CN108732294B - On-line reaction performance evaluation system for catalyst of moving bed device, reaction performance evaluation method thereof and moving bed device - Google Patents

Abstract

The invention relates to the technical field of petrochemical engineering development, and provides an on-line reaction performance evaluation system for a catalyst of a moving bed device and a reaction performance evaluation method thereof. The system comprises a first catalyst delivery pipe, a catalyst quantifying device, a second catalyst delivery pipe, a performance test reactor, a product gas delivery pipe and a product analyzer. The on-line reaction performance evaluation system can continuously analyze and measure the reaction performance of the catalyst in the moving bed device, timely obtain the evaluation data of the reaction performance of the catalyst and provide a quick and reliable judgment basis for adjusting the operation of the moving bed device. The embodiment of the invention provides a moving bed device and a reaction performance evaluation method thereof, which can continuously analyze and measure a catalyst in the reaction and regeneration processes in the moving bed device in real time, obtain the reaction performance evaluation data of the catalyst in real time so as to know the reaction state of the moving bed device, and have high working efficiency.

Description

On-line reaction performance evaluation system for catalyst of moving bed device, reaction performance evaluation method thereof and moving bed device

Technical Field

The invention relates to the technical field of petrochemical engineering development, in particular to an on-line reaction performance evaluation system for a catalyst of a moving bed device, a reaction performance evaluation method of the on-line reaction performance evaluation system and the moving bed device.

Background

The moving bed reactor is used for realizing a gas-solid phase reaction process or a liquid-solid phase reaction process, and is provided with a catalyst circulating and regenerating system, wherein the catalyst circularly moves between the reactor and the regenerator, and the catalyst containing carbon deposit after reaction is continuously regenerated in the regenerator and then is conveyed back to the reactor for reaction. Moving bed technology is widely used in continuous reforming, moving bed propane dehydrogenation, and S-Zorb and other processes.

The establishment of an on-line monitoring and analyzing system for each process material in the oil refining chemical process is an important link for the construction of an intelligent factory, and meanwhile, the catalyst state in the reaction process is a key factor in the oil refining chemical process, and the prior art cannot perform real-time monitoring on the evaluation of the catalyst, so that the guiding effect on the operation of the device is reduced. Therefore, an intelligent online analysis system for analyzing and measuring the catalyst in real time in the reaction process is established, the catalyst sample is continuously collected in real time and is tested and analyzed, real-time data such as the reaction performance of the catalyst are obtained, and a quick and reliable adjustment judgment basis can be provided for the operation of the device.

Disclosure of Invention

A first object of the present invention is to provide an on-line reaction performance evaluation system for a catalyst in a moving bed apparatus, which can continuously and real-timely analyze and measure the reaction performance of the catalyst in the moving bed apparatus and obtain the catalyst reaction performance evaluation data in time.

A second object of the present invention is to provide a moving bed apparatus, which comprises a device for continuously analyzing and measuring the reaction performance of a catalyst in the moving bed apparatus in real time, and knowing the reaction state of the moving bed apparatus in time based on the reaction performance data of the catalyst, and which has high operation efficiency.

A third object of the present invention is to provide a method for evaluating the reaction performance of a catalyst in a moving bed apparatus, which can continuously analyze and measure the catalyst in the reaction and regeneration processes in real time in the moving bed apparatus, obtain the evaluation data of the reaction performance of the catalyst in time, and provide a quick and reliable basis for determining the adjustment of the operation of the moving bed apparatus.

The embodiment of the invention is realized by the following steps:

an on-line reaction performance evaluation system for a catalyst of a moving bed device comprises: the device comprises a first catalyst conveying pipe, a catalyst quantifying device, a second catalyst conveying pipe, a performance test reactor, a product gas conveying pipe and a product analyzer;

the discharge end of the first catalyst conveying pipe is connected with the catalyst quantifying device, and the feed end of the first catalyst conveying pipe is used for being connected with a catalyst external circulation pipe of the moving bed device;

the feed end of the second catalyst conveying pipe is connected with the catalyst quantifying device, and the discharge end of the second catalyst conveying pipe is connected with the performance testing reactor;

the gas inlet end of the product gas conveying pipe is connected with the performance test reactor, and the gas outlet end of the product gas conveying pipe is connected with the product analyzer.

