Patent ID: 9709270
Date: 2017-07-18
CPC Classifications: F23G,F23J,F23N

Claim:
1. A fluidized bed gasification furnace comprising: a plurality of air boxes installed in parallel; a fluidized bed formed by fluidizing a fluidization medium using combustion gas fed into the furnace via the air boxes; a plurality of temperature sensors detecting temperatures at different positions in the fluidized bed; a noncombustible discharge device that is installed below the fluidized bed and has an extruder that discharges the fluidization medium discharged from the fluidized bed and mixed-in noncombustibles and includes a first inclined plane that gradually rises in a forward movement direction of the extruder and a bottom face that supports the fluidization medium and the noncombustibles discharged from the fluidized bed; a passage between a fluidized bed gasification furnace main body and the noncombustible discharge device; a cooler that cools the noncombustibles in the passage and prevents a reduction in a repose angle of the noncombustibles in the bottom face along with the first inclined plane; and a control device that identifies a defective fluidization spot of the fluidized bed based on distribution of the temperatures detected by the plurality of temperature sensors, temporarily increases an amount of supplied combustion gas to the air boxes located below the identified defective fluidization spot, and increases a speed of discharge of the noncombustibles and the fluidization medium discharged by the extruder, wherein: the plurality of temperature sensors include a first temperature sensor group having a plurality of temperature sensors installed in a depth direction of the fluidized bed, including at least one temperature sensor located in the fluidized bed in the event of startup of the fluidized bed gasification furnace, and a second temperature sensor group having a plurality of temperature sensors installed in an arrangement direction of the air boxes, the control device identifies the defective fluidization spot based on the temperature distribution of the depth direction which is based on results detected by the first temperature sensor group and the temperature distribution of the arrangement direction of the air boxes which is based on results detected by the second temperature sensor group, the control device controls the discharge speed of the noncombustibles by fixing forward and backward movement times of the extruder and changing a stop time of the extruder, the noncombustible discharge device is formed with a second inclined plane for flowing the noncombustibles toward the front on an extension line of the passage, an insertion hole into which the extruder is inserted is formed through a lower portion of the second inclined plane, and the noncombustible discharge device includes the horizontal bottom face so that the extruder can be movable back and forth to slide the horizontal bottom face, and the first inclined plane that is formed in a shape of an arc that is smoothly connected to the horizontal bottom face.