The Physicochemical Properties of Nickel Bearing Pyrrhotite and Kinetics of Elemental Sulfur Produced Under Controlled Oxygen Potential in the Microwave Field
- Organization:
- The Minerals, Metals and Materials Society
- Pages:
- 12
- File Size:
- 163 KB
- Publication Date:
- Jan 1, 1993
Abstract
Under an inert atmosphere, the temperature enhancement of nickel bearing pyrrhotite irradiated by microwave was measured with a special metal-sheathed thermocouple and the non-isothermal rate equations were obtained. Under the controlled oxygen potential of the reacting gas in the microwave field, over 90% sulfur contained in the pyrrhotite is converted into elemental sulfur directly, the iron and the nickel are transformed into FeO,, NiO, NiFe,O, and FeSiO,. According to the experimental data the rate of the elemental sulfur produced is in diffusional control and the non-isothermal equation derived is
Citation
APA: (1993) The Physicochemical Properties of Nickel Bearing Pyrrhotite and Kinetics of Elemental Sulfur Produced Under Controlled Oxygen Potential in the Microwave Field
MLA: The Physicochemical Properties of Nickel Bearing Pyrrhotite and Kinetics of Elemental Sulfur Produced Under Controlled Oxygen Potential in the Microwave Field. The Minerals, Metals and Materials Society, 1993.