TH111773A - Rotary kilns for external heating and operating methods - Google Patents

Abstract

DC60 (05/04/55) External heating rotary kiln (1) comprises an inner cylinder (11) rotating about its axis and an outer cylinder (12) for causing the hot gases to flow around the inner cylinder, and performing heating while the substance to be treated is transferred in the axial direction of the inner cylinder, a supporting inner cylinder rotating on a movable end (13) moving in the axial direction and a fixed end (14), and a path (114) for measuring the thermal elongation in the axial direction of the inner cylinder and a plurality of non-contact thermometers (126) for measuring the shell temperature (T11 to T32) at a plurality of positions in the axial direction of the inner cylinder from the outer wall of the outer cylinder are provided. The temperature in the rotary kiln rotating about its axis is measured exactly in correlation with the temperature of the substance to be treated, by which constant control of the heating temperature can be carried out. The external heating rotary kiln (1) comprises an inner cylinder (11) rotating about its axis and an outer cylinder (12) for heating the hot gases around the inner cylinder, and performing heating while the substance to be treated is transferred in the axial direction of the inner cylinder. The inner cylinder supports the rotating on the movable member (13) moving in the axial direction and a fixed end (14), and a path (114) for measuring the thermal elongation in the inner axial direction of the inner cylinder and a plurality of non-contact thermometers (126) for measuring the shell temperature (T11 to T32) at a plurality of positions in the axial direction of the inner cylinder from the outer wall of the outer cylinder are provided. The temperature in the rotary kiln rotating about its axis is measured exactly in correlation with the temperature of the substance to be treated, by which constant control of the heating temperature can be carried out.

Claims (9)

1. A rotary kiln for external heating comprising an inner cylinder rotating about an axis and an outer cylinder for causing heated gases to flow around the inner cylinder, and performing heating while the substance to be treated is transferred in the axial direction of the inner cylinder, such that the inner cylinder supports rotating on a movable end in the axial direction and a fixed end, and a means for measuring the thermal expansion in the axial direction of the inner cylinder and a number of non-contact thermometers for measuring the temperature of the shell at a number of positions in the axial direction of the inner cylinder from the outer wall portion of the outer cylinder are provided. 2. The externally heated rotary kiln according to claim 1, such that the partial thermal elongation measurement means includes a total thermal elongation measurement means for measuring the partial thermal elongation in the axial direction of the cylinder inside the kiln. 3. The externally heated rotary kiln according to claim 1, wherein the thermal elongation measurement means includes at least one partial thermal elongation means for measuring the thermal elongation in the central part in the axial direction of the inner cylinder of the kiln from the outer wall portion of the outer cylinder. 4. The method of operation for an externally heated rotary kiln described in claim 1, wherein the difference between the shell temperature change and the average shell temperature is not less than a predetermined value, the shell temperature change is obtained by dividing the thermal expansion ratio obtained from the thermal expansion measurement path by the linear expansion coefficient of the material of the kiln inner cylinder, and the average shell temperature is obtained from the measurement of the non-contact thermometer, compressed air is sprayed onto the outer surface of the kiln inner cylinder to separate the ash adhering to the outer surface of the kiln inner cylinder. 5. The method of operation for an externally heated rotary kiln described in claim 1, wherein the method of operation is such that the difference between the cell temperature is varied and the average cell temperature is not less than a predetermined value, the shell temperature is varied by dividing the ratio of the thermal expansion obtained from the measurement of the thermal expansion measurement path by the coefficient of linear expansion of the material of the cylinder inside the kiln, and the average shell temperature is obtained from the measurement of the non-contact thermometer, or in cases where this state is continuous for a predetermined period of time, a signal for the readiness of the cylinder inside the kiln is produced. 6. The method of operation for an externally heated rotary kiln described in claim 1, wherein the amount of hot gas causing the flow in the outer cylinder increases or decreases with the temperature of the cell being measured by a non-contact thermometer, and the average cell temperature is maintained at a predetermined temperature zone, such that in a state where the difference between the cell temperature change and the average shell temperature is not less than the predetermined value continuously for a predetermined time, the cell temperature is varied by dividing the thermal expansion ratio obtained from the measurement of the thermal expansion measurement path by the coefficient of linear expansion of the material of the cylinder inside the kiln, the cell temperature is calibrated based on the temperature difference, and the amount of hot gas causing the flow in the outer cylinder is controlled by using the calibrated shell temperature. 7. The externally heated rotary kiln according to claim 1, wherein the cylinder is externally divided into a plurality of zones, a non-contact thermometer is placed in each zone, and a heating gas quantity control means for controlling the heating gas flow rate in each zone and a temperature control means for controlling the heating gas quantity control means based on the measurement of the shell temperature in each zone are subsequently provided. 8. The externally heated rotary kiln according to claim 7, wherein the thermal elongation measurement means includes a thermal elongation measurement means zone for measuring thermal elongation in each zone from the outer wall portion of the outer cylinder. 9. The externally heated rotary kiln according to claim 7 or 8, wherein the thermal expansion measurement means include a gas distribution means for distributing the heating gas of the system to a portion at a predetermined flow rate and a total flow rate control means for controlling the total flow rate of the heating gas of the system 1. The externally heated rotary kiln comprises an inner cylinder rotating about an axis and an outer cylinder for causing the heating gas to flow around the inner cylinder, and performing heating while the substance to be treated is transferred in an axial direction. In the inner cylinder of the kiln, there are plurality of non-contact thermometers for measuring the shell temperature at plurality of positions in the axial direction of the inner cylinder of the kiln from the outer wall of the outer cylinder provided.