Parallel-flow regenerative shaft kiln and method for burning carbonate rock

1 .- 18 . (canceled) 19 . A method for burning material in a parallel-flow regenerative shaft kiln, comprising: alternately operating a burning shaft and a regenerative shaft which are connected to one another by a connecting channel, wherein the material flows through a material inlet into a preheating zone for preheating the material, a burning zone for burning the material and a cooling zone for cooling the material to a material outlet; forming a concurrent burning zone in the burning shaft; admitting a cooling gas into the cooling zone; discharging exhaust gas from one of the shafts via an exhaust gas outlet arranged inside or above the preheating zone; and wherein discharging the exhaust gas from one of the shafts via the exhaust gas outlet is at least partially introduced into at least one of the shafts. 20 . The method as claimed in claim 19 , wherein the exhaust gas is introduced into the preheating zone of the burning shaft. 21 . The method of claim 19 , wherein the exhaust gas is introduced into the connecting channel and/or into the burning zone of the regenerative shaft. 22 . The method of claim 21 wherein, before being introduced into the connecting channel or into the burning zone of the regenerative shaft, the exhaust gas is heated in particular to a temperature of 900° C. to 1100° C. 23 . The method of claim 22 wherein, the exhaust gas is heated by a heat exchanger and/or a solar device or a combustion reactor. 24 . The method of claim 22 wherein, the cooling gas heated in the cooling zone is discharged from the cooling zone of the shaft via a cooling gas extraction device. 25 . The method of claim 23 wherein, the cooling gas discharged from the cooling zone is fed to a heat exchanger for heating the exhaust gas. 26 . The method of claim 19 wherein, an oxidizing agent is fed to the shaft operated as a burning shaft. 27 . The method of claim 25 wherein, the content of oxygen and/or CO2 in the exhaust gas and/or the cooling gas is determined and wherein the amount of oxidizing agent fed to the burning shaft and/or the amount of cooling gas discharged from the cooling zone of the shaft via the cooling gas extraction device is controlled. 28 . The method of claim 19 wherein the shafts each have at least one burner lance and wherein the exhaust gas is introduced into the burner lance. 29 . A parallel-flow regenerative shaft kiln for burning and cooling material, comprising: two shafts which can be operated alternately as a burning shaft and as a regenerative shaft and are connected to one another by means of a connecting channel, wherein a concurrent burning zone is formed in the shaft operated as a burning shaft, wherein each shaft includes, in a direction of flow of the material, a preheating zone for preheating the material, a burning zone for burning the material and a cooling zone for cooling the material, and wherein each shaft includes an exhaust gas outlet arranged inside or above the preheating zone for discharging exhaust gas from the shaft, wherein at least one exhaust gas outlet is connected to a gas inlet for admitting gas into at least one shaft. 30 . The parallel-flow regenerative shaft kiln of claim 29 , wherein the gas inlet is arranged in the preheating zone of the shaft operated as a burning shaft. 31 . The parallel-flow regenerative shaft kiln of claim 29 , wherein the gas inlet is arranged in the connecting channel and/or the burning zone of the shaft and/or a material-free space in the shaft. 32 . The parallel-flow regenerative shaft kiln of claim 29 , wherein arranged between the exhaust gas outlet and the gas inlet in the connecting channel and/or burning zone is a heat exchanger and/or a heating device, in particular an electrical heating device, a solar device or a combustion reactor, for heating the exhaust gas. 33 . The parallel-flow regenerative shaft kiln of claim 29 , wherein the cooling zone includes a cooling gas inlet for admitting cooling gas into the cooling zone and a cooling gas extraction device for discharging cooling gas from the shaft. 34 . The parallel-flow regenerative shaft kiln of claim 33 , wherein the cooling gas extraction device is connected to a heat exchanger for heating the exhaust gas. 35 . The parallel-flow regenerative shaft kiln of claim 33 , wherein the cooling gas extraction device comprises a material-free space inside the cooling zone. 36 . The parallel-flow regenerative shaft kiln of claim 29 , wherein, wherein each shaft includes a combustion gas inlet for admitting combustion gas into the preheating zone and/or the burning zone and wherein the combustion gas inlet is connected to an oxidizing agent line for conducting an oxidizing agent into the shaft.