In a preferred embodiment of the present invention, the online reaction performance evaluation system further includes: and the feed end of the catalyst external discharge pipe is connected with the performance test reactor and used for discharging the tested catalyst out of the online reaction performance evaluation system.

In a preferred embodiment of the present invention, the online reaction performance evaluation system further includes: and the third catalyst conveying pipe is used for conveying the tested catalyst into the moving bed device or into the catalyst outer circulating pipe of the moving bed device, the feeding end of the third catalyst conveying pipe is connected with the catalyst outer discharge pipe, and the discharging end of the third catalyst conveying pipe is used for being connected to the catalyst outer circulating pipe of the moving bed device.

In a preferred embodiment of the present invention, the online reaction performance evaluation system further includes: a standard substance feeding pipe used for conveying a standard substance into the performance testing reactor and a purge gas conveying pipe used for conveying nitrogen or inert gas into the performance testing reactor;

the feed end of the standard substance feed pipe is connected with the standard substance storage device, and the discharge end of the standard substance feed pipe is communicated with the performance test reactor; the gas inlet end of the purging gas conveying pipe is connected with the nitrogen/inert gas generator or the nitrogen/inert gas source, and the gas outlet end of the purging gas conveying pipe is communicated with the performance testing reactor.

In a preferred embodiment of the invention, the standard substance feed pipe is provided with a preheating furnace for preheating the standard substance or the standard substance feed pipe.

In a preferred embodiment of the present invention, the online reaction performance evaluation system further includes: a filter for filtering the flue gas or the catalyst reaction products;

the filter is arranged at the joint of the performance test reactor and the product gas conveying pipe or in the product gas conveying pipe.

In a preferred embodiment of the present invention, the online reaction performance evaluation system further includes: a level gauge;

the material level meter is arranged in the catalyst quantifying device and is used for quantifying the catalyst from the first catalyst conveying pipe;

preferably, the level meter is one or more of a rotation-resisting level meter, a capacitance level meter, a permanent magnet level meter, an ultrasonic level meter, a radar level meter, a guided wave radar level meter, a laser level meter, a weight type level meter, an ray type level meter and a weighing type level meter.

The moving bed device comprises the on-line reaction performance evaluation system, and the feed end of a first catalyst conveying pipe of the on-line reaction performance evaluation system is connected with a catalyst external circulation pipe of the moving bed device.

In a preferred embodiment of the present invention, the catalyst circulation pipe includes a pressure maintaining valve, a flow meter and a gas delivery pipe.

A method for evaluating the reaction performance of a catalyst in a moving bed unit, which comprises the following steps: the online reaction performance evaluation system is adopted to perform online reaction performance evaluation on the catalyst in the catalyst external circulation pipe of the moving bed device.

In a preferred embodiment of the present invention, the method for evaluating reaction performance includes a system preparation step, which includes:

starting a data processing terminal, preheating a product analyzer to enable the product analyzer to enter and keep a ready state; heating the performance test reactor to a certain temperature through a heating furnace at a certain speed, preferably, the heating speed is 5-50 ℃/min, heating to 450-550 ℃, further preferably, the heating speed can also be 15-25 ℃/min and the like; preheating a standard substance feeding pipe to a certain temperature through a preheating furnace, and preferably heating to 100-140 ℃; and opening a nitrogen flowmeter on the nitrogen conveying pipe in the purging gas conveying pipe to purge the reaction testing system.

In a preferred embodiment of the present invention, the reaction performance evaluation method includes a catalyst collecting and filling step, where the catalyst collecting and filling step includes intermittently or periodically conveying the catalyst from the catalyst external circulation pipe of the moving bed apparatus to the catalyst quantitative apparatus through the first catalyst conveying pipe for quantitative determination, and taking out a certain mass or a certain volume of the catalyst, preferably 0.1 to 5L of the catalyst, and further preferably 0.5 to 1.5L of the catalyst, through a level meter of the catalyst quantitative apparatus, and the catalyst after quantitative determination enters the performance test reactor through the second catalyst conveying pipe for performing a catalyst performance test.

