Werbung
A A u u f f b b a a u u u u n n d d F F u u n n k k t t i i o o n n s s b b e e s s c c h h r r e e i i b b u u n n g g I I V V
S S e e t t u u p p a a n n d d F F u u n n c c t t i i o o n n a a l l D D e e s s c c r r i i p p t t i i o o n n I I V V
The function of the electrical Ultra Cleaners can generally be described as follows.
The ionization wires and every second collector plate are under a positive high voltage of
6-7 kV. The remaining collector plates and the collector frame are grounded, i.e. they are electrostatically
neutral. The current flow is low as it is limited to the so-called ionization current, which flows from the
positive plates and ionization wires to the grounded collector plates and housing parts. Nevertheless, its
strength should not be neglected as it passes through the air and produces ozone. In general, we can
say that the high voltage applied determines the intensity of the current flow and as a consequence, the
quantity of ozone that is produced. We would be pleased to make detailed measuring protocols and test
reports available to you on request.
When particles enter the electrostatic units, they give up electrons due to the positive charge of the
ionization wires and become positive themselves. The particles with the positive charge are then attracted
by the neutral collector plates where they are neutralized and separated. There are also particle molecules
with a high negative charge in the extracted air. These molecules cannot be neutralized completely
through the positively charged ionization wires, i.e. they still have a negative charge downstream of the
ionization wires. Consequently, they are attracted by the positive collector plates and are separated there.
You can see from this short description that the separation process
in an electrostatic collector is influenced by many parameters:
- Structure of the ionization wires
- Distance between the collector plates
- Risk of ozone generation
Intensive testing and measuring work based on the above-mentioned parameters revealed that the
high-voltage level of 6 -7 kV that we selected and utilize at present produces a minimum of ozone,
provides for a recovery of the high-voltage parts within a few milliseconds and keeps the energy
consumption at 120 W maximum.
§ I I f f y y o o u u a a r r e e i i n n t t e e r r e e s s t t e e d d i i n n f f u u r r t t h h e e r r d d e e t t a a i i l l s s o o r r r r e e s s e e a a r r c c h h r r e e s s u u l l t t s s , ,
p p l l e e a a s s e e c c o o n n t t a a c c t t u u s s o o r r o o u u r r t t e e c c h h n n i i c c a a l l f f i i e e l l d d s s e e r r v v i i c c e e . .
R R E E V V E E N N c c o o l l l l e e c c t t o o r r
+
positive electrostatic charge
-
negative electrical charge
All manuals and user guides at all-guides.com
- Size of the effective collector surface
- Recovery time of the electrostatic field
after a voltage flashover
- Energy consumption of the high-voltage modules
-
+
-
+
-
+
-
+
-
+
+
-
-
+
-
+
1 1 5 5
Werbung
