Starting a smelting process

The invention claimed is: 1. A method of starting a molten bath-based process for smelting a metalliferous material in a smelting vessel and producing molten metal, the smelting vessel including (a) an initially empty smelting chamber having a hearth and a side wall extending upwardly from the hearth, with the side wall including water-cooled elements at least in a lower section of the side wall, (b) a forehearth, and (c) a forehearth connection that interconnects the smelting chamber and the forehearth, with the method including the steps of: (a) supplying a charge of molten metal into the smelting chamber via the forehearth; (b) supplying a solid carbonaceous material and an oxygen-containing gas into the smelting chamber after completing the molten metal charge and igniting the carbonaceous material and heating the smelting chamber and molten metal and forming molten slag and thereafter increasing the amount of molten slag, with the molten metal and the molten slag forming a molten bath in the smelting chamber; (c) supplying a metalliferous material into the molten bath and smelting metalliferous material to molten metal; and wherein, during step (b), the method including controlling the temperature in the molten bath by: (i) monitoring heat flux of water-cooled elements in contact with the molten bath to obtain an indication of the temperature in the molten bath, and (ii) adjusting the supply rates of the solid carbonaceous material and/or the oxygen-containing gas having regard to water-cooled element heat flux to adjust the heat input into the smelting chamber and thereby control the temperature of the molten bath. 2. The method defined in claim 1 includes preheating the smelting chamber, the forehearth, and the forehearth connection. 3. The method defined in claim 1 includes preheating a hearth of the vessel, the forehearth, and the forehearth connection such that an average surface temperature of the hearth, the forehearth, and the forehearth connection is above 1000° C. 4. The method defined in claim 1 includes preheating a hearth of the vessel, the forehearth, and the forehearth connection such that an average surface temperature of the hearth, the forehearth, and the forehearth connection is above 1200° C. 5. The method defined in claim 1 wherein step (a) includes supplying sufficient molten metal so that the level of the molten metal is at least about 100 mm above the top of the forehearth connection. 6. The method defined in claim 1 includes injecting a gas or liquid fuel and an oxygen-containing gas into the gas space above the metal for a period of time after completing the molten metal charge into the smelting chamber to generate heat in the smelting chamber. 7. The method defined in claim 1 wherein step (b) includes supplying flux material into the smelting chamber to promote molten slag formation. 8. The method defined in claim 1 includes injecting slag or slag-forming agents to promote molten slag formation in the molten bath. 9. The method defined in claim 1 includes commencing step (c) of supplying the metalliferous material into the molten bath at any time during the course of step (b). 10. The method defined in claim 1 wherein the molten bath-based smelting process includes the steps of: (a) supplying carbonaceous material and solid or molten metalliferous material into the molten bath and generating reaction gas and smelting metalliferous material and producing molten metal in the bath, (b) supplying oxygen-containing gas into the smelting chamber for above-bath combustion of combustible gas released from the bath and generating heat for in-bath smelting reactions; and (c) producing significant upward movement of molten material from the bath by gas upwelling in order to create heat-carrying droplets and splashes of molten material which are heated when projected into the combustion region in the top space of the smelting chamber and thereafter fall back into the bath, whereby the droplets and splashes carry heat downwards into the bath where it is used for smelting of the metalliferous material. 11. A method of starting a molten bath-based smelting process for a metalliferous material in a smelting vessel that defines a smelting chamber and producing molten metal, with the method including supplying a charge of molten metal into the smelting chamber, supplying feed materials including solid carbonaceous material and oxygen-containing gas into the smelting chamber and generating heat and forming molten slag and thereafter increasing the amount of molten slag in the smelting chamber, with the molten metal and the molten slag forming a molten bath in the smelting chamber, monitoring heat flux of a side wall of the vessel in contact with the molten bath to obtain an indication of the temperature in the molten bath as the amount of slag increases towards a suitable slag inventory, and adjusting the supply rates of solid carbonaceous material and/or oxygen-containing gas into the smelting chamber to adjust heat input into the smelting chamber and thereby control the temperature of the molten bath. 12. The method defined in claim 11 includes injecting a gas or liquid fuel and an oxygen-containing gas into the gas space above the metal for a period of time after completing the molten metal charge into the smelting chamber to generate heat in the smelting chamber. 13. The method defined in claim 11 includes injecting slag or slag-forming agents to promote molten slag formation in the molten bath. 14. The method defined in claim 11 wherein the molten bath-based smelting process includes the steps of: (a) supplying carbonaceous material and solid or molten metalliferous material into the molten bath and generating reaction gas and smelting metalliferous material and producing molten metal in the bath, (b) supplying oxygen-containing gas into the smelting chamber for above-bath combustion of combustible gas released from the bath and generating heat for in-bath smelting reactions; and (c) producing significant upward movement of molten material from the bath by gas upwelling in order to create heat-carrying droplets and splashes of molten material which are heated when projected into the combustion region in the top space of the smelting chamber and thereafter fall back into the bath, whereby the droplets and splashes carry heat downwards into the bath where it is used for smelting of the metalliferous material.