TH26379B - Processes and vessels for catalytic renewable including monitoring and monitoring and control of combustion integrity. - Google Patents

Abstract

DC60 This invention involves a process for recovery. (regeneration) of the catalyst in a stationary or moving bed. such as catalysts for reforming reactions or for the production of aromatic compounds This includes inspection and control procedures. Controls the integrity of the combustion which is carried out after the catalyst has passed the All burning episodes in the process The inspection and control procedures are correct. It is performed by injecting oxygen-containing air into the monitoring and control area. The monitoring and control procedures are carried out under conditions that The model is stronger than the conditions in the combustion process. The inspection and control procedures are correct. Operates by burning less than 10% oxygen, the temperature is kept at a constant level. The container for this invention has also been claimed. This invention involves the process of making it reusable. (regeneration) of the catalyst in a stationary or moving bed. such as catalysts for reforming reactions or for the production of aromatic compounds. This includes the combustion integrity check and control procedure, which is performed after the catalyst has undergone all combustion steps in the process. The monitoring and control procedure is performed by injecting oxygen-containing air into the monitoring and control area. The inspection and control procedures are performed under conditions that are stronger than those in the combustion stage. The inspection and control procedure is carried out by burning oxygen at less than 10%, the temperature is kept at a constant level. The fabrication processing vessel has also been claimed.

Claims (2)

