How can the destruction of Ozone Depleting Substances (ODSs) and Synthetic Greenhouse Gases (SGGs) be conducted with econ’s new technology PyroPlas?
The continual surge in awareness of climate change and its impacts continue to drive governments and private sectors to further their efforts to improve the ozone layer and the global climate. The strengthened global response from the Paris Agreement clearly demonstrates an unified continual commitment to limit global temperature increase. This commitment certainly encourages further development of policy and initiatives in all sectors to take transparent and active action in improving practises ranging from investing in methods to minimise their emissions to eliminating emissions altogether.
The excess and redundant destruction of Ozone Depleting Substances (ODSs) and Synthetic Greenhouse Gases (SGGs) makes a significant impact to the threat of climate change. These substances have significant higher ozone depleting and global warming potentials, and if emitted, significantly contribute to climate change. Elimination of these substances remove the risk of intentional and unintentional release of these high impact substances to our environment.
econ industries’ PyroPlas utilises argon plasma arc technology to completely destroy and disintegrate these complex ODSs and SGGs with several facilities in operation all over the world. The PyroPlas is an approved technology by the Technical and Economic Assessment Panel (TEAP) of the Montreal Protocol Parties which sets the standards required for the commercial destruction of ODSs.
Our PyroPlas plants are designed to:
- Consistently and transparently achieve high destruction efficiency >99.9999%
- Fully automated operation providing an extremely safe operating environment with minimal operator intervention
- No risk of emissions
- Low capital & operating costs
- Simple deployment with small footprint
Looking for a sustainable, proven solution to your halons, CFCs, HCFC and other ODSs? Email us on firstname.lastname@example.org.