CN213397828U

CN213397828U - Novel high-temperature heavy oil sampler

Info

Publication number: CN213397828U
Application number: CN202022696498.3U
Authority: CN
Inventors: 张宣杰; 王晓猛; 马富祥
Original assignee: Hengli Petrochemical Dalian Refining Co Ltd
Current assignee: Hengli Petrochemical Dalian Refining Co Ltd
Priority date: 2020-11-19
Filing date: 2020-11-19
Publication date: 2021-06-08
Anticipated expiration: 2030-11-19

Abstract

The utility model discloses a novel high temperature heavy oil sample thief belongs to the sampling technical field of petrochemical high temperature heavy oil. The high-temperature heavy oil sampler is connected to a medium sampling flow channel of the high-temperature heavy oil pipeline, the medium sampling flow channel is connected with a sampling valve a and a sampling valve b through pipelines, the sampling valve b is connected with a nitrogen purging valve, and the nitrogen purging valve is connected with a nitrogen purging connector and a nitrogen tank; a pipeline branched from the pipeline between the sampling valve b and the nitrogen purge valve is connected with a sample collector, and the sample collector is connected with a sampling emptying valve; a temperature measuring device is arranged in the sample collector. Novel high temperature heavy oil sample thief can solve high temperature oil temperature uncontrollable and can't sweep clean problem with sample thief interior oil after the sampling, is suitable for the industrialization and uses.

Description

Novel high-temperature heavy oil sampler

Technical Field

The utility model relates to a novel high temperature heavy oil sample thief belongs to the sampling technical field of petrochemical high temperature heavy oil.

Background

The high-temperature heavy oil sampler used in the market at present is based on the principle that a sleeve cooler is additionally arranged on a medium sampling flow channel, circulating cooling water is introduced into the cooler, when a sampling valve is opened, high-temperature heavy oil flows out of a medium pipeline and enters the sampling flow channel, the circulating water in the cooler cools the high-temperature heavy oil, and after the high-temperature heavy oil is cooled by the circulating water, a sample is taken out after the temperature is reduced, so that the safety of personnel during sampling is ensured; and after sampling is finished, the sampling flow channel is purged by using steam so as to be convenient for repeated use.

However, in practical application, the sampler of the type has the problems that the temperature of high-temperature oil products cannot be controlled and the oil products in the sampler cannot be swept clean after sampling is finished, and has great potential safety hazards; if the circulating water quantity is too small, the temperature of the high-temperature heavy oil is too high, and the effluent oil product is contacted with air, so that spontaneous combustion is easy to occur to cause accidents; in addition, when sampling is finished and the sampling flow channel is purged by steam, the sampling oil product is low in temperature and high in viscosity and is attached to the sampling flow channel, so that the accuracy of next sampling is seriously influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the unable control of high temperature oil temperature and can't sweep clean problem with the interior oil of sample thief after the sampling, the utility model provides a novel high temperature heavy oil sample thief.

A novel high-temperature heavy oil sampler is connected to a medium sampling flow channel of a high-temperature heavy oil pipeline, the medium sampling flow channel is connected with one end of a sampling valve a through a pipeline, the other end of the sampling valve a is connected with one end of a sampling valve b through a pipeline, the other end of the sampling valve b is connected with one end of a nitrogen purging valve through a pipeline, the other end of the nitrogen purging valve is connected with a nitrogen purging connector through a pipeline, and the nitrogen purging connector is connected with a nitrogen tank; a pipeline is branched from the pipeline between the sampling valve b and the nitrogen purge valve and is connected with one end of the sample collector, the other end of the sample collector is connected with the pipeline, and a sampling emptying valve is arranged on the pipeline; a temperature measuring device is arranged in the sample collector.

Further, in the above technical scheme, the inner diameter of the sample collector is larger than the inner diameter of each pipeline in the novel high-temperature heavy oil sampler.