1. The process for reactivation of a used catalyst, which includes the combustion of the carbon material in at least one combustion stage, in which the catalyst will Is exposed to a gas which contains at least one oxygen under pre-defined conditions The process is characterized by the fact that the catalyst, which has undergone the entire combustion process, is exposed to a gas containing at least one oxygen, a gas known as a monitor and control gas. In the monitoring and control process under the conditions which are more severe than in the combustion stage. And that monitoring and control procedures are performed by using less than 10% of the oxygen entering the gas. And that the temperature of the injected gas and / or catalyst and the gas and / or the catalyst released from the monitoring and control procedures and / or the oxygen content of the fed gas and the gas exited from The inspection and control procedures were measured and compared. And if there is a difference which is greater than the acceptable deviation then At least one operating condition The condition of at least one of the combustion procedures will be modified to correct the difference. 2. The process of claim 1, which will be Only that the catalyst is the catalyst for the reforming reaction. Or a catalyst for the production of aromatic compounds 3. Process according to claim 1 or claim 2, which is characterized by that the temperature is constant during the inspection and control steps 4. process According to one of the claims mentioned above It is characterized by the fact that the monitor and control gas contains at least as much oxygen as the maximum amount of oxygen that is fed into the combustion process and / or that temperature is higher than the temperature of the combustion gas. Is entered into the combustion process 5. The process is in accordance with one of the rights mentioned above. It has the characteristics that after passing through the catalyst The monitored and controlled gas is exited to the process independent of other gases. That has come out of the combustion process or is mixed with at least one of the gases exiting from at least one of the combustion stage 6. Process in accordance with one of the claims described above. It is characterized by the fact that the catalyst takes the form of a moving bed. 7. Process according to one of the claims described above. It is characterized by the fact that the catalyst will go through at least one combustion process being performed in at least one combustion area. That area is fed with at least one oxygen-containing gas. And the catalyst goes through a process for monitoring and controlling the end of combustion in the monitoring and control area. Separated from the combustion area or from the final combustion area to allow the catalyst to pass through and to prevent gas passage. The monitoring and control gas is fed into the inspection and control area and is separated from the said inspection and control area. The temperature and / or the amount of oxygen of the separated gas was measured. 8. Process in accordance with one of the claims described above. It is characterized by the fact that the catalyst will undergo at least one combustion process which is performed within at least one combustion area. That area is fed with at least one oxygen gas And the catalyst goes through a procedure for monitoring and controlling the end of combustion in the monitoring and control area, which is the lower part of the final combustion area. Monitoring and control gas, which is fed into the monitoring and control area. And the temperature and / or the oxygen content of the gases exiting the area, which were measured. 9. The process according to any one of claims 1 to 5, which is characterized by that the catalyst is in the form (Fixed bed) 1 0. Resilience process according to any of claims 1 through 8 in which the catalyst flows in a downward motion bed between two walls. It is at least in the burning area. It is cut through by hot oxygen-containing gas that enters the bed through a wall. And exits the bed through another wall In which such area The flames in which the front has an inclined pattern are formed. The highest point on the wall, where the gas entering through it at the level through which the catalyst reacts into it. And the lowest point is on the wall where the gas will go out. In the combustion process of at least one carbonized material, the combustion area is monitored and controlled as follows: At least one XY parameter of the complete combustion area. Absolute was measured and at least one XN parameter was measured in at least one non-combustion area of reference point selected near or on the front flame obtained under operating conditions. Normalization is provided with function parameters which include XY and XN, the position of the point under normal operating conditions. Which contains the set reference value And the position of the dummy point that is calculated from the function parameter is calculated from the measurement point on either side of the reference value. The position is then compared with the reference point that was set. And if there is a difference that appears At least one operating condition is altered to mitigate or eliminate such discrepancies. 1 1. Process according to any one of claims 1 through 10, which is characterized by that the lowest point is the lowest point. The front flames are positioned at most 98% of the total height of the combustion area from the upper part of the combustion area 1 2. Process according to claim 10 or claim 11, which is unique. That under normal operating conditions The position of the front combustion lowest point consists of a set reference value 1 3. The process according to one of claim 10 has the characteristics that the moving bed has a ring type 1. 4. The process according to any of the clauses 10 to 13, which is characterized by that combustion is monitored and controlled by adjusting the amount of oxygen entering the combustion zone 1 5. The process of which of the following One of claims 10 through 14, it is characterized by that combustion is monitored and controlled by adjusting the flow rate of the catalyst 1 6.Process according to one of claim 10. To 15, it is characterized by the fact that the catalyst passes through a number of combustion regions And that the process was carried out in the final area where the combustion took place 1 7. Resilient vessel for used catalyst comprising at least one combustion area. The region with a minimum number of walls (5a, 5b), between which the reactor is circulated as a moving bed. And there will be at least one conduit (4) for holding at least one oxygen-containing gas, the gas entering the bed, passing through one wall and exiting through the other. It also includes a region (FC) at the end of the final combustion area (Z2), where there is a groove (11) for feeding the oxygenated gas, and - that container is, at least. One way to measure gas temperature And / or the incoming catalyst and the gas and / or the issued catalyst And / or at least one path for measuring the oxygen content of the incoming and outgoing gases (FC) such; and - the said paths include methods for modifying the operating conditions of the At least the burning area is different. Which is more than the change that can occur between the temperature of the gas And / or catalyst entering area (FC) and gas / or catalyst coming into site (FC) and / or the amount of oxygen entering area (FC) and exiting gas ( FC) Changes that can occur will be a temperature difference that will occur no more than 3% or a difference in the oxygen content of less than 10%. 1 8. The container according to claim 17, which will be unique. That the inspection and control area is placed in the lower part of the final combustion area 1. 9. Vessel according to claim 17 or claim 18, which has the characteristics that the accelerator The reaction circulates in a ring region, which is defined by two cylindrical walls. And one or more units of measure are placed in the walls of the monitoring and control area through which the gas is passed. 2 0. The container according to claim 17, which is characterized by having at least one separate sample. (29) which is between the inspection and control area and the final combustion area to prevent gas passage and to allow the catalyst to pass through. And that it also includes an outlet conduit (28) for the gas to exit the monitoring and control area. And one or more units of measure are placed in such outgoing troughs. (28) 2 1. Vessels according to claim 17 or 18, which shall have a specification that includes at least one intersection. (29) which is between the monitoring and control area and the final combustion area to prevent gas passage and to allow the catalyst to pass, and that it also includes a groove (28) for the gas to pass out. From the monitoring and control area And that at least one or more of the control paths are in the walls of the inspection and control area through which the gas is passed. 2. 2. Containers according to any of claims 17 to 21 shall be That said, it also included the apparatus in at least one area where it burned. Which the device will include At least one method for measuring the TY temperature of the part of the area where the combustion took place. At least one route for TN temperature measurement on parts of the area where combustion does not occur. At least two paths for measuring the temperature Tj of the bed are located at the position Pj between the TY and TN units of measurement, and are placed on either side of the PO level in the combustion area, according to the position of the reference point for the flame. Front lights to obtain a set reference value under normal operating conditions. A path for circulating the dummy point following the point on the front flame from the temperature Tj, TY, TN obtained at the point Pj and for comparing that position with a preset reference value The method for conditioning the combustion zone operating conditions is connected to the circulating path described above and is connected to at least one of the operating conditions for the operating conditions 2. 3. Vessel according to claim 22, which is characterized by that the TN unit is placed in the third lower part of the combustion area 2. 4. Vessel according to claim 22 or 23, which It is characterized by that the TY unit is located in the upper two thirds of the combustion area. 2. 5. Vessels according to any of the claims 22 to 24, which are characterized by that a set of units. The measured temperature is placed at the same measurement level. This yields an average temperature of 2 6. Vessels according to one of claims 22 to 24, which have the characteristics that the two walls are cylindrical and co-axed. Which determines the bed of the catalyst in the ring The gas entering through the outer wall and being stored in the collector is defined by the inner wall. The temperature-measuring path in which the collector is placed. 2. 7. Containers according to any of the claims 22 to 26, which are characterized by that the two walls are cylindrical and share a common axis. This will determine the catalytic ring bed. The gas entering the combustion area from the volume determined by the inner wall. Through the inner wall to block the bed and exit through the outer wall. 2 8. The vessel according to any of Claims 22 to 27, which is characterized by that the probe is distributed in the accelerator bed. Reaction 2 9. Vessels according to any one of claims 22 through 28, which are characterized by that the position of the redundant point is measured and controlled by the PID algorithm, the internal control model, the model. Predictive control model or non linear control model 3. 0. The container according to any of claims 22 to 29, which has the characteristics that it includes. At least one path is for measuring the TY temperature of the part of the area in which the combustion takes place on the wall through which the exhausted gas passes. At least one of the methods for measuring the TN temperature of the part of the area where combustion does not take place on the walls through which the exhausted gas passes. At least two paths for measuring the temperature Tj of the bed are located at the position Pj between the TY and TN units on the wall through which the gas that is exhaled will pass. And was placed on either side of the PO level in the combustion zone following the lowest position of the front flame to obtain the set reference value under normal operating conditions. A path for circulating the dummy point following the point on the front flare from the Tj, TY, TN temperature measurements obtained at the Pj point and for comparing that position with a preset reference value. The method for conditioning the combustion zone is connected to the recirculation unit described above and is connected to at least one of the operating conditions for conditioning 3. 1. Vessels according to any of the clauses 17 to 21, in which grooves (11) are fed into the area (FC) where the gas will contain the amount of oxygen. At least equal to the maximum amount of oxygen fed into the combustion stage, or at the lowest temperature of the gas fed into the combustion stage 3. 2. Vessels according to any one of claims 17 to 21 or 32, in which grooves (11) will feed a gas consisting of at least one part of the gas from the final combustion stage with the filled oxygen.