| Customization: | Available |
|---|---|
| Al2O3 Content: | 10-35% |
| Sio2 Content: | 60-85% |
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Ceramic liquid distributor has a rough and uneven appearance, with many pore sizes ranging from 6 to 10 millimeters. The product is bowl shaped, with ventilation holes spaced in the middle of the distributor and convection holes spaced around the ventilation holes. An overflow port is set at the upper end of the convection holes, and a flow blocking groove is set on the lower end face of the distributor at the peripheral position of the convection holes. The height of the overflow port shall not exceed one-third of the height of the convection hole.
|
Item
|
Unit
|
Index
|
|
|
Physical and chemical properties |
Bulk density
|
g/cm3
|
2.3-2.6
|
|
Absorptivity
|
%
|
≤0.5
|
|
|
Bending strength
|
Mpa
|
≥58.8
|
|
|
Compressive strength
|
Mpa
|
≥120
|
|
|
Temperature resistance
|
ºC
|
1280
|
|
|
Resistance to thermal shocks
|
ºC
|
150ºC
|
|
|
Acid resistance
|
%
|
>99.8
|
|
|
Alkali resistance
|
%
|
>88
|
|
|
Chemical composition |
Al2O3
|
%
|
10-35
|
|
SiO2
|
%
|
60-85
|
|
|
Fe2O3
|
%
|
<2.0
|
|
|
K2O+Na2O
|
%
|
<3.9
|
|
|
CaO+MgO
|
%
|
<1.5
|
|
The function of the ceramic distributor is to uniformly distribute or redistribute the liquid at the top or a certain height of the packing, in order to improve the effective surface of mass and heat transfer, improve inter phase contact, and thus enhance the efficiency of the tower.
Ceramic liquid distributors are widely used in gas-liquid mass transfer equipment such as gas absorption, gas-liquid reactions, and biochemical aeration. Under a certain pressure, the gas diffuses into small bubbles through the gas distributor and enters the liquid for mixing and mass transfer
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