited to cement’s longer-term aim of carbon neutrality by 2050 in line with the Paris Climate Accords’ 2°C warming scenario. On the other hand, direct capture is not designed to work alone. Calix recommends use of the technology in conjunction with a decarbonised fuel stream to eliminate the plant’s remaining direct emissions. This increases the price - by 47% to Euro56.05/t of CO2 avoided for biomassand by more than double to Euro104.48/t for an E-kiln.
The Lixhe cement plant’s carbon capture story is one of a successful crossover from one industry into another: Calix previously applied the technology in the Australian magnesite sector. Realisation of the Calix carbon capture vision in the global cement industry is a challenge primarily due to the scale of the task. It will require continued collaboration between companies and with partners outside of the industry. Further than this, parliaments must continue to enact legislation to make emission mitigation the economic choice for producers.
Germany: Scientists at the University of Kassel in Hessen have launched a study into the use of ash from waste incinerators in precast concrete production. The Hessische Allgemeine newspaper has reported that a waste-to-energy plant in Kassel will provide the ash for concrete production in partnership with local companies Kimm Baustoffe and Gebäudeke Baustoff-Recycling. The study aims to produce pre-cast concrete elements containing at least 30% ash, beginning with paving slabs and noise barriers.
Project leader David Laner said that ash has the potential to help lower concrete’s carbon footprint. He said “So far, it has been put to lesser-value uses; we make a product out of it - upcycling instead of downcycling.”
Aumund launches PREMAS 360° maintenance packages
07 October 2021Germany: Aumund has announced the launch of its PREMAS 360° packages. The three packages – basic, advanced, premium - combine quality Aumund all-around maintenance and inventory management support, extended warranties, physical inspections, cutting-edge Industry 4.0 monitoring of Aumund and other conveying equipment, technical training, emergency remote support and consultation programmes.
Managing Director Pietro de Michieli said “With PREMAS 360°, Aumund puts customer service to the forefront. Our goal is to reassure machine availability and reliability through the simplicity and flexibility of a fully bundled maintenance solution, to be a partner to our customers assisting them to reach operation excellence.”
HeidelbergCement acquires minority stake in Command Alkon
29 September 2021Germany: HeidelbergCement has invested in a 45% stake in Thoma Bravo’s supply chain software subsidiary Command Alkon. The group says that the companies’ collaboration can help advance heavy building materials supply chains’ digital transformation. It said that this will entail more transparent industry standards for seamless connectivity, improved solutions to customers’ everyday pain points, an increased pace in innovation and an acceleration of sustainability efforts. HeidelbergCement will continue to autonomously operate its proprietary digital product suite HConnect.
Chair Dominik von Achten said “As part of our Beyond 2020strategy, our clear goal is to become the first industrial tech company in our sector.” He added “We have made significant progress in our independently developed HConnect digital customer experience since its development in 2018. The investment in Command Alkon and the partnership with Thoma Bravo now allows us to monetise the hidden potential of our assets and translate it into a new growth path for HeidelbergCement. Together, we will build the digital ecosystem of the future for the heavy building materials industry.”
Askari Cement orders three Gebr. Pfeiffer MVR vertical roller mills for Nizampur cement plant
23 September 2021Pakistan: Askari Cement has awarded a contract to Germany-based Gebr. Pfeiffer for the supply of three of its MVR vertical roller mills to replace the existing mills at its Nizampur cement plant. Two of the mills will be MVR 5000 C-4 cement mills with the capacity to grind 360t/hr of clinker to a fineness of 3250 blaine. The other mill, an MVR 5000 R-4 raw meal mill, will grind 520t/hr of clinker to a fineness of 12% R90µm. The Chinese contractor Hefei Cement Research & Design Institute will install an SLS V high-efficiency classifier on each of the mills. The upgraded plant is scheduled for commissioning in mid-late 2022.
Update on carbon capture in cement, September 2021
22 September 2021It’s been a good week for carbon capture in cement production with new projects announced in France and Poland.
The first one is a carbon capture and utilisation (CCU) collaboration between Vicat and Hynamics, a subsidiary of energy-provider Groupe EDF. The Hynovi project will see an integrated unit for capturing CO2 and producing methanol installed at Vicat’s Montalieu-Vercieu cement plant in 2025. It aims to capture 40% of the CO2 from the kiln exhaust stack at the plant by using an oxy-fuel method and installing a 330MW electrolyser to split water into oxygen and hydrogen for different parts of the process. The CO2 will then be combined with hydrogen to produce methanol with potential markets in transport, chemicals and construction. The setup is planning to manufacture over 0.2Mt/yr of methanol or about a quarter of France’s national requirement. The project was put forward under a call for proposals by the Important Projects of Common European Interest (IPCEI) program. Pre-notification of its participation in the program has been received from the French government and it is currently being evaluated by the European Commission. Vicat’s decision to choose its Montalieu-Vercieu plant for this project is also interesting since it started using a CO2ntainer system supplied by UK-based Carbon8 Systems there on an industrial scale in November 2020. This system uses captured CO2 from the plant’s flue gas emissions to carbonate cement-plant dust and produce aggregate.
