Method and shaft furnace for burning carbon-containing material in a shaft furnace

1 .- 17 . (canceled) 18 . A shaft furnace for firing material that contains carbonate, the shaft furnace comprising: in a flow direction of the material, a preheating zone, a firing zone, a cooling zone, and a material outlet for discharging the material; burner lances that project into the firing zone, wherein a first of the burner lances has a first penetration depth into the firing zone and a second of the burner lances has a second penetration depth into the firing zone that is greater than the first penetration depth; a primary air conduit comprising: a first primary air conduit for conveying combustion air, the first primary air conduit being connected to the first burner lance, and a second primary air conduit for conveying combustion air, the second primary air conduit being connected to the second burner lance; and an oxygen conduit for conveying oxygen into the firing zone, wherein the oxygen conduit is disposed such that oxygen is configured to flow from the oxygen conduit to the second burner lance, wherein the oxygen conduit is connected exclusively to the second primary air conduit so that oxygen is configured to flow from the oxygen conduit into the second primary air conduit. 19 . The shaft furnace of claim 18 wherein the oxygen conduit is connected to the second burner lance so that oxygen for combustion of fuel is configured to flow into the second burner lance. 20 . The shaft furnace of claim 18 wherein the oxygen conduit is connected exclusively to burner lances that have the second penetration depth. 21 . The shaft furnace of claim 18 wherein the oxygen conduit comprises means for regulating an amount of oxygen flowing through the oxygen conduit. 22 . The shaft furnace of claim 18 wherein a third of the burner lances has a third penetration depth into the firing zone that is greater than the first penetration depth but less than the second penetration depth, wherein the oxygen conduit is connected to the third burner lance so that oxygen flows into the third burner lance. 23 . The shaft furnace of claim 22 wherein the oxygen conduit comprises means for regulating an amount of oxygen flowing through the oxygen conduit, wherein the means for regulating is configured such that the amount of oxygen configured to flow to the second burner lance is greater than an amount of oxygen configured to flow to the third burner lance. 24 . A shaft furnace for firing material containing carbonate, the shaft furnace comprising: in a flow direction of the material, a preheating zone, a firing zone, a cooling zone, and a material outlet for discharging the material; burner lances that project into the firing zone, wherein a first of the burner lances has a first penetration depth into the firing zone and a second of the burner lances has a second penetration depth into the firing zone that is greater than the first penetration depth; a first primary air conduit for conveying primary combustion air, the first primary air conduit being connected to the first burner lance; and a second primary air conduit for conveying primary combustion air, the second primary air conduit being connected to the second burner lance, wherein the second primary air conduit extends at least partly through a preheating device for heating the primary combustion air in the second primary air conduit. 25 . The shaft furnace of claim 24 wherein the second primary air conduit is connected exclusively to the second burner lance so that preheated primary combustion air is configured to be fed exclusively to the second burner lance. 26 . The shaft furnace of claim 24 comprising the preheating device, wherein the preheating device comprises a preheating zone within the shaft furnace, wherein the second primary air conduit runs at least partly through the preheating zone. 27 . The shaft furnace of claim 26 wherein the second primary air conduit comprises immersion conduits that extend at least partly or completely through the preheating zone. 28 . The shaft furnace of claim 24 wherein at least one of: the first penetration depth is equal to or less than one third of a radius of the firing zone; or the second penetration depth is about one third of the radius of the firing zone. 29 . A process for firing material that contains carbonate in a shaft furnace, the process comprising: causing the material to flow through a preheating zone, a firing zone, and a cooling zone to a material outlet; introducing fuel in the firing zone or adjacent thereto via burner lances, wherein a first of the burner lances has a first penetration depth and a second of the burner lances has a second penetration depth that is greater than the first penetration depth; conveying primary combustion air to the burner lances; and conveying oxygen along with the primary combustion air to burner lances that have the second penetration depth or conveying oxygen into a primary air conduit that conveys the primary combustion air to the burner lances that have the second penetration depth. 30 . The process of claim 29 comprising enriching the primary combustion air with oxygen to have an oxygen content of 40% to 90%. 31 . A process for firing material that contains carbonate in a shaft furnace, the process comprising: causing the material to flow through a preheating zone, a firing zone, and a cooling zone; introducing fuel in the firing zone or adjacent thereto via burner lances, wherein a first of the burner lances has a first penetration depth and a second of the burner lances has a second penetration depth that is greater than the first penetration depth; and conveying primary combustion air that has been preheated exclusively to burner lances that have the second penetration depth. 32 . The process of claim 31 comprising preheating the primary combustion air to a temperature of 250° C. to 500° C.