When it comes to “carbon neutrality”, I believe everyone will think of technologies such as reducing carbon emissions and energy transformation. But even if the promotion of clean energy is in full swing, in production and life, there are still some “have to produce” carbon dioxide, where should they go?

This requires the use of carbon capture technology to “capture” the carbon dioxide produced in the production process and properly use or store it, thereby helping to reduce carbon emissions.

FS-CPCHAS-0002 How does it work? And how to apply the landing? Today, a few questions will take you closer to carbon capture technology and help you quickly become a sustainable “activist”!

01 How is carbon capture achieved?

As “carbon catcher”, “carbon emitters” such as liquefied natural gas, hydrogen plants, steel plants, cement plants, power plants, and petroleum refining plants are all “stages” for carbon capture technology to play a big role. How to capture carbon dioxide in the production process is undoubtedly the most critical problem.

At present, there are two common methods of carbon capture:

02 What scenarios does it apply to?

Although most companies face equipment and construction costs in FS-CPCHAS-0002 order to process carbon dioxide such as compression and transportation, carbon capture technology has great environmental and value potential when looking at the overall sustainability process:

For example, for industries that cannot achieve complete decarbonization in the short term, carbon capture can help them achieve their carbon reduction targets in the transition phase without affecting production. For some industries and regions, compared with other ways to reduce carbon emissions, low-cost solutions based on carbon capture technology may be more efficient and economical, and is a more appropriate choice for carbon reduction.

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03 What carbon capture technologies do we have today?

It is precisely because of the advantages of carbon FS-CPCHAS-0002 capture technology in environmental benefits and economic benefits, Honeywell has been continuously promoting its “landing bloom” for many years.

For the two pre – and post-combustion capture methods mentioned above, we have developed a solvent carbon capture technology that includes UOP ASCC chemical solvent and SeparALL™ process physical solvent.

And variable pressure/temperature adsorption (PSA/TSA) systems are typical “blue hydrogen application technologies” with carbon dioxide fractionation and membrane separation technologies. Advanced solvent carbon capture technology, designed for post-combustion flue gas, captures FS-CPCHAS-0002 more than 95% of CO2! *

Thanks to these technologies, Honeywell now has excellent carbon dioxide capture capabilities, and based on these proven process technologies and services, we have also supported a number of clean energy and carbon capture projects around the world – such as last year, Honeywell partnered with Sinochem’s SAN Ao Chemical Technology Co., LTD. To help its clean coal hydrogen production, and carbon capture and utilization demonstration project landing and promotion.

The pursuit of sustainable development is also a path of continuous enhancement and innovative solutions, even in the face of many challenges, there are always people who must persevere. For a cleaner future and high-quality development, Honeywell is willing to be a sustainable “activist” and “explorer”, uphold the sustainable development strategy, and help more green technologies and solutions come into being!