| Catalyst | Type/Applications | Description |
| P-15 | Platinum Reforming | CRITERION P-15 is used in fixed bed reformer processes. This catalyst is used in semiregenerative or cyclic design reforming units. It is used in either motor fuels or BTX reformers. Since it is more tolerant to sulphur than bimetallic catalysts, it is frequently used in the lead reactor to provide more protection from sulphur upsets. |
| P-93 | Platinum Reforming | 0.3 wt% platinum catalyst on modified carrier for better yields and sulphur tolerance. |
| P-96 | Platinum Reforming | 0.6 wt% platinum only catalyst on modified carrier for better yields sulphur tolerance with higher sulphur content feed. |
| PR-9 | Pt/Re Reforming | Equal metals bimetallic reforming catalyst on modified carrier for better yields and long cycle length. |
| PR-15 | Pt/Re Reforming | CRITERION PR-15 is designed for fixed bed reformer processes. The catalyst can be used in semi-regenerative or cyclic design reforming units operating in either motor fuels or BTX mode. |
| PR-29 | Pt/Re Reforming | Skewed metals bimetallic reforming catalyst on modified carrier for better yields and maximum cycle length. |
| PR-30 | Pt/Re Reforming | Highest value extruded platinum/rhenium containing reforming catalyst made on a high purity alumina base. Designed to provide a combination of enhanced stability (substantially longer cycle length) and greater yield of hydrogen and reformate. |
| PS-30 | Pt/Sn Reforming | High platinum. 0.375wt%, catalyst on modified carrier for coke burn rate limited early generation CCR reformers. |
| PS-40 | Pt/Sn Reforming | Low platinum. 0.30wt%, catalyst on modified carrier for coke burn limited CCR reformers. |
| PS-80 | Pt/Sn Reforming | PS-80 is Criterion’s highest performance CCR catalyst that draws from the commercially proven technology of PS-40 catalyst. More stable yields result from the PS-80 support’s better chloride affinity that reduces the Cl differential of circulating catalyst. |
