Precision Industries at DEWA Innovation Week as part of its participation in UAE Innovation Month

Precision Industries is proud to have been selected by DEWA (Dubai Electricity and Water Authority) to showcase our latest innovation, the PI smart Adsorption chiller, during DEWA Innovation Week as part of UAE Innovation Month.

Our distinguished guest, HE Saeed Mohammed Al Tayer, the Managing Director and CEO of DEWA, visited our stand and had the opportunity to explore the cutting-edge technology developed by our team, led by Professor Ayman Al-Maaitah.

The PI smart Adsorption chiller is an air-cooled chiller designed to operate efficiently in high ambient temperatures of up to 55°C, as well as in high humidity conditions, all without the need for a wet cooling tower or wasteful water consumption. This innovative chiller is able to adapt to the ambient conditions and continuously optimize its efficiency and performance by modifying cycle modes and parameters.

By showcasing the PI smart Adsorption chiller at DEWA Innovation Week, we demonstrate our commitment to addressing environmental challenges and promoting sustainable solutions in the field of cooling technology. Our smart Adsorption chiller not only offers exceptional performance but also helps conserve precious water resources, making it a valuable contribution to the industry.

We extend our gratitude to DEWA for the opportunity to present our innovation during this significant event, and we look forward to further collaborations that will drive advancements in the energy and water sectors, ultimately benefiting both our clients and the environment.

HE Saeed Mohammed Al Tayer, Managing Director and CEO of Dubai Electricity and Water Authority has visited our stand and discovered PI new technology.
PI smart Adsorption chiller is an air-cooled chiller that operates at high ambient at 55 C and high humidity conditions without the need of wet cooling tower or wasting precious water resources. Also, it adapts to the ambient conditions and tracks the most optimum efficiency and performance by modifying cycle mode and parameters.