Carbon Capture Canada Awards

The Carbon Capture Project Award recognizes small, medium, and large-scale projects globally. Projects in this category will be judged on technological advancement and impact on the community. All projects entered will need to be either completed within the 2023/2024 time period or will be projected to be completed by the end of 2024 in order to be considered.

The nominees are:

Blindman Brewing

Carbon Capture and Utilization from Fermentation

Blindman Brewing is the first brewery in Canada and one of the first in the world to use a new technology from Earthly Labs to capture and utilize CO2 from fermentation of beer. This allows Blindman to demonstrate to the tens of thousands of small- and medium-sized breweries across the world that carbon capture and use can be implemented in a way that is practical and with a financial payback in a few years from the elimination of the need to purchase CO2 to carbonate beer.

Mitsubishi Heavy Industries, LTD.

CO2 Capture Project for ENI Casalborsetti

This project targets the capture of approximately 25,000 tons of CO2 per year from the very low CO2 content flue gas of turbo compressor at natural gas plant located in Casalborsetti (Ravenna), in Northeast Italy, which is owned by ENI S.p.A., the biggest integrated energy company in Italy. MHI’s role in the project is to provide licensing for its carbon capture technology, the KM CDR Process (TM). The captured CO2 is used for CCS purpose in Ravenna field.

SaskPower

SaskPower Boundary Dam Carbon Capture Facility

SaskPower’s Boundary Dam Carbon Capture and Storage Facility is the first in the world to use post-combustion technology to capture CO2 from a coal-fired power source.  The commercial demonstration project is well known in Canada and internationally, with over 6 million tonnes of CO2 utilized and stored at both the Weyburn oilfield and at SaskPower’s own dedicated deep saline storage site, Aquistore.  As a pioneering CO2 storage project, Boundary Dam has faced many challenges that have been met head-on by SaskPower engineers and chemists, who have adapted and adjusted an existing commercial capture technology and optimized it to face the unique challenges of a lignite coal power station.  Boundary Dam has emerged after nearly 10 years of operation as an important, pioneering, industrial-scale project, with different processes in the capture facility optimized and improved that could only have been discovered through real, hands-on operations.  New post-combustion projects in development regularly seek knowledge and learnings from these ten years of operations, and SaskPower has met with several project proponents to share knowledge.  This is what makes the Boundary Dam CCS project so critically important to post-combustion projects around the world.

Shellscotford

Polaris Carbon Capture facility

Shell Canada Products, made a Final Investment Decision (FID) in late June for Polaris, a carbon capture project at the Shell Energy and Chemicals Park, Scotford in Alberta, Canada. Polaris is designed to capture approximately 650,000 tonnes of CO2 annually from the Shell-owned Scotford refinery and chemicals complex. The project will utilize Shell's Cansolv amine technology, over ~90% of CO2 emissions post-combustion.

Strathcona Resources Ltd.

Meota East CCS Project

First commercial implementation of CCS technology in a thermal oil recovery (SAGD) operation.

The Carbon Remover Award recognizes technology and processes that advance solutions to accomplish CO2 removal. All technologies in this category should be in full production mode.

The nominees are:

Aboudheir Consulting Ltd

Low-Cost CO2 Capture Plant Design with Solvent Reclaiming and Reuse Unit

Carbon dioxide (CO2) capture from flue gases or gaseous streams using amine-based solutions is a proven technological approach which has been practiced in operation for many decades. The first 800 TPD CO2 capture plant is still in operation by Sealers Valley Minerals (SVM) for more than 45 years in Trona, California, USA. This plant is based on a conventional process configuration and uses 20 wt% mono-ethanolamine solution (MEA) to capture CO2 from flue gases, which is used as a raw material to produce Soda Ash. However, experts believe that the main reasons behind the recent two unsuccessful large-scale CO2 capture plants, which are Boundary Dam in Saskatchewan, Canada and Petra Nova in Texas, USA, are mainly four-fold: (i) the implementation of complex process configurations to save energy; (ii) use of proprietary new formulated solvents; (iii) the wrong design of unit operations; and/or (iv) unsuitable operating conditions.  The technology proposed is CO2 absorption into  amine-based solutions that takes into consideration the following main design consideration: 1. Simple process flowsheet to meet the production capacity and the cleanup targets at minimum capital costs. 2. Optimum operating parameters to minimize the operating costs.  3. Using suitable commercial solvents based on the flue gases/gaseous streams composition and conditions. 4. Integrating suitable solvent reclaiming to maintain the solvent efficiency. 5. Modular design approach for the complete plant.

