| INTRODUCTION |
1 |
| OBJECTIVE |
1 |
| WORK ACCOMPLISHED IN THE FIRST YEAR OF
THE PROGRAM |
2 |
|
1) |
EXPERIMENTAL |
|
| |
Carbon Coating Agent |
3 |
| Extruder |
3 |
| Carbonous Extrusion and Carbon Coating |
3 |
| Carbon Coating of Extrudates |
4 |
| Preparation of Zinc-chromite Catalyst Powder |
4 |
| Cesium Doping of Zinc-chromite Extrudates |
4 |
| Preparation of K and Mn promoted ZrO2 Catalyst Powder |
5 |
| Cold-Flow Ebullated Bed Reactor |
5 |
|
2) |
RESULTS |
|
| |
Carbon Coating of Catalyst Extrudates Using PP Furfuryl Alcohol |
5 |
| Carbon Coating Using F-T Wax |
6 |
| Carbon Coating Using Coal Liquid |
6 |
| Carbonous Extrusion of Alumina Powder |
7 |
| Preparation of Zinc-chromite Catalyst Powder |
7 |
| Carbonous Extrusion and Carbon-Coating of Commercial Zinc-Chromite
Catalyst Powder |
8 |
| Carbonous Extrusion and Carbon-Coating of Synthesized Zinc-Chromite
Catalyst Powder |
9 |
| Cold-Flow Ebullated Bed Testing of Carbon-Coated Zinc-Chromite
Extrudates |
9 |
| Drum Attrition Loss Test |
10 |
| Preparation of K and Mn Promoted ZrO2 Catalyst Powder |
10 |
| Carbonous Extrusion and Carbon Coating of K and Mn Promoted ZrO2
Catalyst Powder |
11 |
| Preparation for an Experimental Run Under Task III (Activity
Testing) |
12 |
| Characterization of Carbon-Coated Iron Catalyst by XPS Analysis |
13 |
|
3) |
CONCLUSION |
14 |
