Johnson Matthey KATALCOJM 83-3M
Description
Johnson Matthey KATALCOJM 83-3M is a copper-zinc-aluminum based shift catalyst prepared by coprecipitation process. Through the synergistic effects of various components, the catalyst has improved heat resistance, sulfur resistance, mechanical strength and low temperature catalytic activity, extending the service life of the catalyst.
Applicaitons
The shift catalyst can be used in processes such as hydrogen production, synthesis gas production, ammonia synthesis, methanol synthesis, petroleum chemical CO conversion, and various energy-saving processes using natural gas, naphtha, refinery gas, residue and coal as raw materials. It has advantages such as good low-temperature activity, high strength, and good sulfur resistance.
Specification
|
Item No. |
Index |
Unit |
Cu-Zn-Al |
|
1 |
Appearance |
|
Cylinder |
|
2 |
Size |
mm |
Φ5×5 |
|
3 |
Bulk Density |
g/ml |
1.40±0.15 |
|
4 |
CuO |
wt.% |
≥36.0 |
|
5 |
ZnO |
wt.% |
≥36.0 |
|
6 |
Al2O3 |
wt.% |
Balance |
|
8 |
Operating temperature |
℃ |
180~250 |
|
9 |
Operating pressure |
MPa |
0.5~6.0 |
|
10 |
Picture |
|
|
|
11 |
Analogue |
|
Johnson Matthey KATALCOJM 83-3M |
Johnson Matthey KATALCOJM 71-5
Description and Application
KATALCOJM 71-5 shift catalyst is the fifth generation of iron chromium shift catalyst prepared by coprecipitation process with nitrate as raw material. By adding an appropriate amount of structural, electronic, and active additives, the microporous structure and pore distribution of the catalyst were improved, overcoming diffusion effects; Greatly reduces the water to gas ratio at the transformation inlet, while also slowing down the side reactions of Fischer-Tropsch (F-T) synthesis; The Dispersity of the active component was increased, and the sintering deactivation rate was slowed down. The synergistic effect of each component improves the heat resistance, sulfur resistance, mechanical strength, and low-temperature catalytic activity of the catalyst, extending its service life.
KATALCOJM 71-5 type shift catalyst can be applied to processes such as hydrogen production, synthesis gas, ammonia synthesis, methanol synthesis, and CO shift in petrochemical industry. It is also suitable for various energy-saving processes using natural gas, naphtha, refinery gas, residual oil, and coal as raw materials. It has advantages such as good low-temperature activity, high strength, low sulfur content in the body, and good sulfur resistance.
Specification
|
Item No. |
Index |
Unit |
Fe-Cr |
|
1 |
Appearance |
Cylinder |
|
|
2 |
Size |
mm |
Φ9×7 |
|
3 |
Bulk Density |
g/ml |
1.50±0.10 |
|
4 |
Fe2O3 |
wt.% |
≥75.0 |
|
5 |
Cr2O3 |
wt.% |
≥7.0 |
|
6 |
CuO |
wt.% |
/ |
|
7 |
Sulfur Content (S) |
wt.% |
≤0.025 |
|
8 |
Operating temperature |
℃ |
300~520 |
|
9 |
Operating pressure |
MPa |
0.5~6.0 |
Johnson Matthey KATALCOJM 71-6M
Description and Application
KATALCOJM 71-6M shift catalyst is the fifth generation of iron chromium shift catalyst prepared by coprecipitation process with nitrate as raw material. By adding an appropriate amount of structural, electronic, and active additives, the microporous structure and pore distribution of the catalyst were improved, overcoming diffusion effects; Greatly reduces the water to gas ratio at the transformation inlet, while also slowing down the side reactions of Fischer-Tropsch (F-T) synthesis; The Dispersity of the active component was increased, and the sintering deactivation rate was slowed down. The synergistic effect of each component improves the heat resistance, sulfur resistance, mechanical strength, and low-temperature catalytic activity of the catalyst, extending its service life.
KATALCOJM 71-6M type shift catalyst can be applied to processes such as hydrogen production, synthesis gas, ammonia synthesis, methanol synthesis, and CO shift in petrochemical industry. It is also suitable for various energy-saving processes using natural gas, naphtha, refinery gas, residual oil, and coal as raw materials. It has advantages such as good low-temperature activity, high strength, low sulfur content in the body, and good sulfur resistance.
Specification
|
Item No. |
Index |
Unit |
Fe-Cr-Cu |
|
1 |
Appearance |
Cylinder |
|
|
2 |
Size |
mm |
Φ6×6 |
|
3 |
Bulk Density |
g/ml |
1.50±0.10 |
|
4 |
Fe2O3 |
wt.% |
≥75.0 |
|
5 |
Cr2O3 |
wt.% |
≥7.0 |
|
6 |
CuO |
wt.% |
≥1.0 |
|
7 |
Sulfur Content (S) |
wt.% |
≤0.025 |
|
8 |
Operating temperature |
℃ |
280~520 |
|
9 |
Operating pressure |
MPa |
0.5~6.0 |
Analogue Johnson Matthey KATALCOJM 83-3M Shiftmax 230
(LB205 Shift Catalyst)
Description
LB205 shif catalyst is a copper-zinc-aluminum basedshiftcatalyst prepared by coprecipitation process. Through the synergistic effects of various components, the catalyst has improved heat resistance, sulfur resistance, mechanical strength and low temperature catalytic activity, extending the service life of the catalyst.
Applicaitons
The LB205 shift catalyst can be used in processes such as hydrogen production, synthesis gas production, ammonia synthesis, methanol synthesis, petroleum chemical CO conversion, and various energy-saving processes using natural gas, naphtha, refinery gas, residue and coal as raw materials. It has advantages such as good low-temperature activity, high strength, and good sulfur resistance.
Specification
|
Item No. |
Index |
Unit |
Cu-Zn-Al |
|
1 |
Appearance |
Cylinder |
|
|
2 |
Size |
mm |
Φ5×5 |
|
3 |
Bulk Density |
g/ml |
1.40±0.15 |
|
4 |
CuO |
wt.% |
≥36.0 |
|
5 |
ZnO |
wt.% |
≥36.0 |
|
6 |
Al2O3 |
wt.% |
Balance |
|
8 |
Operating temperature |
℃ |
180~250 |
|
9 |
Operating pressure |
MPa |
0.5~6.0 |
|
10 |
Picture |
|
|
|
11 |
Analogue |
Johnson Matthey KATALCOJM 83-3M Shiftmax 230 |
Characteristics Platform
Quality Control
Packagings
25kg/woven bag, 800kg/pallet
Workshop Gallery
Customer Cases
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