BASF

OASE® Blue for Flue Gas and Post Combustion CO2 Capture

OASE® Blue is an advanced Amine solvent-based technology that offers a competitive design concept to other leading technologies in the market. OASE® Blue is specifically designed for post-combustion CO2 capture applications.

SBI BioEnergy Inc.

Golu-H2: Modular DAC CO2 Capture & Renewable Carbon-Negative Energy Generator

Carbon dioxide (CO2) capture from flue gases or gaseous streams using amine-based solutions is a proven technological approach which has been practiced in operation for many decades. The first 800 TPD CO2 capture plant is still in operation by Sealers Valley Minerals (SVM) for more than 45 years in Trona, California, USA. This plant is based on a conventional process configuration and uses 20 wt% mono-ethanolamine solution (MEA) to capture CO2 from flue gases, which is used as a raw material to produce Soda Ash. However, experts believe that the main reasons behind the recent two unsuccessful large-scale CO2 capture plants, which are Boundary Dam in Saskatchewan, Canada and Petra Nova in Texas, USA, are mainly four-fold: (i) the implementation of complex process configurations to save energy; (ii) use of proprietary new formulated solvents; (iii) the wrong design of unit operations; and/or (iv) unsuitable operating conditions.  The technology proposed is CO2 absorption into amine-based solutions that takes into consideration the following main design consideration: 1. Simple process flowsheet to meet the production capacity and the cleanup targets at minimum capital costs. 2. Optimum operating parameters to minimize the operating costs.  3. Using suitable commercial solvents based on the flue gases/gaseous streams composition and conditions. 4. Integrating suitable solvent reclaiming to maintain the solvent efficiency. 5. Modular design approach for the complete plant.

The Carbon Storage Award recognizes technology and processes that demonstrates innovation in the advancement of carbon storage. All technologies in this category should be in full production mode.

The nominees are:

Enhance Energy Inc.

Enhance's 5 Million Tonne Milestone at the Clive CCUS Sequestration Facility

We’re Enhance, and we provide solutions for the world’s transition to net-zero. We develop world-class, efficient and trusted CCUS projects that decarbonize global commodities and the energy we produce. And with more than 5 million tonnes of CO2 emissions permanently stored at our project sites in Central Alberta, we know we are on the right track.

Shellscotford

Atlas Carbon Storage Hub

Shell Canada in partnership with ATCO EnPower made a positive final investment decision in late June for their Atlas project. The Atlas Carbon Storage Hub will be a multi-phased open access hub developed, owned, and operated in a partnership between Shell Canada and ATCO EnPower. The hub proposes to provide customers in the area with transportation and sequestration services for their CO2 emissions. The first phase of the project is planned to be operational by 2028.

SLB Canada Ltd

Proactive and integrated monitoring using OPTIQ Seismic

Your carbon solutions perform best with comprehensive monitoring from SLB.  Verification monitoring tracks the behavior of your storage site. Using powerful tools and data insights, SLB ensures your storage is compliant, secure, and high performing.  Advanced imaging and surveying technologies help monitor your storage performance. And our team of subsurface experts develops site-specific strategies you can rely on, so your solutions meet the highest safety standards.  Optiq Seismic fiber-optic borehole seismic solution is part of our Transition Technologies portfolio. The fiber optics are simply connected to an optical interrogator at surface and record seismic data in conjunction with other stationary logging services or on their own. And because of the distributed nature of fiber-optic measurement, unlike the conventional geophone acquisition method, it is no longer necessary to reposition a geophone array and repeat the source positions, reducing environmental impacts for both land and marine operations. With this new method, you can improve operational efficiency by up to 99%, significantly reducing energy consumption and carbon emissions.

