Skip to main content

Do you want to avoid local overheating, production disturbances, and - in the worst case - even reactor shutdown?

Get to know ASLB-W. It is designed to replace currently used antistatic agents, which may come up with certain issues.

shutterstock_241882549_570x363

ASLB-W is the new polymerization process aid with antistatic function for being used in Spheripol technology for the manufacture of Polypropylene (complete product portfolio).

Click here for more information on ASLB-W

watch our free webinar

Clariant Image Webinar 2020

Do you want to minimize reactor fouling which may lead to production disturbances, and in the worst case even reactor shutdown? Increase the reliability of your operations with ASLB-W, the new long-term, food approved and non-toxic polymerization process aid.

Watch our recorded webinar and learn about the 3 reasons, why ASLB-W will make your polypropylene production fit for the future.

ASLB-W

PRODUCT BENEFITS AT A GLANCE

Clariant Icon Performance 2020

Performance Benefits

  • Suitable for all grade families
  • Neutralizes electrostatic charges of polymer in process
  • Controls activity of fine particles
  • Controls gas phase reactor activity
  • Offers excellent anti-fouling properties in gas phase reactors as well as in monomer degassing and recovery units
Clariant Icon Lorbeerkranz 2020

Reference Cases

  • Continuing successful use in various LyondellBasell plants
Clariant Icon non toxic 2020

Safe and Sustainable

  • Food-approved and suitable for medical applications
  • Free of environmental and health hazard labeling

Propylene Production

WITH SPHERIPOL TECHNOLOGY

Clariant Animation ASLB W EN 2020

WITH ASLB-W we ensure an efficient polymerization process without reactor fouling by

  • reduction of electrostatic charges of the polymers
  • control of the surface activity of small particles, minimizing agglomeration

It’s never too early

TO CHANGE TO THE BETTER CHOICE!

Depending on the grades produced, ASLB-W offers significant savings potential due to reduced fouling.

Contact us to learn more or to order your sample.