In a preferred embodiment of the present invention, the reaction performance evaluation method comprises a catalyst performance test evaluation step, the catalyst performance test evaluation step comprising: opening and adjusting a pump for conveying the standard substance on the standard substance feeding pipe, adjusting the flow rate of the standard substance to a set value, preferably, the set value of the pump is 0.5-3L/h, and further preferably, 0.5-1.5L/h, and then starting to perform a catalyst performance evaluation reaction.

In a preferred embodiment of the present invention, the method for evaluating the reaction performance includes a data acquisition and transmission step, where the data acquisition and transmission step includes: and (3) introducing a standard substance into the performance test reactor to start timing, wherein the interval time is preferably 10-60 min, and further preferably 10-20 min every other period, collecting product composition data through a product analyzer, transmitting the collected data to a data processing terminal, stopping feeding from the first catalyst conveying pipe after timing for a certain period, and obtaining a catalyst performance test result at the data processing terminal.

The embodiment of the invention has the beneficial effects that:

the embodiment of the invention provides an on-line reaction performance evaluation system for a catalyst of a moving bed device, which comprises a first catalyst conveying pipe, a catalyst quantifying device, a second catalyst conveying pipe, a performance testing reactor, a product gas conveying pipe and a product analyzer. The on-line reaction performance evaluation system can continuously and real-timely analyze and measure the reaction performance of the catalyst in the moving bed device and timely obtain the evaluation data of the reaction performance of the catalyst. The moving bed device provided by the embodiment of the invention comprises the on-line reaction performance evaluation system, can know the reaction state of the moving bed device in time according to the reaction performance evaluation data of the catalyst, and has high working efficiency. In addition, the invention also provides a method for evaluating the reaction performance of the catalyst of the moving bed device, which can continuously analyze and measure the catalyst in the reaction and regeneration processes in real time in the moving bed device, timely obtain the evaluation data of the reaction performance of the catalyst, provide a quick and reliable judgment basis for adjusting the operation of the moving bed device and have great significance for establishing an online detection system of a petrochemical intelligent factory.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of an online reaction performance evaluation system according to a first embodiment of the present invention.

In the figure: 10-an on-line reaction performance evaluation system; 101-a first catalyst delivery pipe; 103-catalyst dosing unit; 105-a second catalyst delivery conduit; 107-performance testing reactor; 109-a third catalyst transfer line; 110-catalyst outlet pipes; 111-standard substance feed tube; 113-a standard substance reservoir; 115-a purge gas delivery line; 117-nitrogen or inert gas generator; 120-product gas delivery line; 121-product analyzer; 122-product gas outer drain pipe; 123-data processing terminal; 200-a moving bed unit; 201-a reactor; 203-a regenerator; 210-catalyst external circulation tube.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

First embodiment

Referring to fig. 1, the present embodiment provides an on-line reaction performance evaluation system 10 for a moving bed unit catalyst, which includes:

a first catalyst delivery pipe 101, a catalyst dosing device 103, a level gauge, a second catalyst delivery pipe 105, a performance test reactor 107, a product gas delivery pipe 120, a product analyzer 121, a catalyst outlet pipe 110, a third catalyst delivery pipe 109, a heating furnace, a standard substance feed pipe 111, a purge gas delivery pipe 115, a preheating furnace, a pump, a temperature gauge, a pressure gauge, and a filter. The on-line reaction performance evaluation system 10 can continuously and real-timely analyze and measure the catalyst in the reaction and regeneration processes of the moving bed apparatus 200, timely obtain evaluation data of the catalyst reaction performance, and provide rapid and reliable judgment data for adjusting the operation parameters of the moving bed apparatus 200.

Specifically, the discharge end of the first catalyst conveying pipe 101 is connected with the catalyst quantitative device 103, and the feed end of the first catalyst conveying pipe 101 is used for being connected with the catalyst external circulation pipe 210 of the moving bed device 200; the feed end of the second catalyst conveying pipe 105 is connected with the catalyst quantifying device 103, and the discharge end of the second catalyst conveying pipe 105 is connected with the performance test reactor 107; the inlet end of the product gas delivery line 120 is connected to the performance test reactor 107, and the outlet end of the product gas delivery line 120 is connected to the product analyzer 121.