SLB Canada Ltd

Carbon storage modeling and evaluation

Accelerating carbon capture, utilization, and sequestration (CCUS) is vital for all net-zero energy scenarios.  With more than 25 years in CCUS project experience and over 40 years in global subsurface digital modeling and simulation solutions, SLB leads the industry in comprehensive CO2 site modeling, simulation, and evaluation solutions.  Detailed evaluation of your potential carbon storage site is crucial to assessing its long-term performance and project viability. SLB understands the complexities of identifying, evaluating, and considering the long-term requirements of carbon storage sites. These requirements include final monitoring, measurement, and verification (MMV) planning. The MMV plan must address direct and indirect measurements to demonstrate integrity of the storage site and conformance with the predicted CO2 migration models. The plan defines the technology selection that is best suited for the specific site and injection conditions and is based on evaluation of the associated risks. This is integral to the evaluation phase as risk mitigation and operating expenditure are key components in the project feasibility assessment.  Our digital technologies are equipped to handle the uncertainties, sensitivities, and nuances of CO2 storage analysis. And our experts possess the knowledge and experience necessary to perform detailed assessments of storage performance, evaluate the most cost-effective models for site injection, and design MMV plans that will comply with regulations or other legal requirements. Additionally, we help streamline and optimize engineering iterations to final investment decision (FID), saving time and money and without increasing risk or compromising safety.

SLB Canada Ltd

Olga™ & Symmetry™ dynamic multiphase flow simulator - The industry-standard tool for dynamic multiphase flow simulation

The Olga™ dynamic multiphase flow simulator models transient flow (time-dependent behaviors) to maximize production potential. Transient modeling is an essential component for feasibility studies and field development design. Dynamic simulation is essential in deep water and is used extensively in both offshore and onshore developments to investigate transient behavior in pipelines and wellbores. Transient simulation with the Olga simulator provides an added dimension to steady-state analysis by predicting system dynamics, such as time-varying changes in flow rates, fluid compositions, temperature, solids deposition, and operational changes.  See link 1 for the complte features and benfits of the application.    From wellbore dynamics for any well completion to pipeline systems with various types of process equipment, the Olga simulator provides an accurate prediction of key operational conditions involving transient flow.

The CCUS First Adopter Award recognizes pioneers in the realm of climate change mitigation who have demonstrated exceptional leadership, innovation, and commitment to advancing CCUS technologies. This prestigious accolade celebrates organizations that have been at the forefront of implementing CCUS solutions through investment in pilot or first-of-a-kind demonstration projects within industrial assets, thereby playing a critical role in technology commercialization. 

The nominees are:

Blindman Brewing

Carbon Capture and Utilization from Fermentation of Beer

Blindman Brewing is the first brewery in Canada and one of the first in the world to use a new technology from Earthly Labs to capture and utilize CO2 from fermentation of beer. This allows Blindman to demonstrate to the tens of thousands of small- and medium-sized breweries across the world that carbon capture and use can be implemented in a way that is practical and with a financial payback in a few years from the elimination of the need to purchase CO2 to carbonate beer.

Exterra Carbon Solutions

Turning waste into a powerful tool against climate change

Exterra Carbon Solutions is developing a pioneering low-carbon metal oxide production process to transform mineral waste into valuable byproducts and durable carbon storage. By leveraging silicate mine tailings, we produce low-carbon, highly reactive magnesium oxide and other critical minerals, offering an alternative to traditional underground CO2 storage. Our solution not only enables carbon reductions and removals but also repurposes mining waste, providing significant environmental and economic benefits.

