ES 44 | Gas analysis for cleaner industrial prosesses
Clean air
Our IP & E team is at the forefront of the drive to empower a cleaner world. Using our extensive applications expertise, we operate a three-phase clean air strategy that focuses on key process areas, helping to reduce emissions and mitigate the damage caused by harmful pollutants:
Combustion efficiency – controlling combustion, which is an important process reaction, reduces emissions of key pollutants including NOx, SOx, carbon monoxide( CO) and carbon dioxide( CO 2
), lowers fuel consumption, and improves safety.
Gas cleaning – safely removes harmful substances from process gases that might otherwise be emitted by the plant. Examples include DeNOx treatments and carbon capture.
Emissions monitoring – measures pollutants within the flue gas to determine process efficiency and ensure compliance with the necessary regulations.
See our solutions: servomex. com / clean-air-product-range
Carbon capture
A key part of decarbonization strategies, carbon capture and storage( CCS) technologies are used to collect carbon dioxide( CO 2
) emissions from power plants and petrochemical processes, transporting it by pipeline or ship for underground storage – for example in empty oil and gas fields.
These captured CO 2 emissions can be used to manufacture fuels, carbonates, polymers, and other chemicals, contributing to a circular economy – this is known as carbon capture and usage( CCU).
The goal of both CCS and CCU is to reduce the amount of CO 2 that enters the atmosphere. CCS and CCU can be categorized by the method and placement of the carbon capture technology, which falls into three main types: pre-combustion, oxyfuel combustion, and post-combustion capture.
These technologies can be supported by gas analysis measurements for quality control, safety, process efficiency, and emissions monitoring.
Once the CO 2 is captured, by any method, it is then compressed into a liquid and transported for storage.
Watch the video: servomex. com / ccs
13