Multi-level furnace and method for thermal treatment of a material flow

The invention claimed is: 1. A method for the thermal treatment of a material flow in a multi-level furnace, the material flow being treated in at least two process chambers arranged one above the other and separated gastightly from one another and respectively equipped with at least two floors for the levels, and the material flow being transferred by a transfer device from an upper process chamber to a lower process chamber, wherein a column of material is formed in the transfer device for the gastight separation of the two process chambers, the forming of the column of material being performed by at least one delivery unit for transferring the material flow from the upper process chamber to the lower process chamber, the at least one transfer device comprising an outlet opening for discharging at least part of the material flow from the multi-level furnace and a feed opening for introducing material into the multi-level furnace from outside. 2. The method as claimed in claim 1 , wherein a differential pressure between the upper process chamber and the lower process chamber is determined, in order to monitor the gastight separation of the two process chambers. 3. The method as claimed in claim 1 , wherein a temperature and/or a humidity and/or a pressure and/or an atmosphere in the at least two process chambers can be set individually. 4. The method as claimed in claim 1 , wherein a delivery rate of the at least one delivery unit is controlled in dependence on the measured differential pressure in such a way that a gastight separation of the two process chambers is ensured. 5. A method for the thermal treatment of a material flow in a multi-level furnace, the material flow being treated in at least two process chambers arranged one above the other and separated gastightly from one another and respectively equipped with at least two floors for the levels, and the material flow being transferred by a transfer device from an upper process chamber to a lower process chamber, wherein a column of material is formed in the transfer device for the gastight separation of the two process chambers, the forming of the column of material being performed by at least one delivery unit or at least one chute or a slider and the at least one transfer device being used not only for transferring the material flow from the upper process chamber to the lower process chamber but also for discharging at least part of the material flow from the multi-level furnace and/or for introducing material into the multi-level furnace from outside, and wherein the material flow is treated in at least three process chambers gastightly separated from one another, part of the material flow being fed from an upper process chamber to a lower process chamber while bypassing a middle process chamber. 6. The method as claimed in claim 1 , wherein each process chamber is fed at least one stream of treatment gas, which after acting on the material flow is removed again. 7. The method as claimed in claim 6 , wherein a direction of flow of the treatment gas with respect to a direction of material flow is set individually in the at least two process chambers.