SLB Canada Ltd

US Department of Energy and ADM optimize carbon sequestration using multizonal intelligent completion

Pioneering application of multizone intelligent completion and fiber-optic cables for DTS* and DAS** in real time has enabled remote monitoring and control for optimized subsurface injection and sequestration of >2.5 million metric tons of CO2 over a 3-year period.  * Distributed temperature sensing ** Distributed acoustic sensing  The monitoring well was designed with a five-zone intelligent completion was installed in the monitoring well and included:  - equipment to isolate, monitor, and control each of four zones - multiport packer and pressure and temperature (PT) gauge using a quartz sensor for the deepest zone - dual PT gauge for recording tubing and annulus PT above the production packer - gas lift mandrel for nitrogen injection - remote-controlled hydraulic power unit (HPU) to actuate the flow control valves (FCVs) - control line containing two optical fibers extending from surface to the top packer.  The completion in the injection well included:  - production packer - control line containing two optical fibers extending from surface to the top packer - dual PT gauge, also positioned above the packer.

SLB Canada Ltd

AKER Just Catch™ - Standardized, modular carbon capture Innovation

SLB/AKER carbon capture technology offers standardized carbon capture plants named Just Catch™, for delivery of pure CO₂ for various applications. The plants are easy to fabricate, transport, install and operate. This solution entails/includes several other advantages, such as compact design, short delivery time and low cost. The first contract is signed for delivery in the Netherlands. The solution is offered as a turnkey solution.  See Image 1, Image 2 and Image 3.  Just Catch™ can at present be delivered with capacities of 40,000, 100,000 and 400,000 tonnes of CO₂ per year (model 40, 100 and 400). The standard CO₂ delivery is in gas form higher than 99.9 percent purity. Different CO₂ qualities can be provided to meet the specifications of the customer. The plants are CE marked use recognized industrial standards

SLB Canada Ltd

Digital solutions for CCUS - End-to-end solutions to scale CCUS around the world

Our end-to-end digital technologies harness over 25 years of experience to help you screen, rank, design, model, simulate, and analyze every phase of the CCUS life cycle.  Optimized digital twins enable cost-effective and rapid scale up, ensuring both safety and performance over the life of these projects. Together we can implement digital solutions to achieve emissions reduction goals and scale-up low carbon energy production to accelerate the energy transition.

The CCUS Leader of the Year Award acknowledges an individual whose efforts have made a significant contribution to their organization, industry or community that go above and beyond their normal day to day duties. The nominee should stand out in terms of strategic thinking, leadership, community involvement and the pursuit of excellence in their field. The nominees in this category will have been in the industry for 5 or more years. Self-nominations are permitted in this category.

The nominees are:

Andrea Hepp, President, Atlas, Shell Canada

Andrea oversees the development of the Atlas Carbon Storage Hub, leading a team of multi-disciplinary professionals as the project transitions from development to construction and execution. She is also playing a leading role in the development of an open access carbon sequestration hub that will provide the required infrastructure for 3rd parties to decarbonize operations and sequester CO2.

Breanne O'Reilly, Vice President, Business Development & Strategic Initiatives, International CCS Knowledge Centre

As Vice President of Business Development and Strategic Initiatives, Breanne O’Reilly leads the delivery of initiatives that advance the development of carbon capture and storage (CCS) solutions across Canada. She has demonstrated a long standing commitment to efforts in carbon capture where her expertise provides support to organizations developing solutions to reduce carbon emissions.  Her role leads consulting and communications efforts, implements knowledge sharing activities, and pursues new funding opportunities.  With a career devoted to Canada’s energy landscape, Breanne fosters collaborative relationships and shares critical information with industry, government, and the public. Breanne played a pivotal role in aligning CCS research and technology organizations to effectively market expertise and facilities for validating capture, conversion and storage solutions. With a strong foundation in public relations, Breanne brings a wealth of experience, combining strategic thinking with hands-on expertise to drive meaningful change in the pursuit of a low-carbon future.

Mina Zarabian, PhD, CEO & Co-Founder, Carbonova Corp.