The second new project is a pilot carbon capture and storage (CCS) pilot by HeidelbergCement at its Górażdże cement plant in Poland. This project is part of the wider Project ACCSESS, a consortium led by Sintef Energi in Norway that aims to cut carbon capture, utilisation and storage (CCUS) costs and to link CO2-emitters from mainland Europe to storage fields in the North Sea. The cement plant part in Poland will test an enzyme-based capture method using waste heat at the plant. Another part of the project will look at how the captured CO2 can then be transported to the Northern Lights storage facility in Norway including the regulatory aspects of cross-border CO2 transport. ACCSESS started in May 2021 and is scheduled to end in April 2025. It has a budget of around Euro18m with Euro15m contributed by the European Union (EU) Horizon 2020 fund.
HeidelbergCement also says that the second stage of its LEILAC (Low Emissions Intensity Lime And Cement) project at the Hannover cement plant is part of ACCSESS, with both testing of the larger-scale Calix technology to capture CO2 and the connected transport logistics and bureaucracy to actually get it to below the North Sea. That last point about Calix is timely given that US-based Carbon Direct purchased a 7% stake in Calix in mid-September 2021 for around US$18m. Whilst on the topic of carbon capture and HeidelbergCement don’t forget that the group’s first full-scale carbon capture unit at Norcem’s Brevik cement plant, using Aker Solution’s amine solvent capture technology, is scheduled for commissioning in September 2024. Another carbon capture unit is planned for Cementa’s Slite plant in 2030 but the proposed capture method has not been announced.
Other recent developments in carbon capture at cement plants include Aalborg Portland Cement’s plan to capture and store CO2 as part of the Project Greensand consortium. The overall plan here is to explore the technical and commercial feasibility of sequestering CO2 in depleted oil and gas reservoirs in the Danish North Sea, starting with the Nini West Field. The project is still securing funding though, with an Energy Technology Development and Demonstration Program application to the Danish government pending. However, the Danish Parliament decided in December 2021 to set aside a special funding pool to support a CO2 storage pilot project so this initiative seems to be making progress. If the application is successful, the consortium wants to start work by the end 2021 and then proceed with an offshore injection pilot from late 2022. How and when Aalborg Portland Cement fits in is mostly unknown but a 0.45Mt/yr capture unit at its Rørdal cement plant is tentatively planned for 2027. There’s also no information on the capture method although Aker Carbon Capture is also part of the Project Greensand consortium. Finally, also in September 2021, Chart Industries subsidiary Sustainable Energy Solutions announced that it had selected FLSmidth to help adapt and commercialise its Cryogenic Carbon Capture carbon capture and storage (CCS) system for the global cement industry.
All of this tells the cynics in the audience that a large international climate change meeting is coming up very soon. Most cement companies will likely want some good news to show off when the 2021 United Nations Climate Change Conference (COP26) dominates the media agenda in November 2021. Other observations to point out include that none of the projects above are full-scale industrial carbon capture installations, most of them are consortiums of one sort of another and that they are all subsidised or want to be. While hydrogen and CO2 networks get built this seems inevitable. Yet, we’re not at the stage where cement companies just order carbon capture units from a supplier, like they might a new clinker cooler or silo, without the need for long lists of partners. When this changes then carbon capture looks set to flourish.
On a final note, the UK is currently experiencing a shortage of commercially-used CO2. The reasons for this have nothing to do with the cement industry. Yet consider the constant doom-and-gloom about record global CO2 emissions and the sheer amount of effort going into reducing this by the projects mentioned above and others. Life has a sense of humour at times.
For a view on the CO2 sequestration permitting process in the US look out for the an article by Ralph E Davis Associates, in the forthcoming October 2021 issue of Global Cement Magazine
CimMetal Group and Intercem Engineering near completion of 2.5Mt/yr Lomé grinding plant
22 September 2021Togo: Germany-based Intercem Engineering says that CimMetal Group’s upcoming 2.5Mt/yr Lomé grinding plant is on track for commissioning ‘at short notice’ in late 2021. The supplier has delivered a 1000tph truck unloading station, a 25,000tph storage facility for additives, a 1000tph truck loading station, two 50,000t clinker silos, four Rotopackers, eight truck loading stations, ten truck scales and laboratory equipment, alongside steel construction, sheet metal fabrication, subsystems, electrical equipment and complete engineering services.It is also supervising the erection and commissioning of the plant. It said that all material conveyor belts are mounted in a closed gallery to ensure dust-free transport. The belt system is also designed for fully automatic ship unloading.
The plant is the third delivered for CimMetal Group by InterCem Engineering and partners InterCem Installation and Switzerland-based InterCem Cement, after one in Burkino Faso and one in Ivory Coast.
Cemex Zement launches Insularis insulating cement-free concretes
17 September 2021Germany: Cemex Zement has launched Insularis cement-free concretes, a product range suitable for use in building insulating components. The range includes lightweight concretes Insularis Supra and Insularis Infra. Due to its low bulk density, Insularis Infra currently requires special case-by-case or project-related approval for use in Germany. The company said that it produces Insularis concretes from a mix of recycled and natural raw materials. It added that Insularis is itself 100% recyclable.