The discharge end of the first catalyst transfer pipe 101 is connected to the catalyst metering device 103 to lead out and transfer the catalyst portion in the catalyst circulation pipe 210 of the moving bed apparatus 200 to the catalyst metering device 103, and then the catalyst metering device 103 meters the catalyst of the led-out portion by mass, volume, or both.

It should be noted that the catalyst external circulation pipe 210 is a sampling pipe, and is used for extracting the catalyst sample from the moving bed apparatus 200 and establishing a circulation of the catalyst outside the moving bed apparatus 200, and specifically, the catalyst external circulation pipe 210 continuously conveys the catalyst sample to the regenerator 203 or the reactor 201 of the moving bed apparatus 200 or any position containing the catalyst from the reactor 201, the regenerator 203 or any position containing the catalyst of the moving bed apparatus 200. Preferably, in some embodiments, the online reaction performance evaluation system 10 includes a catalyst external circulation pipe 210. Further, a level gauge is provided in the catalyst metering device 103 for metering the catalyst from the first catalyst transport pipe 101. In the present embodiment, the level gauge is an ultrasonic level gauge. It should be noted that in other embodiments, the level gauge may be one or more of a resistance-rotation level gauge, a capacitance level gauge, a permanent-magnet level gauge, an ultrasonic level gauge, a radar level gauge, a guided wave radar level gauge, a laser level gauge, a weight level gauge, a ray level gauge, and a weighing level gauge.

Thereafter, the catalyst quantitative determination device 103 quantitatively determines the catalyst to be withdrawn, and then conveys the catalyst to the performance test reactor 107 through the second catalyst conveying pipe 105 to start the performance test reaction of the catalyst.

When the performance test of the catalyst is started, the standard substance is fed into the performance test reactor 107 through the standard substance feed pipe 111, and nitrogen or an inert gas is fed into the performance test reactor 107 through the purge gas feed pipe 115. Specifically, the feed end of the standard substance feed pipe 111 is connected with the standard substance storage 113, and the discharge end of the standard substance feed pipe 111 is communicated with the performance test reactor 107; the inlet end of the purge gas delivery line 115 is connected to a nitrogen or inert gas generator 117, and the outlet end of the purge gas delivery line 115 is in communication with the performance test reactor 107.

Wherein, the standard substance is a representative substance for catalyst evaluation, in this embodiment, the standard substance is a micro-reaction standard oil for evaluation of catalytic cracking micro-reaction activity, specifically straight-run diesel oil with a distillation range of 325-. In other examples, the standard substance may be a specific pure substance, a raw material (straight-run diesel, propane) prepared, cyclohexane used for evaluation of a reforming catalyst, or the like.

Further, the performance test reactor 107 is provided with a temperature measuring instrument, a pressure measuring instrument, and a heating furnace that performs temperature control on the performance test reactor 107. The temperature measuring instrument and the pressure measuring instrument can measure the temperature and the pressure in the performance testing reactor 107 in real time, so that the performance testing reaction can be carried out more smoothly and controllably.

The purge gas delivery line 115 functions to purge other materials in the performance testing reactor 107 away from the performance testing reactor 107, creating a reaction performance evaluation reaction environment in which reaction products are purged into the product gas delivery line 120 during the evaluation reaction. The catalyst enters a fluidized state. The purge gas delivery pipe 115 includes a pressure maintaining valve, a pressure gauge, and a flow meter, wherein the flow meter is a mass flow meter or a volume flow meter. In the present embodiment, the purge gas supply line 115 is a nitrogen gas supply line, and the flow meter is a mass flow meter. It should be noted that in other embodiments, the purge gas delivery line 115 can be another inert product gas delivery line 120. The inert gas is, for example, any of helium (He), neon (Ne), argon (Ar), krypton (Kr), and xenon (Xe); the flow meter may be a volumetric flow meter.

In this embodiment, the standard substance feeding pipe 111 is provided with a preheating furnace, specifically, the preheating furnace capable of preheating the standard substance feeding pipe 111 is provided on the standard substance feeding pipe 111, so as to facilitate fluency of the standard substance during the transportation process, and simultaneously avoid the standard substance from being retained on the feeding pipe, thereby maintaining or prolonging the service life of the standard substance feeding pipe 111.

In the present embodiment, the standard substance feed pipe 111 is provided with a pump for feeding the standard substance. It should be noted that in other embodiments, the proof mass feed tube 111 may be provided with a flow meter for metering the proof mass.

