ThyssenKrupp AG

11/24/2021 | Press release | Distributed by Public on 11/24/2021 02:04

Climate-protecting EnviNOx® technology from thyssenkrupp Uhde saves up to 600,000 tons of CO2-equivalents per year in Switzerland

"The whole chemical industry faces the challenge of protecting the climate while growing profitably. With the realization of emission reduction solutions such as EnviNOx®, we are really making an impact", says Sami Pelkonen, CEO thyssenkrupp Uhde. "We focus on the development of sustainable solutions to make existing and new plants as environment-friendly as possible - up to completely climate-neutral chemicals such as green ammonia."

More than 200 million tons of CO2-equivalents saved in total
The EnviNOx® technology was originally developed for emission reduction in nitric acid plants and has already been installed in 35 chemical plants worldwide since the first installation in 2003. More EnviNOx® systems are already ordered from various customers and will be installed and commissioned during the next months. Since 1 kg of N2O in the atmosphere has the same impact on global warming as 265 kg of CO2 the currently reduced N2O emissions of all installed EnviNOx® systems worldwide are equivalent to 16 million tons of CO2 per year. For comparison: This is about the annual CO2 emissions of over 9400 small passenger cars. The so far reduced emissions cumulate to more than 200 million tons of CO2-equivalents, which is over 25% of Germany's yearly CO2 emissions.

About thyssenkrupp Uhde
thyssenkrupp Uhde combines unique technological expertise and decades of global experience in the engineering, procurement, construction and service of chemical plants. We develop innovative processes and products for a more sustainable future and thus contribute to the long-term success of our customers in almost all areas of the chemical industry. Our portfolio includes leading technologies for the production of basic chemicals, fertilizers and polymers as well as complete value-chains for green hydrogen and sustainable chemicals.