CDTi coating expertise accelerate the carbon capture absorption process, and boost efficiency of Direct Air Capture systems. This means our Direct Air Capture monoliths can be deployed at scale and play a significant tole in reducing greenhouse gas emissions and mitigating climate change.
The use of CDTI coating technology in Carbon Capture Technology offers multiple advantages:
Our state-of-the-art technology allows Direct Air Capture systems to use sorbents that operate at lower temperatures, which reduces energy costs.
CDTi’s technology accelerates the CO2 capture process, allowing DAC systems to be smaller and more efficient, with lower capital and operating costs.
Our technology can also enhance the stability of the CO2 capture process, making it more reliable and less susceptible to interruptions.
CDTi’s adsorbent coated substrates can be made in a variety of sizes and shapes to meet the needs of different applications. They’re also easy to implement, which means you can quickly and easily scale up your DAC operations.
CDTi’s catalyst technology optimizes electrolysis and steam methane reforming, two vital processes in hydrogen production. This significantly improves the durability and efficiency of hydrogen production, reducing the cost of transitioning to a hydrogen-based future.
Steam methane reforming (SMR) is the most common process for producing hydrogen from natural gas. This process involves reacting methane with steam at high temperatures to produce hydrogen and carbon dioxide.
CDTi’s catalyst and coating technology can make SMR more efficient and reduce the production costs of hydrogen by facilitating more effective reactions, promoting the conversion of methane into hydrogen, and minimizing the formation of unwanted byproducts.
Electrolysis is a method employed to separate water molecules into hydrogen and oxygen through the application of electricity. While electrolysis offers a clean and sustainable way to produce hydrogen, it’s time and energy intensive.
CDTi technology reduces expensive metals, reducing the cost of electrolyzer systems. This makes electrolysis a more viable option for large-scale hydrogen production, which not only helps the environment but also contributes to lowering the overall costs involved in producing hydrogen.
CDTi continues to develop carbon capture technology, where you can expect to see even more innovative Direct Air Capture solutions emerge.
Partner with CDTi to reduce your carbon footprint and achieve your sustainability goals. We offer a comprehensive selection of technology and services backed by a team of experienced professionals. Contact us today to learn more and take the first step toward a cleaner future.
The development and deployment of CDTi’s technology requires a skilled workforce. If you’re passionate about sustainability and innovation, we encourage you to explore our open positions. CDTi offers a variety of opportunities in engineering, design, manufacturing, and operations.
CDTi continues to develop carbon capture technology, where you can expect to see even more innovative Direct Air Capture solutions emerge.
Partner with CDTi to reduce your carbon footprint and achieve your sustainability goals. We offer a comprehensive selection of technology and services backed by a team of experienced professionals. Contact us today to learn more and take the first step toward a cleaner future.
The development and deployment of CDTi’s technology requires a skilled workforce. If you’re passionate about sustainability and innovation, we encourage you to explore our open positions. CDTi offers a variety of opportunities in engineering, design, manufacturing, and operations.
CDTi continues to develop carbon capture technology, where you can expect to see even more innovative Direct Air Capture solutions emerge.
Partner with CDTi to reduce your carbon footprint and achieve your sustainability goals. We offer a comprehensive selection of technology and services backed by a team of experienced professionals. Contact us today to learn more and take the first step toward a cleaner future.
The development and deployment of CDTi’s technology requires a skilled workforce. If you’re passionate about sustainability and innovation, we encourage you to explore our open positions. CDTi offers a variety of opportunities in engineering, design, manufacturing, and operations.
CDTi has more than 30 years of experience in developing and coating catalysts. With our extensive portfolio of fully developed and functional catalytic technologies, we have the unique expertise to create a solution for your specific application.
If you’re interested in reducing your environmental impact and improving your hydrogen production process, contact our engineers today.
CDTi is driving toward a cleaner future by creating a comprehensive suite of catalyst technology to reduce emission and improve fuel efficiency in a variety of markets, including heavy duty trucking, agriculture, mining, and more.
CDTi has more than 30 years of experience in developing and coating catalysts. With our extensive portfolio of fully developed and functional catalytic technologies, we have the unique expertise to create a solution for your specific application.
If you’re interested in reducing your environmental impact and improving your hydrogen production process, contact our engineers today.
CDTi is driving toward a cleaner future by creating a comprehensive suite of catalyst technology to reduce emission and improve fuel efficiency in a variety of markets, including heavy duty trucking, agriculture, mining, and more.