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Revolutionizing Carbon Capture, Utilization, and Storage (CCUS)

Atlas Copco vacuum pumps play an important role in the emerging Carbon Capture technologies.

As one of the world's leading industrial equipment manufacturers, Atlas Copco is at the forefront of the movement to enable the transformation to a low-carbon society. Our innovative and intelligently designed vacuum solutions drive efficiency by increasing our customers’ productivity and reducing production costs through energy savings and connected 

As one of the world's leading industrial equipment manufacturers, Atlas Copco is at the forefront of the movement to enable the transformation to a low-carbon society. Our innovative and intelligently designed vacuum solutions drive efficiency by increasing our customers’ productivity and reducing production costs through energy savings and connected 

As one of the world's leading industrial equipment manufacturers, Atlas Copco is at the forefront of the movement to enable the transformation to a low-carbon society. Our innovative and intelligently designed vacuum solutions drive efficiency by increasing our customers’ productivity and reducing production costs through energy savings and connected 

As one of the world's leading industrial equipment manufacturers, Atlas Copco is at the forefront of the movement to enable the transformation to a low-carbon society. Our innovative and intelligently designed vacuum solutions drive efficiency by increasing our customers’ productivity and reducing production costs through energy savings and connected Industry 4.0 ready pumps and systems. The use of the revolutionary Variable Speed Drive (VSD) technology in our vacuum pumps enables our customers to increase their energy efficiency and reduce carbon-dioxide (CO2) emissions.

Ambitious global goals have led to technological innovation and ground-breaking research in the race to net zero. Carbon capture, utilization, and storage is one result of these efforts. Critical to combating climate change and reduced greenhouse gas emissions, Atlas Copco are supporting companies to establish this technology by offering solutions that use our 

Ambitious global goals have led to technological innovation and ground-breaking research in the race to net zero. Carbon capture, utilization, and storage is one result of these efforts. Critical to combating climate change and reduced greenhouse gas emissions, Atlas Copco are supporting companies to establish this technology by offering solutions that use our 

Ambitious global goals have led to technological innovation and ground-breaking research in the race to net zero. Carbon capture, utilization, and storage is one result of these efforts. Critical to combating climate change and reduced greenhouse gas emissions, Atlas Copco are supporting companies to establish this technology by offering solutions that use our 

Ambitious global goals have led to technological innovation and ground-breaking research in the race to net zero. Carbon capture, utilization, and storage is one result of these efforts. Critical to combating climate change and reduced greenhouse gas emissions, Atlas Copco are supporting companies to establish this technology by offering solutions that use our clean, energy efficient vacuum pumps and systems.

Carbon capture, utilization, and storage (CCUS)

The current efforts of manufacturers to reduce their environmental impact may not be enough, which is why Carbon Capture, Utilization and Storage (CCUS) technologies have the potential to play a vital role moving forward.

CCUS encompasses a suite of established and emerging technologies involving the capture of CO2 contained in the atmosphere and oceans as a result of industrial processes, power generation and many other sources. Captured CO2 can then be transported and stored to make it available again for industrial processes such as producing carbonated beverages or enhanced oil recovery. There are also projects to use captured CO2 for the production of next generation eFuels, reducing fossil fuel dependency.

Carbon capture

Carbon capture involves using different technologies to separate CO2 from industrial exhaust channels or directly from sea water or the atmosphere. These include chemical solvent-based, physical solvent-based, adsorption-based, and even cryogenic carbon capture. Vacuum pumps play a vital role in these technologies by providing the low-pressure environment required for efficient gas separation, compression, and purification.

Atlas Copco vacuum pumps and systems enable efficient CO2 separation in various carbon capture methods:

Post-combustion capture

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's 

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's 

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's 

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's GHS VSD+ oil-sealed screw vacuum pump and larger size

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's 

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's 

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's GHS VSD+ oil-sealed screw vacuum pump and larger size

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's GHS VSD+ oil-sealed screw vacuum pump and larger size

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's 

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's GHS VSD+ oil-sealed screw vacuum pump and larger size

This process involves the capture of carbon after the combustion of fuel and air to produce flue gas. Vacuum pumps are needed to separate CO2 from flue gases in power plants and industrial facilities after combustion. Large flows are required, which is why Atlas Copco's GHS VSD+ oil-sealed screw vacuum pump and larger size AWS and AWD series liquid ring pumps ensure efficient performance, high reliability and low maintenance in these applications.

