Building a truly sustainable future requires and overhaul of complex processes, across the globe.
The pressure to use clean energy to power industrial operations and consumer services is building. However, the industry is still struggling with the challenge of how to do this at scale and in a cost-effective way.
Renewables have been a key focus for many years now, but each source has its limitations. If we are to reach net zero carbon emissions by 2050, we need to harness clean power that is practical across production, storage, delivery and usage.
Pall’s holistic approach unlocks critical solutions— to enable a greener planet and better world.
With global greenhouse gas emissions from transportation growing faster than any other sector, the use of advanced biofuels is an alternative to reducing our dependence on petroleum-based fuels and reducing climate change. Filtration technology selection is a critical component in production.
By processing organic waste, biogas offers an alternative to natural gas. This reduces waste in landfills, and mitigates methane emissions otherwise escaped. From installation to production, having cost-effective, reliable filtration solutions are essential to the adoption of this cleaner alternative.
Carbon capture, utilization and storage, or CCUS, is an important emissions reduction technology that can be applied across the energy system to achieve net-zero targets. Each capture and utilization approach has unique filtration and separation needs that can be addressed using Pall technologies.
Materials science is at the foundation of filtration, separation and purification
The race to a zero-carbon future is on.
Whether it’s attaining “net zero” emissions through renewable resources like green hydrogen or getting more electric vehicles on the road, Pall is ready to help with the transition to greener technologies.