Further, in the above technical scheme, the nitrogen tank, the nitrogen purge joint, the nitrogen purge valve, the sample collector and the sampling evacuation valve are located on the same straight line.

Further, in the above technical solution, the material of the sample collector includes stainless steel.

Further, in the above technical solution, the temperature measuring device is a thermometer.

Furthermore, in the above technical scheme, the sampling valve a, the sampling valve b, the nitrogen purge valve and the sampling evacuation valve are all hand valves.

The use method of the novel high-temperature heavy oil sampler is characterized by comprising the following steps:

(1) before sampling: closing the sampling valve a and the sampling valve b, opening the nitrogen purging valve, the sampling exhaust valve and the nitrogen tank to ensure that nitrogen penetrates through the replacement sample collector, the sampling exhaust valve and the connecting pipeline, closing the nitrogen tank and the nitrogen purging valve after the penetration and replacement are finished, and closing the sampling exhaust valve after the pressure in the sample collector is released;

(2) sampling: closing the nitrogen purge valve and the sampling evacuation valve, opening the sampling valve a and the sampling valve b, enabling the high-temperature heavy oil sample to enter the sample collector, monitoring the temperature measuring device until the sample in the sample collector is cooled to be below the natural point of the sample, and slowly opening the sampling evacuation valve for sampling;

(3) after sampling: and after sampling is finished, immediately performing sweeping and blowing: the oil collecting barrel is placed at the position of the pipeline where the sampling exhaust-off valve is located, the nitrogen purging valve, the sampling exhaust-off valve and the nitrogen tank are opened, oil storage in the sample collector, the sampling exhaust-off valve and the connecting pipeline is blown out to the oil collecting barrel, the nitrogen tank and the nitrogen purging valve are closed after the oil storage is purged completely, and the sample exhaust-off valve is closed after pressure relief in the sample collector.

Beneficial effects of the utility model

Novel high temperature heavy oil sample thief can solve high temperature oil temperature uncontrollable and can't sweep clean problem with sample thief interior oil after the sampling, is suitable for the industrialization and uses. During sampling, after a sample flows into an oil collector, the sampling valve is closed to carry out natural cold cutting, after the temperature of high-temperature heavy oil is reduced to be below the self-ignition point, the emptying valve can be directly opened, the oil is placed into the sampling bottle, and after sampling is finished, the oil is swept clean by using nitrogen when the temperature of the oil is higher and the viscosity is lower.

Drawings

Fig. 1 is a schematic view of the novel high-temperature heavy oil sampler of the present invention.

In the figure, 1, a sampling valve a; 2. a sampling valve b; 3. a nitrogen purge valve; 4. a sampling evacuation valve; 5. purging the joint with nitrogen; 6. a nitrogen tank; 7. a sample collector; 8. a media sampling flow path.

Detailed Description

The following non-limiting examples will allow one of ordinary skill in the art to more fully understand the present invention, but are not intended to limit the invention in any way.

Example 1

A novel high-temperature heavy oil sampler is connected to a medium sampling flow channel of a high-temperature heavy oil pipeline, the medium sampling flow channel 8 is connected with one end of a sampling valve a 1 through a pipeline, the other end of the sampling valve a 1 is connected with one end of a sampling valve b 2 through a pipeline, the other end of the sampling valve b 2 is connected with one end of a nitrogen purging valve 3 through a pipeline, the other end of the nitrogen purging valve 3 is connected with a nitrogen purging connector 5 through a pipeline, and the nitrogen purging connector 5 is connected with a nitrogen tank 6; a pipeline branched from the pipeline between the sampling valve b 2 and the nitrogen purge valve 3 is connected with one end of a sample collector 7, the other end of the sample collector 7 is connected with the pipeline, and a sampling emptying valve 4 is arranged on the pipeline; a temperature measuring device is arranged in the sample collector 7. The inner diameter of the sample collector 7 is larger than that of each pipeline in the novel high-temperature heavy oil sampler. The nitrogen tank 6, the nitrogen purge joint 5, the nitrogen purge valve 3, the sample collector 7 and the sampling evacuation valve 4 are positioned on the same straight line. The material of the sample collector 7 comprises stainless steel. The temperature measuring device is a thermometer. The sampling valve a 1, the sampling valve b 2, the nitrogen purging valve 3 and the sampling emptying valve 4 are all hand valves.