Direct air capture

A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco dry screw vacuum pumps combined with our range of A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco dry screw vacuum pumps combined with our range of A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco dry screw vacuum pumps combined with our range of A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco dry screw vacuum pumps combined with our range of A liquid absorbent material is used to trap CO2 content of a flue gas. The liquid is then degassed by heating and applying vacuum. Alternative technologies use membranes to separate CO2 out of flue gas, membrane filtration can be done under pressure and/or vacuum. Atlas Copco dry screw vacuum pumps combined with our range of mechanical boosters offer the advantage of dry pump mechanism delivering captured CO2 without seal liquid contamination.

Sea water degassing

The sea waters are capable of trapping large amounts of CO2 from atmosphere. Different technologies are in study for the removal of CO2 from seawater and all of them rely on vacuum. The harsh offshore environment and process conditions require state of the art and robust vacuum solutions. Atlas Copco liquid ring

The sea waters are capable of trapping large amounts of CO2 from atmosphere. Different technologies are in study for the removal of CO2 from seawater and all of them rely on vacuum. The harsh offshore environment and process conditions require state of the art and robust vacuum solutions. Atlas Copco liquid ring

The sea waters are capable of trapping large amounts of CO2 from atmosphere. Different technologies are in study for the removal of CO2 from seawater and all of them rely on vacuum. The harsh offshore environment and process conditions require state of the art and robust vacuum solutions. Atlas Copco liquid ring

The sea waters are capable of trapping large amounts of CO2 from atmosphere. Different technologies are in study for the removal of CO2 from seawater and all of them rely on vacuum. The harsh offshore environment and process conditions require state of the art and robust vacuum solutions. Atlas Copco liquid ring AWS and AWD series coupled with our range of mechanical boosters represent an optimal choice.

CO2 Compression and Purification, Utilization and Storage

After capturing CO2, it must be compressed and purified to meet storage or utilization requirements. Vacuum pumps are used in conjunction with other separation technologies to remove impurities from captured CO2. Atlas Copco's portfolio of vacuum pumps contribute to multi-stage compression systems, ensuring consistent and efficient CO2 compression storage and further utilization in industrial processes.

 

By making use of Atlas Copco’s innovative, robust and intelligent vacuum solutions, our CCUS customers have the added benefit of lower operating costs, high reliability and reassurance of support from a 

After capturing CO2, it must be compressed and purified to meet storage or utilization requirements. Vacuum pumps are used in conjunction with other separation technologies to remove impurities from captured CO2. Atlas Copco's portfolio of vacuum pumps contribute to multi-stage compression systems, ensuring consistent and efficient CO2 compression storage and further utilization in industrial processes.

 

By making use of Atlas Copco’s innovative, robust and intelligent vacuum solutions, our CCUS customers have the added benefit of lower operating costs, high reliability and reassurance of support from a 

After capturing CO2, it must be compressed and purified to meet storage or utilization requirements. Vacuum pumps are used in conjunction with other separation technologies to remove impurities from captured CO2. Atlas Copco's portfolio of vacuum pumps contribute to multi-stage compression systems, ensuring consistent and efficient CO2 compression storage and further utilization in industrial processes.

 

By making use of Atlas Copco’s innovative, robust and intelligent vacuum solutions, our CCUS customers have the added benefit of lower operating costs, high reliability and reassurance of support from a 

After capturing CO2, it must be compressed and purified to meet storage or utilization requirements. Vacuum pumps are used in conjunction with other separation technologies to remove impurities from captured CO2. Atlas Copco's portfolio of vacuum pumps contribute to multi-stage compression systems, ensuring consistent and efficient CO2 compression storage and further utilization in industrial processes.

 

By making use of Atlas Copco’s innovative, robust and intelligent vacuum solutions, our CCUS customers have the added benefit of lower operating costs, high reliability and reassurance of support from a global service network ensuring optimal system performance.

Energy-saving solutions

Sustainability is Atlas Copco's middle name. Every vacuum system we build is optimized to offer the best energy efficiency for your installation. you also benefit from a vacuum system that consumes less energy and helps you to achieve your own sustainability goals.

Reliable, global service network

Step 1 is choosing a reliable pump that delivers consistent performance and uptime. Step 2 is making sure you can count on a global service network that helps you to maintain your equipment. At Atlas Copco we have service centers in every corner of the world. Our proactive maintenance programs and full after-market support allows you to keep your production up and running, whatever happens.

Low cost of ownership

Reliability and a low cost of ownership, that's what counts. Your product's end quality relies on it. Our vacuum pumps combine a made-to-last design with the lowest running cost. So, you benefit from a smooth production with a low energy bill.

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