| CCUS T.EN™ is a suite of CANSOLV® -based post-
combustion carbon capture solutions offered by Technip Energies. Part of
Capture.Now™, Technip Energies’ strategic CCUS technology platform, the Canopy by T.EN™ concept aims to enable developers to de-risk their projects, be confident in their capture technology and meet their targets quickly, efficiently and affordably, regardless of scale, industry or location. From testing and piloting up to the world’s largest installations, Canopy by T.EN™ aims to cover the full range of capture project developers’ needs. Amine-based capture technologies, such as CANSOLV®
, are particularly suited to removing CO2
from dilute flue gas streams, including those produced from gas power generation. However, application of the technology at large scale historically presented challenges, which have required continuous learning and innovation from the industry to overcome.
Net Zero Teesside Power is a landmark project in the United Kingdom, expected to become one of the world’s first commercial scale gas-fired power stations with carbon capture, targeting capture of up to 2 million tonnes of CO2
per year.
The project aims to provide flexible, dispatchable low-carbon power, supporting the UK’s transition to a cleaner energy future. The Carbon Capture Alliance consortium led by Technip Energies, with GE Vernova and supported by infrastructure group Balfour Beatty, is expected to play an important role constructing a highly efficient combined cycle plant. It will be powered by a GE Vernova 9HA.02 gas turbine in single shaft configuration, which will integrate with a state-of-the-art carbon capture plant using Technip Energies’ Canopy by T.EN™ technology. In the United States, Technip Energies, together with Shell Catalysts & Technologies, have been awarded a front-end engineering and design (FEED) contract for a Canopy by T.EN™ capture project at Calpine’s existing natural gas fuelled Baytown Energy Center, which incorporates combined cycle and cogeneration technologies, employing three gas turbines, each with HRSG, plus a steam turbine. The capture unit will be designed to capture two million tonnes per annum of CO2
, representing 95% of the CO2
emissions from two of the three gas turbines. Calpine has a cost share agreement with the US Department of Energy Office of Clean Energy Demonstrations (OCED) for the capture project. “Our Baytown project is an important part of our far-reaching efforts to showcase the full potential of carbon capture and storage
Energy-from-waste
As well as pursuing applications of Canopy by T.EN™ in gas fired power plants, Technip Energies is also looking to provide innovative carbon capture technologies to the energy-from- waste sector. The energy-from-waste industry is on track to be incorporated into both the UK and EU emissions trading systems (ETS) from 2028, creating an enhanced focus on emissions reduction within this sector. The waste used as fuel in energy-from-waste facilities typically has a biogenic component. If this biogenic CO2
is
sequestered and permanently removed, then a negative offset is created, which can be further traded as a carbon credit.
Technip Energies has recently been awarded a FEED contract by Viridor for a CCS project at one of the United Kingdom’s largest EfW facilities. Located in Runcorn, UK, the project aims to
annually from the atmosphere. As part of the FEED study, Technip Energies will leverage its Canopy by TEN™ technology. The Runcorn project will play a crucial role in the regional decarbonisation strategy by providing a stable long-term baseload CO2
supply to the HyNet
industrial carbon capture cluster in north west England.
CCUS development projects to date
carbon to be captured and/or avoided
capture approximately 900 000 tonnes of CO2 per year, half of which will be from biogenic sources, effectively removing 450 000 tonnes of CO2
Viridor’s Runcorn EfW plant (©
photography@bigcheese.co.uk 2024)
as a critical emissions-reduction technology,” says Caleb Stephenson, EVP of Commercial Operations, Calpine.
“It was essential for us to find a partner who shares in our vision for decarbonised waste treatment and has the experience and expertise to work alongside us to develop the world’s largest carbon capture project for energy from waste,” said James Eyton, Head of CCUS at Viridor. Recently, Technip Energies has also been selected by Cory as a partner in its planned carbon capture and storage project at the Riverside 1 and 2 energy-from-waste plants in south east London, UK. This project will use CANSOLV®
tons of CO2
technology to capture over 1.4 million annually by 2030.
Leveraging experience
With multiple project awards, Technip Energies can point to an emerging leadership position as an integrated state-of-the-art CCUS solutions provider. And Technip Energies’ involvement in high profile carbon capture projects, such as the Runcorn and Riverside EfW plants, Net Zero Teesside Power, and Baytown, highlights the company’s commitment to providing innovative approaches for the net-zero trajectory, leveraging extensive experience in project design and execution along with Shell’s proven and industry leading CANSOLV®
CO2 capture technology.
PILOT 1.5 ktpa
Test anywhere anytime
C10 10 ktpa
C100 100 ktpa
Standardised sizes for smaller emitters
C200 200 ktpa
C+
Bespoke sizing & design
Any scale for any facility
Canopy by T.EN™: a suite of CANSOLV®-based post-combustion capture systems offered by Technip Energies
MARINE
optimised design
solutions
projects in FEED or EPC
clients across four continents
Technip Energies’ CCUS projects to date
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