2-Chemical Chlorine Dioxide Reaction
The Electricide CD2D and CD2C acid-chlorite 2-chemical chlorine dioxide generators represent the highest quality, performance and accuracy available in 2-chemical chlorine dioxide generators. The operation principle is as per the following reaction:
5NaClO2 + 4HCl → 4ClO2 + 5NaCl + 2H2O
Dilute Chemical Generators for Lower Capital Cost.
The CD2D generators utilize Electricide-DC (7.5% sodium chlorite) and Electricide-DA (9% hydrochloric acid) and range in capacity from 40-800 g/hr (2.4 – 42.4 lb/day). These chlorine dioxide generators are ideal for applications with low water flow and therefore small ClO2 dose and reactant chemical consumption.
Concentrated Chemical for Lower Running Cost.
The CD2C generators utilize Electricide-P1 (31% sodium chlorite), 33% hydrochloric acid (and dilution water) and range in capacity from 150-10,000 g/hr (7.9 – lb/day).
Chemical supply can be from bulk chemical storage tanks or drums/totes (1,000L IBC’s). Dioxide Pacific supplies the chemicals required and has stock at all locations:
Electricide-DC 7.5% sodium chlorite
Electricide-DA 9% hydrochloric acid
Electricide-P1 31% sodium chlorite
33% hydrochloric acid
Submerged, Titanium water flushed reactor.
The CD2D and CD2C generator reactor is in 2 parts. The outer chamber and inner reactor are constructed from Titanium. Titanium is 100% resistant to chlorine dioxide, chloride and acid conditions, giving you long service life. The inner reactor is submerged inside the outer chamber in the dilution water. Dilution water flow is on the outside of the reactor, so any leaks from the reactor are captured in water and flushed immediately away into your process. There is no possibility that a leak of chlorine dioxide gas can enter the plant room, as long as the dilution water is flowing. This represents the highest safety available.
Wall mount backboard or floor mount cabinet for optimal chemical resistance. The smaller generators are on a backboard and the larger generators on a floor mount cabinet. Easy to install with long life and resistance to corrosion.
Flow monitoring for dosing pumps.
To ensure chemical is always being dosed at the correct rate for the reaction. If one chemical has missing flow for x pulses, the generator stops and an alarm is raised.
Inbuilt calibration cylinders.
The generator can be accurately calibrated without operator exposure to either acid or chlorite. Just open and close a few valves for this procedure.
Pulse frequency controlled dosing pumps.
Standard high quality metering pumps have power on all the time and are speed controlled via pulse frequency for accurate turndown of up to 200:1.
Chlorine dioxide generated at the reactor is immediately diluted with water to less than 3,000 ppm (0.3%), which is safe for transportation to the dosing point.
Inputs for chemical level switches (2 stage or 1 stage).
Display of chemical level status on controller and warning if low, shutdown if empty
Touchscreen for flexible operation of plant including control options: Flow Pacing, PID residual, FPRT (flow paced, residual trim) and Manual control. Display of operating status and faults
Remote internet access to plant is standard.
View the operating status of the plant, receive email alarms and start/stop plant items. This feature minimizes downtime and provides the ability to fault-find without having to travel to site.
CD2C generator has pre-dilution of acid.
Concentrated acid is automatically mixed with water to dilute to the correct concentration. The dilute acid is then dosed with Electricide-P1 at the reactor. This method is safe and maintains 2% ClO2 chlorine dioxide in the reactor.
Complete system assembled and ready for quick mechanical and electrical install. You can get running quickly to get benefit from your investment.
|Dilute chemical: Electricide-DC and Electricide-DA|
|Concentrated chemical: Electricide-P1 and 30-33% hydrochloric acid|
For more information on our acid-chlorite 2-chemical chlorine dioxide generators or to obtain a quotation, please complete the feedback form on our Contact page.