Mina Zarabian, CEO of Carbonova Corp., is revolutionizing clean technology in Canada. With a Ph.D. in Chemical Engineering and a passion for sustainability, Mina co-invented technology that converts greenhouse gases into valuable carbon nanofibers. Mina owns multiple patents and has published multiple peer-reviewed research papers. Her leadership extends beyond the boardroom, driving multiple community initiatives like Movember, Earth Day cleanups, and local community volunteer efforts. Recognized with prestigious awards like the GSTEM Award from the University of Calgary and the Energy New Venture Pitch Award from the Haskayne School of Business, Mina's commitment to innovation and social responsibility sets her apart. As a global ambassador for clean tech, her participation in Canadian Trade Missions around the world showcases her dedication to shaping a greener future.   As CEO, Mina has an intensive schedule. Carbonova is a start-up and therefore is at the beginning stages of establishing the company's strategic direction and short/long-term goals. As CEO, Mina leads the executive team and employees, ensuring that everyone is aligned with the company's mission and objectives. She oversees the management team, delegates responsibilities, and fosters a positive and productive work culture. Mina is responsible for financial oversight, including budgeting, financial planning, and ensuring the company's financial health and stability. Since Carbonova is a pre-revenue startup, Mina’s main objective is balancing the company’s financial runway with the advancement of its ground-breaking technology to commercialization. Most recently, Mina led Carbonova in successfully closing its SAFE equity financing in an oversubscribed round with $6 million raised. The Company intends to use the net proceeds from the financing to advance its strategy towards building its first commercial demonstration unit here in Alberta.  A large part of Mina’s job is to build and maintain relationships with key stakeholders, communicate the company's vision and performance, and address concerns or issues as they arise.  Mina works closely with the Alberta and Canadian governments to represent our province and country on an international stage and to build business relationships between our growing clean-tech sector and industry around the globe.

Kirk Zembal, Co-founder, Blindman Brewing

Kirk Zembal is the co-founder of Blindman Brewing out of sunny Lacombe, Alberta. Blindman Brewing, like their namesake river, meanders; through beer styles and brewing techniques. They are on a bit of a hot streak as the current Brewery of the Year and Best in Show winners at the Alberta Beer Awards, as well as winning a 2023 Emerald Award for their environmental work using a new technology to capture and reuse CO2 produced during fermentation. They also recently won Best of Show for Dwarf Sour Cherry at the 2023 Canadian Brewing Awards and Brewery of the Year at the 2024 Canadian Brewers Choice Awards. They believe in being at the forefront of new and creative endeavours and in doing things just because folks tell them it can't be done. A 2023 Nuffield Agriculture Scholar, Kirk also blew the engine on their '79 van, The Dream Machine, on their first delivery run so now they drive in shiny new vehicles with no souls.

The Emerging CCUS Leader Award acknowledges an up-and-coming individual whose efforts have already made a significant contribution to their organization, industry or community that go above and beyond their normal day to day duties. The nominee should stand out in terms of strategic thinking, leadership, community involvement and the pursuit of excellence in their field. The nominees in this category will have been in the industry for 5 or less years. Self-nominations are permitted in this category.

The nominees are:

Laura Gillions, VP Marketing & Public Affairs, Carbon Clean

Laura joined Carbon Clean in June 2020 and as a member of the Group Leadership Team is responsible for providing strategic direction and engaging thought leadership, resulting in high quality opportunities assisting the company’s ambition to decarbonize over a billion tonnes of CO2 per year. She is passionate about communications and is an experienced marketing and business development leader, with a successful two-decade long career spanning both central government and private industry.

Shaihroz Khan, Co-Founder, Carb Neutral Inc.

Shaihroz Khan is the Founder and CEO of CarbNeutral Inc., a pioneering enterprise focused on innovative carbon capture, utilization, and storage (CCUS) technologies in nickel mineral processing. Based on his groundbreaking Ph.D. research at the University of Toronto, Shaihroz has developed methods to utilize CO2 emissions to enhance the beneficiation of critical minerals such as nickel. His expertise in the CCUS domain, strategic vision, leadership, and community involvement have already made a significant impact, positioning his company at the forefront of the CCUS landscape.

