CASE STUDY: Wastewater Aeration Global Treat Inc. Provided a Texas Wastewater Treatment Plant with an Air Induction System that resulted in a Cost-effective Solution to Maintaining the Required Level of... read more →
In high capacity chemical feed applications, when does it make sense to use a vaporizer as opposed to the typical direct gas withdrawal system? A vaporizer should be considered if... read more →
An "Eddy", in fluid dynamics, is defined as situation where a current of water is moving in a direction that is different from that of the main current. Global Treat,... read more →
SIMPLE ANSWER: It is effective, simple and contains no moving parts. Problems with Sulfuric Acid in Cooling Towers Sulfuric acid is often added to cooling tower water basins to maintain... read more →
Answer: Electrochlorination, which is the process of producing a non-hazardous chlorine equivalent. This is a process of electrolysis of brine/seawater solution which forms a sodium hypochlorite solution. With this solution,... read more →
Yes! And this is the reason for the development of DioxiGen Systems! The genesis of DioxiGen Systems resulted from a client lunch meeting with the East Rio Hondo Water Service... read more →
Let's begin by explaining how an Automatic Switchover System works. An Automatic Switchover System allows for a Chlorine Gas Feed Systems to automatically switch from an empty chlorine gas cylinder... read more →
Do you have a need to chemically chlorinate or dechlorinate discharged water or wastewater? Global Treat has a full line of Gravity Flow Tablet Feeders that allows gravity to feed... read more →
Answer: Lockable fiberglass shelters provide the peace of mind for storing chemicals and chemical feed equipment and are a cost effective way to protect your equipment in fully customizable shelters... read more →
Today we are highlighting our chlorine pressure reducing valve, the PRV-71H! Helping minimize chlorine gas from re-liquifying by controlling your downstream pressure issues! The PRV-71H is... read more →