H2O Innovation Inc. announced it was awarded the engineering contract on a capital equipment project for the largest electric vehicle manufacturer in the US, as well as four new municipal and industrial capital equipment projects. These new contracts, totaling $3.2 million, will bring the Corporation’s Water Technologies & Services (“WTS”) sales backlog to $37.1 million. The Corporation has secured the engineering contract to design two identical reverse osmosis (“RO”) trains, each rated at 2,200 m3/day, for an electric vehicle manufacturing plant located in Texas. Upon successful completion of the engineering work, a purchase order for construction and delivery of the equipment should be issued to the Corporation. The first project is for an upgrade of the 7,500 m3/day Granbury Wastewater South Plant, in Granbury, Texas. The existing conventional activated sludge plant will be converted to a membrane bioreactor (MBR) facility with biological phosphorus removal. The new equipment builds on the plant’s current infrastructure, reducing the capital cost, and the upgrade is designed using the Corporation’s innovative flexMBR™ universal membrane system, which reduces lifecycle cost. The next project awarded to H2O Innovation is for a redesign and replacement of a failing MBR system at a school in the State of Maryland. The Corporation has been selected to make the necessary repairs and improve the durability of the wastewater system using ceramic membranes. The third project, an exciting first for H2O Innovation, is the award of a demonstration pilot for its novel SILOTM technology at an industrial customer in the Midwest US. The SILOTM platform was developed in-house as a simplified approach to MBR treatment for smaller applications and decentralized treatment facilities where installation costs, ease of operation, and low maintenance are key differentiators. Finally, H2O Innovation has secured a contract in Southern California for the supply of two RO demonstration units at the Hyperion Water Reclamation facility for long-term testing and public outreach. Each unit will be capable of producing up to 134 m3/day treating secondary MBR filtrate. This project reinforces the Corporation’s presence and experience in the critical water reuse market.