Subsequently, after the performance reaction test, the product of the catalyst is transported through the product gas transport line 120 to the product analyzer 121 for analysis. Specifically, the product analyzer 121 is connected to a data processing terminal 123, for example, the data processing terminal 123 may be a computer or a control panel.

Further, in this embodiment, the online reaction performance evaluation system 10 further includes: a filter for filtering flue gas or catalyst reaction products. A filter is provided at the junction of the performance test reactor 107 and the product gas delivery line 120. It should be noted that in other embodiments, a filter may be provided in the product gas delivery line 120 or the in-line reaction performance evaluation system 10 may omit the filter.

Further, in this embodiment, the online reaction performance evaluation system 10 further includes: a product gas exhaust line 122 for exhausting catalyst reaction product gas from the evaluation system. The inlet end of the product gas outlet pipe 122 is connected to the product analyzer 121, and the outlet end of the product gas outlet pipe 122 is connected to the atmosphere or a filter for filtering the product gas.

In addition, the tested catalyst is discharged out of the performance testing reactor 107 through the catalyst outlet pipe 110 or is returned to the catalyst outlet pipe 210 through the third catalyst delivery pipe 109 to be returned to the moving bed apparatus 200 for use. Specifically, the feed end of the catalyst discharge pipe 110 is connected to the performance test reactor 107. In this embodiment, the discharge end of the catalyst discharge pipe 110 is connected to the feed end of the third catalyst transport pipe 109. It should be noted that in other embodiments, the discharge end of the catalyst outlet pipe 110 may be connected to the atmosphere to discharge the tested catalyst out of the performance testing reactor 107 through the catalyst outlet pipe 110, or the discharge end of the catalyst outlet pipe 110 may be connected to a filter for filtering the catalyst.

In the following, briefly describing the operation of the on-line reaction performance evaluation system 10 according to the embodiment of the present invention, when the catalyst circulation pipe 210 is connected to the moving bed apparatus 200, a small amount of catalyst sample is continuously and continuously separated from the reactor 201 or the regenerator 203 of the moving bed apparatus 200 for sampling or detection, and a small circulation of catalyst is established outside the moving bed apparatus 200. When the feed end of the first catalyst transfer pipe 101 is connected to the catalyst external circulation pipe 210 of the moving bed apparatus 200, the first catalyst transfer pipe 101 can transfer a part of the catalyst from the catalyst external circulation pipe 210 to the catalyst metering apparatus 103. After the catalyst quantitative device 103 quantitatively determines the catalyst in the derived part, the catalyst quantitative device is connected to the catalyst quantitative device 103 through a second catalyst transport pipe 105, and the performance test reactor 107 is fed with a standard substance for testing the performance of the catalyst through a standard substance feed pipe 111, and a catalyst performance test reaction is started. The tested catalyst is discharged to the outside of the system or to a filtering device for filtering the catalyst through a catalyst outlet pipe 110 connected to the performance testing reactor 107, and the tested catalyst can also be conveyed to a catalyst outer circulation pipe 210 of the moving bed device 200 through a third catalyst conveying pipe 109 connected to the discharge end of the catalyst outlet pipe 110. And the product gas generated after the catalyst test reaction is conveyed to a product analyzer 121 through a product gas conveying pipe 120 for data acquisition, and the acquired data is conveyed to a data processing terminal 123 for analysis to obtain a performance evaluation result of the catalyst.

Second embodiment

This embodiment provides a moving bed apparatus 200, which includes the on-line reaction performance evaluation system 10 provided in the first embodiment, referring to fig. 1 again, and the arrows in fig. 1 indicate the direction of the catalyst flow or the direction of the flue gas flow.

Specifically, the moving bed apparatus 200 includes a reactor 201 and a regenerator 203, and a catalyst external circulation pipe 210 is disposed between the reactor 201 and the regenerator 203. The feed end of the catalyst external circulation pipe 210 is connected with the reactor 201, and the discharge end of the catalyst external circulation pipe 210 is connected with the regenerator 203. After the catalyst is catalyzed in the reactor 201, the catalyst is continuously and stably conveyed to the regenerator 203 for regeneration through the catalyst external circulation pipe 210 when no analysis sampling is carried out, and the catalyst external circulation pipe 210 establishes a small amount of catalyst external circulation. It should be noted that the catalyst recycle line 210 can continuously transport the catalyst sample from the reactor 201, the regenerator 203, or any location containing catalyst of the moving bed apparatus 200 to the regenerator 203 or the reactor 201, or any location containing catalyst of the moving bed apparatus 200.