Grace Meikle, Technology Impact Director, Emissions Reduction Alberta

Grace is technology expert with more than a decade of experience scaling up clean energy innovation. She has worked in diverse roles ranging from field work at oil rigs and nuclear labs, to business development, and project management, with a focus on delivering new technologies to market. She is a strong writer, communicator, and relationship manager. Her experience in Alberta's cleantech sector is focused on hydrogen, CCUS, nuclear energy, and overall industrial transformation. Previously, she has lived and worked overseas in Japan, India, and China, and have language skills in Chinese, Spanish, and Japanese.

Sarah Petrevan, Vice President, Industrial Decarbonization and Sustainability, Cement Association of Canada

Sarah is a leader in the conversations and actions required to achieve decarbonization of heavy industry while remaining competitive in a carbon-constrained world. By playing a leadership role in defining the path to net-zero for Canada’s cement and concrete industry, through then publication, Concrete Zero, Sarah has presented credible, transparent pathways in an accountable plan that clearly articulates the need for technology solutions. This includes the vital and necessary role that carbon capture, utilization and storage plays in the cement industry’s transition ? CCUS will be responsible for 28% of the cement and concrete industry’s emissions reductions on the path to net-zero.

Mac Walton, Manager, Policy and Strategic Initiatives, International CCS Knowledge Centre

As Manager, Policy and Strategic Initiatives, Mac leads a team who provide comprehensive analytical, strategic and operational guidance to the Knowledge Centre and its clients on CCUS industry and policy developments. Mac connects the lessons learned in building, operating and optimizing CCUS facilities to the challenges of navigating the regulatory and incentive frameworks, assisting governments and businesses looking to get CCUS projects to final investment decisions. Mac is passionate about the economic opportunities that CCUS projects represent for rural communities as we work to drastically reduce emissions across our economy.  Prior to joining the Knowledge Centre in 2023, Mac worked with Prairies Economic Development Canada as a Senior Business Officer managing the Alberta Indigenous Clean Energy Initiative and administering community economic development projects. Mac is a member of the Metis Nation of Alberta and has experience as an educator and as a management consulting working and living in First Nation and Metis communities in Northern Alberta.

The Innovation in CCUS Technology Award recognizes highly disruptive innovations in equipment, controls or digital technology that have had a major impact on energy efficiency, emissions, economics, scheduling, or quality. All technologies in this category should be at either: initial production and rollout, full production mode, or commercial (post-pilot).

The nominees are:

Carbon Clean

CycloneCC carbon capture technology

CycloneCC is a breakthrough cost-effective, space-saving solution. Our ‘Lego-block’, ‘plug and play’ modular design enables small-to-midsize industrial emitters to stagger their carbon capture investment.   The technology to catalyse the deployment at these sites is now ready and process intensification and standardisation are key.     At the heart of this innovative technology are rotating packed beds, which use centrifugal force to increase the efficiency of the carbon capture process.

Carbon Upcycling Technologies

Carbon Upcycling MACE Technology

Carbon Upcycling has developed a commercial decarbonization and carbon capture & utilization solution for the world’s hardest-to-abate industries. The company’s all-electric, low-energy technology captures point-source CO2 emissions in industrial waste byproducts, enhancing them into a low-carbon alternative to conventional cement blends. The innovative ex-situ approach accelerates the natural process of carbon mineralization from hundreds of years to hours, allowing for scalable full-stack emissions reduction through carbon capture and abatement while enabling a circular economy.    Carbon Upcycling has been commercially operating in Western Canada since 2021, with material from its facility deployed across Alberta’s built environment. It is now developing its First-of-a-Kind commercial unit at Canada’s largest cement plant with CRH and its first international project in the UK with Cemex.

Carbonova Corp.

