A process for preparing a cobalt based catalyst precursor includes in a first support impregnation/drying/calcination stage, impregnating a particulate porous catalyst support with a cobalt salt, partially drying the impregnated support, and calcining the partially dried impregnated support to obtai
A process for preparing a cobalt based catalyst precursor includes in a first support impregnation/drying/calcination stage, impregnating a particulate porous catalyst support with a cobalt salt, partially drying the impregnated support, and calcining the partially dried impregnated support to obtain a calcined material. The calcined material is partially reduced. Thereafter, in a second support impregnation/drying/calcination stage, the partially reduced material is impregnated with a cobalt salt, partially dried and calcined, to obtain the cobalt based catalyst precursor.
대표청구항▼
The invention claimed is: 1. A process for preparing a cobalt based catalyst precursor, which process includes in a first support impregnation/drying/calcination stage, impregnating a particulate porous catalyst support with a cobalt salt, partially drying the impregnated support, and calcining the
The invention claimed is: 1. A process for preparing a cobalt based catalyst precursor, which process includes in a first support impregnation/drying/calcination stage, impregnating a particulate porous catalyst support with a cobalt salt, partially drying the impregnated support, and calcining the partially dried impregnated support to obtain a calcined material having a starting cobalt oxide phase; partially reducing the calcined material at a temperature of from 100�� C. to 300�� C., so that the starting cobalt oxide phase is partially reduced to a cobalt oxide phase containing less oxygen than the starting cobalt oxide phase, thereby to obtain a partially reduced material; and in a second support impregnation/drying/calcination stage, impregnating the partially reduced material with a cobalt salt, partially drying the impregnated material, and calcining the partially dried impregnated material, to obtain the cobalt based catalyst precursor. 2. A process according to claim 1, wherein the cobalt salt used in both impregnation/drying/calcination stages is cobalt nitrate, and wherein the porous catalyst support is alumina, silica, a silica-alumina, titania or magnesia. 3. A process according to claim 1, wherein the support is a protected modified catalyst support containing silicon as a modifying component. 4. A process according to claim 1, wherein the cobalt based catalyst precursor contains between 5 g Co/100 g support and 70 g Co/100 g support. 5. A process according to claim 1, wherein during either or both of the impregnation stages, a water soluble precursor salt of palladium (Pd), platinum (Pt) or a mixture thereof is added, as a dopant capable of enhancing the reducibility of the cobalt. 6. A process according to claim 1, wherein the partial reduction of the calcined material is effected by contacting the calcined material with a hydrogen and/or carbon monoxide containing gas. 7. A process according to claim 1, wherein the partial reduction of the calcined material is at a temperature that does not result in a reduction to a metallic cobalt phase of the cobalt oxide phase containing less oxygen. 8. A process according to claim 1, wherein the cobalt oxide phase containing less oxygen formed by the partial reduction is stable in air at room temperature. 9. A process for preparing a cobalt based Fischer-Tropsch catalyst, which process includes in a first support impregnation/drying/calcination stage, impregnating a particulate porous catalyst support with a cobalt salt, partially drying the impregnated support, and calcining the partially dried impregnated support to obtain a calcined material having a starting cobalt oxide phase; partially reducing the calcined material at a temperature of from 100�� C. to 300�� C., so that the starting cobalt oxide phase is partially reduced to a cobalt oxide phase containing less oxygen than the starting cobalt oxide phase, thereby to obtain a partially reduced material; in a second support impregnation/drying/calcination stage, impregnating the partially reduced material with a cobalt salt, partially drying the impregnated material, and calcining the partially dried impregnated material, to obtain a cobalt based catalyst precursor; and reducing the cobalt based catalyst precursor, to obtain the cobalt based Fischer-Tropsch catalyst. 10. A process according to claim 9, wherein the cobalt salt used in both impregnation/drying/calcinations stages is cobalt nitrate, and wherein the porous catalyst support is alumina, silica, a silica-alumina, titania or magnesia. 11. A process according to claim 9, wherein the support is a protected modified catalyst support containing silicon as a modifying component. 12. A process according to claim 9, wherein the cobalt based catalyst precursor contains between 5 gCo/100 g support and 70gCo/100g support. 13. A process according to claim 9, wherein during either or both of the impregnation stages, a water soluble precursor salt of palladium (Pd), platinum (Pt) or a mixture thereof is added, as a dopant capable of enhancing the reducibility of the cobalt. 14. A process according to claim 9, wherein the partial reduction of the calcined material is effected by contacting the calcined material with a hydrogen and/or carbon monoxide containing gas. 15. A process according to claim 9, wherein the partial reduction of the calcined material is at a temperature that does not result in a reduction to a metallic cobalt phase of the cobalt oxide phase containing less oxygen. 16. A process according to claim 9, wherein the cobalt oxide phase containing less oxygen formed by the partial reduction is stable in air at room temperature.
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