 |
     |
<!--
function MM_swapImgRestore() { //v3.0
var i,x,a=document.MM_sr; for(i=0;a&&i<a.length&&(x=a[i])&&x.oSrc;i++) x.src=x.oSrc;
}
function MM_preloadImages() { //v3.0
var d=document; if(d.images){ if(!d.MM_p) d.MM_p=new Array();
var i,j=d.MM_p.length,a=MM_preloadImages.arguments; for(i=0; i<a.length; i++)
if (a[i].indexOf("#")!=0){ d.MM_p[j]=new Image; d.MM_p[j++].src=a[i];}}
}
function MM_swapImage() { //v3.0
var i,j=0,x,a=MM_swapImage.arguments; document.MM_sr=new Array; for(i=0;i<(a.length-2);i+=3)
if ((x=MM_findObj(a[i]))!=null){document.MM_sr[j++]=x; if(!x.oSrc) x.oSrc=x.src; x.src=a[i+2];}
}
//-->
Electrostatic
Operation, Power Consumption
Fluidtron™ Systems can be powered by 120v, 240v or 480v. The incoming AC current is converted to 30,000 volts DC. There is very little amperage, so there are no electrocution safety issues to be addressed. Even though the system is inherently safe, numerous fail-safe systems are integrated into the equipment. Any single component failure or detection of water migration immediately shuts down the system. In-house maintenance of the HVAC equipment related to the control of scale and microbial growth is converted to nothing more than periodically inspecting the control panel to verify that the "in operation" light is illuminated. This indicates that the system is energized. Fluidtron™
Systems consume .035 milliamps, about the amount of power
consumed by a night light. This small electrical draw
equates to an operational cost of pennies per day.
|
||||||||||||||||||||||
Home | Zero Blowdown | Contact Us | Customer List | Testimonials | Map | Press Releases Copyright © 2010 IntegraTech Associates, Inc. |
|||||||||||||||||||||||