In this embodiment. The catalyst external circulation pipe 210 is provided with a delivery pipe, a flow meter, and a pressure maintaining valve, the delivery pipe is a nitrogen delivery pipe, the flow meter is a nitrogen flow meter, and the pressure maintaining valve is a nitrogen pressure maintaining valve. It should be noted that in other embodiments, the delivery pipe may be a steam delivery pipe, the flow meter may be a steam flow meter, and the pressure maintaining valve may be a steam pressure maintaining valve.

The feed end of the first catalyst transfer pipe 101 of the on-line reaction performance evaluation system 10 is connected to the catalyst external circulation pipe 210 of the fluidizing device. Specifically, the feed end of the first catalyst transfer pipe 101 is connected to the catalyst external circulation pipe 210 at a position near the reactor 201, and is used for guiding out the catalyst portion in the catalyst external circulation pipe 210 to the catalyst metering device 103.

The discharge end of the third catalyst transfer pipe 109 is connected to a catalyst external circulation pipe 210 at a position near the regenerator 203. The tested catalyst is transported to the catalyst external circulation pipe 210 through the third catalyst transport pipe 109 and further transported to the regenerator 203 to be regenerated and used.

The on-line reaction performance evaluation system 10 can continuously and real-timely analyze and measure the reaction performance of the catalyst in the moving bed device 200, the moving bed device 200 equipped with the on-line reaction performance evaluation system 10 can timely obtain the on-line reaction performance evaluation system 10 of the catalyst reaction performance evaluation data, and the reaction state of the moving bed device 200 can be known and adjusted in time according to the catalyst reaction performance evaluation data, so that the work efficiency is high.

Third embodiment

Referring again to fig. 1, this example provides a method for evaluating catalyst performance using the moving bed apparatus 200 provided in the second example, which comprises the following steps:

preparing a system:

starting the data processing terminal 123, preheating the product analyzer 121 to enable the product analyzer 121 to enter and maintain a ready state; heating the performance test reactor 107 to 500 ℃ through a heating furnace at a heating rate of 15 ℃/min and keeping the temperature; preheating the standard substance feed tube 111 to 120 ℃ by a preheating furnace and maintaining the temperature; opening a nitrogen flowmeter on a nitrogen delivery pipe in the purge gas delivery pipe 115 to purge the reaction test system;

collecting and filling a catalyst:

intermittently or regularly conveying the catalyst from a catalyst external circulation pipe 210 of the moving bed device 200 to a catalyst quantifying device 103 through a first catalyst conveying pipe 101 for quantifying, taking out 2kg of the catalyst under the control of a level meter of the catalyst quantifying device 103, and conveying the quantified 2kg of the catalyst into a performance testing reactor 107 through a second catalyst conveying pipe 105 to carry out a catalyst performance test;

performance test evaluation of catalyst:

adjusting the mass flow meter on the standard material feeding pipe 111, wherein the set value of the mass flow meter is 2kg/h, and starting to perform catalyst performance evaluation reaction;

data acquisition and transmission:

and (3) introducing a standard substance into the performance test reactor 107 to start timing, collecting product composition data through the product analyzer 121 every 10min, transmitting the collected data to the data processing terminal 123, stopping feeding from the first catalyst conveying pipe 101 after timing for 30min, and obtaining a catalyst performance test result by the data processing terminal 123.

To sum up, the on-line reaction performance evaluation system for the catalyst of the moving bed device provided by the embodiment of the invention comprises a first catalyst conveying pipe, a catalyst quantifying device, a second catalyst conveying pipe, a performance test reactor, a product gas conveying pipe and a product analyzer; the discharge end of the first catalyst conveying pipe is connected with the catalyst quantifying device, and the feed end of the first catalyst conveying pipe is used for being connected with a catalyst external circulation pipe of the moving bed device; the feed end of the second catalyst conveying pipe is connected with the catalyst quantifying device, and the discharge end of the second catalyst conveying pipe is connected with the performance testing reactor; the gas inlet end of the product gas conveying pipe is connected with the performance test reactor, and the gas outlet end of the product gas conveying pipe is connected with the product analyzer. The on-line reaction performance evaluation system can continuously and real-timely analyze and measure the reaction performance of the catalyst in the moving bed device and timely obtain the evaluation data of the reaction performance of the catalyst.

