Activated Alumina Ball for Adsorption in Producing Hydrogen Perixide (H2O2)
MOLCULAR FORMULA
Al2O3. N H2O
Activated Alumina Ball for Adsorption in Producing Hydrogen Perixide (H2O2), there are many micro-paths, so the specific surface is large. It can be used as absorbent, desiccant and catalyst carrier. It is also a kinf of trace water desiccant and the pole-moleculae absorbent, according to the absorbed molecule polarization, the attachment force is strong for water, oxide, acetic acid, alkali ect...
Application for Activated Alumina Ball for Adsorption in Producing Hydrogen Perixide (H2O2)
1) Catalyst for recovering sulfur in the petrochemical industry
2) Excellent defluorination agent for drinking water and for recycling alkyl-hydrocarbon in alkylbenzene production
3) Reclaiming agent for de-acidic in transformer oil, and de-arsenic agent in the Acid industry
4) Adsorbent in the production of hydrogen peroxide solution
5) Catalyst for polyhydro-ammonia by substituting silica gel with ball-shaped product
6) Desiccator and purifying agent.
KA401: Is for as adsorbent
KA402: Is for defluorinating
KA403: Is for absorption in producing hydrogen perixide (H2O2)
KA404: Is for catalyst carrier
KA405: Is for dehydrating and drying in air seperation etc
Packing for Activated Alumina Ball for Adsorption in Producing Hydrogen Perixide (H2O2) :
1). By steel drum, each drum 150kgs net, palletized with wrapped.
2). By double layer plastic bag, each bag 25kgs net, palletized with wrapped.
| Phisical Properties for Activated Alumina Ball for Adsorption in Producing Hydrogen Perixide (H2O2) : |
| TYPE |
KA401 |
KA402 |
KA403 |
KA404 |
KA405 |
| Appearance |
White, Sphere, No Odor, Insoluble In Water, Innocuous |
| Crystal Type |
x-p |
x-p |
y |
y |
x-p |
| Chemical Composition |
Al2O3 % |
>93.5 |
>93.5 |
>93.5 |
>93.5 |
>93.5 |
| Na2O % |
0.3 |
0.3 |
0.3 |
0.3 |
0.3 |
| SiO2 |
<0.2 |
<0.2 |
<0.2 |
<0.2 |
<0.2 |
| Fe2O3 |
<0.2 |
<0.2 |
<0.2 |
<0.2 |
<0.2 |
| LOI |
% |
<6 |
<6 |
<6 |
<6 |
<6 |
| Bulk Density |
g/ml |
0.65-0.72 |
0.70-0.75 |
0.65-0.72 |
0.65-0.72 |
0.65-0.72 |
| Surface Area |
m2/g |
275 |
275 |
275 |
275 |
275 |
| Pore Volume |
ml/g |
0.30-0.45 |
0.30-0.42 |
0.40-0.46 |
0.40 |
0.30-0.50 |
| Static Absorption (RH=60%) |
% |
Water Absorption
15-17 |
Fluorine Absorption
0.12 |
Water Absorption
50 |
Water Absorption
50-70 |
Water Absorption
17-19 |
| Active |
% |
|
|
56-62 |
|
|
| Attrition Loss |
% |
≤1.0 |
≤1.0 |
≤1.0 |
≤0.4 |
≤0.8 |
| Crushing Strength (kg/cm2) |
Dia.0.4-1.2 |
|
≥3 |
|
|
|
| Dia.1-2 |
≥4 |
≥4 |
|
|
|
| Dia.2-3 |
≥6 |
≥6 |
|
|
|
| Dia.3-5 |
≥10 |
|
≥10 |
≥10 |
≥10 |
| Dia.4-6 |
≥12 |
|
≥13 |
≥12 |
≥11 |
| Dia.4-8 |
≥15 |
|
≥15 |
≥15 |
≥15 |
|