Example 2

A use method of a novel high-temperature heavy oil sampler comprises the following steps: the method comprises the following steps:

(1) before sampling: closing the sampling valve a 1 and the sampling valve b 2, opening the nitrogen purging valve 3, the sampling emptying valve 4 and the nitrogen tank 6 to enable nitrogen to penetrate through the replacement sample collector 7, the sampling emptying valve 4 and the connecting pipeline, closing the nitrogen tank 6 and the nitrogen purging valve 3 after penetrating through the replacement, and closing the sampling emptying valve 4 after pressure is released in the sample collector 7;

(2) sampling: closing the nitrogen purge valve 3 and the sampling evacuation valve 4, opening the sampling valve a 1 and the sampling valve b 2, enabling the high-temperature heavy oil sample to enter the sample collector 7, monitoring the temperature measuring device until the sample in the sample collector 7 is cooled to be below a natural point, and slowly opening the sampling evacuation valve 4 for sampling;

(3) after sampling: and after sampling is finished, immediately performing sweeping and blowing: the oil collecting barrel is placed in the pipeline where the sampling exhaust-off valve 4 is located, the nitrogen purging valve 3, the sampling exhaust-off valve 4 and the nitrogen tank 6 are opened, oil storage in the sample collector 7, the sampling exhaust-off valve 4 and the connecting pipeline is blown out to the oil collecting barrel, the nitrogen tank 6 and the nitrogen purging valve 3 are closed after purging is clean, and the sample exhaust-off valve 4 is closed after pressure relief in the sample collector 7.

Claims

1. A novel high-temperature heavy oil sampler is characterized in that the high-temperature heavy oil sampler is connected to a medium sampling flow channel of a high-temperature heavy oil pipeline, the medium sampling flow channel (8) is connected with one end of a sampling valve a (1) through a pipeline, the other end of the sampling valve a (1) is connected with one end of a sampling valve b (2) through a pipeline, the other end of the sampling valve b (2) is connected with one end of a nitrogen purging valve (3) through a pipeline, the other end of the nitrogen purging valve (3) is connected with a nitrogen purging connector (5) through a pipeline, and the nitrogen purging connector (5) is connected with a nitrogen tank (6); a pipeline is branched from the pipeline between the sampling valve b (2) and the nitrogen purging valve (3) and is connected with one end of a sample collector (7), the other end of the sample collector (7) is connected with the pipeline, and a sampling emptying valve (4) is arranged on the pipeline; and a temperature measuring device is arranged in the sample collector (7).

2. A new high temperature heavy oil sampler as claimed in claim 1 wherein the sample collector (7) has an internal diameter greater than the internal diameter of each of the tubes in the new high temperature heavy oil sampler.

3. The new high temperature heavy oil sampler as claimed in claim 1, wherein the nitrogen gas tank (6), the nitrogen gas purge joint (5), the nitrogen gas purge valve (3), the sample collector (7) and the sample evacuation valve (4) are positioned on the same line.

4. A novel high-temperature heavy oil sampler as claimed in claim 1 wherein the material of the sample collector (7) comprises stainless steel.

5. The new high temperature heavy oil sampler as claimed in claim 1, wherein the temperature measuring device is a thermometer.

6. The novel high-temperature heavy oil sampler as claimed in claim 1, wherein the sampling valve a (1), the sampling valve b (2), the nitrogen purge valve (3) and the sampling evacuation valve (4) are all hand valves.