News
Steve Kloos of Burn Ventures shared more about the company's decision to invest in Aqua Membranes. Learn more about the reason behind this decision.
Printed Spacer Technology® from Aqua Membranes has proven to be a game-changer for the semiconductor manufacturing industry. With unmatched substantial energy savings and improved membrane longevity, this technology supports environmental goals and offers a cost-effective solution for large-scale operations, demonstrating its scalability and practicality.
View October's edition of Aqua Membranes News. From an update on our Series B funding round to an intro to our new Business Development Manager. Check it out.
Dedicated to innovation that drives sustainability, Aqua Membranes today announces it has secured an additional round of funding intended to expand company development and production of its reverse osmosis membrane elements with Printed Spacer Technology®.
At Aqua Membranes, we understand our customers' concerns and want to assure you that our printed spacers are designed to enhance performance without introducing unnecessary risk. In this article, we'll explore how printed spacers work, address some common concerns, and ultimately discuss the real risk of not trying something new.
Aqua Membranes completed another installation with its membrane elements in Late July. The customer is a large Southeast beverage plant looking to improve its sustainability...
When it comes to reverse osmosis and desalination, most people think of large coastal plants turning seawater into ...
Aqua Membranes COO, Syed Shah had the pleasure of attending the Imagine H2O Startup Summit, a gathering of innovators and leaders dedicated to addressing global water challenges.
ALBUQUERQUE, April 30, 2024 – Dedicated to innovation that drives sustainability, Aqua Membranes has been ...
Welcome to April's edition of Aqua Membranes News where we share what's new in the world of Printed Spacer ...
Join us at the upcoming AMTA Membrane Technology Conference where CJ Kurth will be presenting a groundbreaking talk titled "Influence of Feed Channel Design on Membrane System Fouling Rates."