Carbonova Fiber

Carbonova has developed a unique chemical process with novel catalysts that generate high-purity Carbon Nanofiber (CNF) from a combination of catalytic reactions. This innovative technology is flexible and scalable, with lower energy demand and cost compared to traditional methods. The company uses specialized catalysts and equipment in a continuous process at medium-range pressure with minimized energy consumption. In a patented catalytic conversion technology, methane reacts with captured CO2 from the flue gas stream of large emitters. By using waste heat at the host plant, the mix is converted into syngas which is then directed to a carbonization stage. The exothermic reaction that follows converts syngas CNF material. The energy requirement is considerably lower than competitors as a result of the exothermic reaction requiring less energy, a unique catalyst design, and a waste heat recovery system.  CNF is a product that is appealing for numerous industrial applications to reduce carbon footprint and represents a form of utilization that creates a valuable product.

CERT Systems

CO2 Electrolysis for High Value Chemical Production

CERT Systems produces essential chemicals without fossil fuels. Using a process called CO2 electrolysis, carbon dioxide emissions from industry or from the atmosphere can be converted into high value chemicals such as ethylene. This process uses a catalyst and clean electricity to split CO2 molecules and reform them into basic hydrocarbons that are conventionally made from fossil fuels.

Halliburton

Tubing Retrievable Safety Valve for Carbon Storage Applications

Tubing Retrievable Safety Valves (TRSV's) are a key part of a completion system.   With the increase in activity there was a need to develop a version that could handle the unique environment that comes with storing CO2 underground.   The main challenge was creating a version that could function at a temperature down to -35 deg. C and also be able to survive a temperature down to -78.5 deg. C.   In working with a consortium of operators to define the parameters of the project we were able to create a new TRSV that can meet the needs of the industry.

Mantel Capture

High Temperature Molten Borate-based Carbon Capture

Mantel’s innovative technology leverages the unique properties of molten borates for carbon capture in high-temperature industrial settings. Unlike traditional carbon capture methods that primarily use amine-based solvents at lower temperatures, Mantel’s approach captures CO2 directly from industrial flue gases at elevated temperatures, significantly reducing the energy penalty associated with cooling and reheating processes. This method not only enhances efficiency but also improves the economic feasibility of carbon capture by lowering operational costs.

Nuada

Nuada's MOF-Based VPSA Carbon Capture Technology

Nuada is a pure-play carbon capture technology provider that is poised to decarbonize heavy industries through its next-generation technology. The company builds energy-efficient filtration machines that capture CO2 from industrial off-gases, empowering emitters to reduce their carbon footprint with minimum impact on their bottom line. Despite the imperative role of carbon capture in decarbonizing hard-to-abate industrial sectors, the deployment of the technology falls behind the necessary schedule to meet global climate mitigation targets. The current go-to CO2 capture methods are based on liquid amine solvents and energy-intensive processes that pose a significant cost barrier to the economic viability of carbon capture projects. Nuada has developed a next-generation point-source capture technology that redefines carbon capture and addresses the energy, cost, and integrational challenges of conventional solutions. The technology combines advanced solid sorbents, named Metal-Organic Frameworks (MOFs), with mature vacuum pressure swing adsorption (VPSA) technology to enable the separation of CO2 from flue gases, using pressure rather than heat. This combination represents a step change in carbon capture innovation and yields a process that slashes the associated energy penalty by up to 80% compared to incumbent solutions and significantly reduces the cost of capture. Nuada’s technology is an end-of-pipe, electrically driven solution that can be easily retrofitted into industrial plants with minimum process modifications. Nuada built the first-of-its-kind MOF-based VPSA plants which are now being deployed at a pilot scale by industry leaders within the cement and waste-to-energy sectors. Backed by the Global Cement and Concrete Association (GCCA), Nuada collaborates with leading cement producers to deploy the technology as a cornerstone solution for low-carbon cement production. The successful demonstrations in cement, waste-to-energy, and other sectors such as lime, steel, and blue hydrogen, fast-track the wide commercialisation of Nuada’s technology and accelerate industrial decarbonisation through a vital energy-efficient and cost-effective solution.

Svante

Svante Technologies Inc.

Svante manufactures solid sorbent-based nanoengineered filters and industrial contactors that capture and remove carbon dioxide (CO2) from industrial facilities and the air, effectively stopping the greenhouse gas from contributing to climate change. Their novel approach to capturing CO2 is scalable, environmentally responsible, and commercially available today.