Scale Inhibitors

Deposits Not Welcome

Scale inhibitors are highly specialized chemical formulations designed to disrupt the crystallization process of mineral salts such as calcium carbonate, particularly in boiler and cooling systems with a wide range of operating conditions.

These products are tailored to the site process chemistry to ensure that deposits do not build up on the surfaces of pipework and heat exchangers, creating an insulating layer. Prohibiting scale build-up enhances the overall efficiency, reliability, and longevity of process equipment with the added benefit of saving energy and minimizing the frequency of cleaning and maintenance.


The Gradiant Difference

Our experts bring their deep understanding of technologies, applications, and chemistry to develop a complete and integrated solution for your site. We work with you to understand your challenges and create the most effective scale inhibition program based on your needs.


Decreased Water Consumption

Scale inhibitors enable higher water recirculation in cooling and boiler systems. Properly implemented, they can increase cycles and decrease water usage by up to 20%.

Superior Energy Efficiency

As part of an overall treatment program, scale inhibitors improve heat transfer, reducing energy consumption by up to 5% in boilers and 30% in cooling systems.

Reduced Downtime

Proactive use safeguards against unexpected downtimes, enhancing operational continuity. Reductions in unplanned downtime can reach up to 30%, ensuring a reliable process.

Without scale inhibitors

With scale inhibitors

Featured success stories

SPEAK WITH an expert

Ready to explore the full potential of CURE Chemical solutions for your site?

Let us know and an expert will be in touch.

Gradiant is proud to introduce ForeverGone – the industry’s only all-in-one PFAS removal and destruction solution

Please fill out the form to download the whitepaper

Please fill out the form to download the whitepaper

Please fill out the form to download the whitepaper

Lorem Impsum

Lorem ipsum 

Lorem ipsum dolor sit amet, consectetur adipiscing elit. Ut elit tellus, luctus nec ullamcorper mattis, pulvinar dapibus leo.