The moving bed device provided by the embodiment of the invention comprises the on-line reaction performance evaluation system, can know the reaction state of the moving bed device in time according to the reaction performance evaluation data of the catalyst, and has high working efficiency.

In addition, the invention also provides a method for evaluating the reaction performance of the catalyst of the moving bed device, which can continuously analyze and measure the catalyst in the reaction and regeneration processes in real time in the moving bed device, timely obtain the evaluation data of the reaction performance of the catalyst, provide a quick and reliable judgment basis for adjusting the operation of the moving bed device, and have great significance for establishing an online detection system of an oil refining and chemical industry intelligent factory.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. An on-line reaction performance evaluation system for a catalyst of a moving bed device is characterized by comprising the following components: the device comprises a first catalyst conveying pipe, a catalyst quantifying device, a second catalyst conveying pipe, a performance test reactor, a product gas conveying pipe and a product analyzer;

the discharge end of the first catalyst conveying pipe is connected with the catalyst quantifying device, and the feed end of the first catalyst conveying pipe is used for being connected with a catalyst external circulation pipe of the moving bed device;

the feed end of the second catalyst conveying pipe is connected with the catalyst quantifying device, and the discharge end of the second catalyst conveying pipe is connected with the performance test reactor;

the gas inlet end of the product gas conveying pipe is connected with the performance test reactor, and the gas outlet end of the product gas conveying pipe is connected with the product analyzer; the online reaction performance evaluation system further includes: a catalyst outer discharge pipe;

the feed end of the catalyst outer discharge pipe is connected with the performance test reactor and used for discharging the tested catalyst out of the online reaction performance evaluation system; the online reaction performance evaluation system further includes: a third catalyst conveying pipe used for conveying the tested catalyst to the catalyst outer circulating pipe of the moving bed device;

the feed end of the third catalyst conveying pipe is connected with the catalyst outer discharge pipe, and the discharge end of the third catalyst conveying pipe is used for being connected to a catalyst outer circulation pipe of the moving bed device.

2. The on-line reaction performance evaluation system according to claim 1, further comprising: a standard substance feed pipe for feeding a standard substance into the performance test reactor and a purge gas feed pipe for feeding nitrogen or an inert gas into the performance test reactor;

the feed end of the standard substance feed pipe is connected with a standard substance storage device, and the discharge end of the standard substance feed pipe is communicated with the performance test reactor;

and the gas inlet end of the purging gas conveying pipe is connected with a nitrogen or inert gas source, and the gas outlet end of the purging gas conveying pipe is communicated with the performance test reactor.

3. The on-line reaction performance evaluation system of claim 2, wherein the standard substance feed pipe is provided with a preheating furnace for preheating a standard substance or the standard substance feed pipe.

4. The on-line reaction performance evaluation system according to claim 2, wherein the standard substance feed pipe is provided with a pump for feeding a standard substance or a flow meter for measuring a standard substance feed flow rate.

5. The on-line reaction performance evaluation system according to claim 1, wherein a temperature measuring instrument, a pressure measuring instrument and a heating furnace for temperature control of the performance testing reactor are provided on the performance testing reactor.

6. The on-line reaction performance evaluation system according to claim 1, further comprising: a filter for filtering the flue gas or the catalyst reaction products;

the filter is arranged at the joint of the performance test reactor and the product gas conveying pipe or in the product gas conveying pipe.

7. A moving bed apparatus comprising the on-line reaction performance evaluation system according to any one of claims 1 to 6.

8. A method for evaluating the reaction performance of a catalyst in a moving bed apparatus, comprising: the on-line reaction performance evaluation system of any one of claims 1 to 6 is used for carrying out on-line reaction performance evaluation on the catalyst in the catalyst external circulation pipe of the moving bed device.

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