Carbon capture, utilization and storage

Carbon capture and storage (CCS) is an essential piece of the puzzle when it comes to reaching net zero. In fact, according to the IEA, we will need to increase our global carbon capture capacity to 1.6Gt CO2 by 2030 and continue raising it to 7.6Gt CO2 by 2050, if we are going to reach our goals on time.

That is why Alfa Laval is pioneering innovative solutions for more thermally efficient carbon capture, combining tried and true technology with brand new solutions. In fact, our broad portfolio of solutions can already reduce energy consumption in a CCS plant by up to 40%.



Accelerating cost-effective carbon capture

Alfa Laval heat exchanger technology has played a central part in over half of the world’s CCU/S plants. Our unique Alfa Laval Packinox plate-and-frame heat exchangers are enabling the development of sites that will facilitate the possibilities of carbon capture at large economies of scale. Read this story to learn more about the role heat transfer plays in carbon capture and how we are working with major process licensors and end-users to make it possible.

Learn more

Carbon capture with least opex and capex

Alfa Laval shared its expertise in recommendations on how to optimise the mass and heat balance of the process and equipment designs of a typical post-combustion CO2 capture unit. 

Download the report

Our solutions

Alfa Laval has a broad portfolio of heat exchangers to meet the energy-intensive demands of CCU/S applications. We can help you maximize energy recovery in a range of duties, including for lean/rich interchangers, the largest heat recovery duty in the process. We also offer solutions for minimizing energy and cooling water needs, while maximizing CO2 capture efficiency and reducing the cost for the compressor package and other process equipment.



Alfa Laval WideGap

WideGap gasketed plate-and-frame heat exchangers are tailor-made for low pressure condensation, taking advantage of a larger than normal channel gap to minimize pressure drop on the condensing side. Its unique design makes it possible to maximize condensing with the lowest possible amount of vapour going to the compressor. This reduces investment cost and power consumption in the compressor package. WideGap is therefore well suited to the specific stripper condensation services in carbon capture processes.

Learn more


Alfa Laval Compabloc

Operating as reboilers in solvent stripping and regeneration services all around the world, Compabloc is a technically proven solution that offers a wide range of advantages over traditional kettle or thermosiphon shell-and-tube heat exchangers. With its small footprint and flooded weight, Compabloc ensures minimized installation cost, while the low hold-up volume can reduce solvent inventory by up to 20%. What’s more, the possibility to operate with a lower steam saturation pressure and temperature, and with no dead zones, keeps solvent degradation to a minimum.

Learn more


Alfa Laval Packinox

A Packinox heat exchanger is ideal for the duties where maximum energy recovery is required. This unique heat exchanger makes it possible to design the most efficient processes, using only a single heat exchanger with minimum plot space. And Packinox’s welded construction offers the longest operating intervals and the safest solution for minimizing the risk of solvent leaks.

Learn more


Alfa Laval gasketed plate-and-frame heat exchangers

Our industrial line of gasketed plate heat exchangers is suitable for duties where high, cost-efficient heat recovery is required. They are also excellent for reducing cooling water consumption. With a design for long operation and minimal maintenance requirements, they set all new standards of efficiency, reliability and serviceability.

Learn more

Alfa Laval Niagara WSAC_modular_640x360.png

Alfa Laval Niagara Wet Surface Air Coolers

Niagara Wet Surface Air Coolers (WSAC®) are custom-built, closed-loop cooling and condensing systems that combine high performance, low operating costs, a compact size and reliable operation. Using air as the cooling media minimizes process outlet temperatures, which further minimizes the amount of vapour going to the compressor stage, while keeping it at a higher density. This ensures a low investment cost in the compressor package.

Learn more


Sustainable partnership

Contact us to learn more

Contact us today for more information about our sustainable solutions

Get in touch

Your information is stored and processed in accordance to our privacy and data protection policy.