CN214425683U - Carbon dioxide loading system - Google Patents

Abstract

The utility model provides a loading system of carbon dioxide, includes first carbon dioxide storage tank system, second carbon dioxide storage tank system, third carbon dioxide storage tank system, first valve, the second valve, the third valve, the fourth valve, first pump, the second pump, the third pump, first loading valve, second loading valve, first flange, the second flange, blind plate and intercommunication line, the first pump other end links to each other with second loading valve, the both ends of first flange link to each other with the first pump other end and first loading valve respectively, set up the blind plate on the first flange. Reform transform the design pipeline originally, realize that two loading platforms are each other parallelly connected reserve, three pumps are also each other parallelly connected reserve, can in time adjust the blind plate position according to output and actual loading needs, reach three carbon dioxide storage tank system and all can carry carbon dioxide for two loading platforms, avoid the unable loading of product in the partial storage tank and the product waste that frequent pressure release caused when carbon dioxide output is higher, economic benefits is obvious.

Description

Carbon dioxide loading system

Technical Field

The utility model belongs to the technical field of the carbon dioxide transportation, concretely relates to loading system of carbon dioxide.

Background

The carbon dioxide recovery device is influenced by the upstream feed gas, the yield fluctuates, the product storage tanks need to be frequently switched when the yield is large, and the loading speed is accelerated. According to the original design, the first carbon dioxide storage tank system can only be loaded through the independent first pump and the second loading platform, the second carbon dioxide storage tank system and the third carbon dioxide storage tank system are loaded through the second pump, the third pump and the first loading platform, although the two loading platforms can be simultaneously loaded in the design, once the first pump or the second loading platform breaks down under the condition that the first carbon dioxide storage tank system stores liquid, the two-liquid-state carbon oxide in the second carbon dioxide storage tank system cannot be unloaded, and the pressure relief operation can only be frequently carried out on the two-liquid-state carbon oxide for a long time, so that a large amount of products are lost, and certain safety risks exist.

Disclosure of Invention

In order to solve the controllability problem of carbon dioxide loading circuit carbon dioxide flow, the utility model provides a: a carbon dioxide loading system adopts the technical scheme as follows: the device comprises a first carbon dioxide storage tank system, a second carbon dioxide storage tank system, a third carbon dioxide storage tank system, a first valve, a second valve, a third valve, a fourth valve, a first pump, a second pump, a third pump, a first loading valve, a second loading valve, a first flange, a second flange, a blind plate and a communication line, wherein the first carbon dioxide storage tank system is connected with one end of the first valve, the second carbon dioxide storage tank system and the third carbon dioxide storage tank system are respectively connected with the other ends of the first valve, the second valve, the third valve and the fourth valve after being connected, the other end of the second valve is connected with one end of the first pump, the other end of the third valve is connected with one end of the second pump, the other end of the fourth valve is connected with one end of the third pump, the other ends of the second pump and the third pump are connected and then connected with the first loading valve, the other end of the first pump is connected with the second loading valve, the two ends of the first flange are respectively connected with the other end of the first pump and the first loading valve, and a blind plate is arranged on the first flange.

Further, a second flange is arranged between the other end of the first pump and the second loading valve.

Furthermore, a blind plate is arranged on the second flange.

Further, the first carbon dioxide storage tank system, the second carbon dioxide storage tank system and the third carbon dioxide storage tank system comprise a carbon dioxide storage tank and an automatic control valve, and the carbon dioxide storage tank is connected with one end of each of the first valve, the second valve, the third valve and the fourth valve through the automatic control valve.

Further, a first loading platform is arranged below the first loading valve, and a second loading platform is arranged below the second loading valve.

The utility model has the advantages that:

reform transform the design pipeline originally, realize that two loading platforms are each other parallelly connected reserve, three loading pumps are also each other parallelly connected reserve, avoid the unable loading of part storage tank product and the product waste that frequent pressure release caused when carbon dioxide output is higher, economic benefits is obvious, simultaneously also greatly reduced the unable safe risk that shifts out the storage tank of liquid product. The utility model discloses can in time adjust the blind plate position according to output and actual loading needs, reach three carbon dioxide storage tank system and all can carry carbon dioxide for two loading platforms.

Drawings

Fig. 1 is a schematic structural diagram of the loading system of carbon dioxide according to the present invention.

The system comprises a first carbon dioxide storage tank system, a second carbon dioxide storage tank system, a third carbon dioxide storage tank system, a first valve, a second valve, a third valve, a fourth valve, a first pump, a second pump, a 9 pump, a third pump, a 11 pump, a first loading valve, a second loading valve, a 13 flange, a 14 flange, a 15 blind plate, a 16 connecting line, a 17 loading platform and a 18 loading platform.

Detailed Description

A carbon dioxide loading system comprises a first carbon dioxide storage tank system 1, a second carbon dioxide storage tank system 2, a third carbon dioxide storage tank system 3, a first valve 4, a second valve 5, a third valve 6, a fourth valve 7, a first pump 8, a second pump 9, a third pump 10, a first loading valve 11, a second loading valve 12, a first flange 13, a second flange 14, a blind plate 15 and a connecting line 16, wherein the first carbon dioxide storage tank system 1 is connected with one end of the first valve 4, the second carbon dioxide storage tank system 2 and the third carbon dioxide storage tank system 3 are respectively connected with the other end of the first valve 4, the second valve 5, the third valve 6 and the fourth valve 7 after being connected, the second valve 5 is connected with one end of the first pump 8, the third valve 6 is connected with one end of the second pump 9, and the fourth valve 7 is connected with one end of the third pump 10, the other ends of the second pump 9 and the third pump 10 are connected and then connected with a first loading valve 11, the other end of the first pump 8 is connected with a second loading valve 12, the two ends of the first flange 13 are respectively connected with the other end of the first pump 8 and the first loading valve 11, and a blind plate is arranged on the first flange 13.

Wherein a second flange 14 is arranged between the other end of the first pump 8 and the second truck-loading valve 12.

Wherein, a blind plate 15 is arranged on the second flange 14. The blind plate 15 on the second flange can function as a partition. When the blind plate is inserted into the second flange, the circuit is in a closed state, carbon dioxide does not flow, and when the blind plate is pulled out of the second flange, the circuit can flow the carbon dioxide.

The first carbon dioxide storage tank system 1, the second carbon dioxide storage tank system 2 and the third carbon dioxide storage tank system 3 comprise carbon dioxide storage tanks and automatic control valves, and the carbon dioxide storage tanks are connected with one ends of the first valves 4, the second valves 5, the third valves 6 and the fourth valves 7 through the automatic control valves. The carbon dioxide is controlled to flow out by opening the automatic control valve, and when the automatic control valve is closed, the carbon dioxide cannot be discharged from the carbon dioxide storage tank system.

Wherein, set up first loading platform 17 under first loading valve 11, set up second loading platform 18 under second loading valve 12. The vehicle receives carbon dioxide discharged from the first and second loading valves 11 and 12 at the first and second loading decks 17 and 18.

The utility model discloses a working process does: the automatic control valves of the first carbon dioxide storage tank system 1, the second carbon dioxide storage tank system 2 and the third carbon dioxide storage tank system 3 are opened, the first valve 4, the second valve 5, the third valve 6 and the fourth valve 7 are opened, the blind plate of the second flange 14 is pulled out, the first carbon dioxide storage tank system 1 conveys carbon dioxide for the second loading platform 18, the second carbon dioxide storage tank system 2 and the third carbon dioxide storage tank system 3 convey carbon dioxide for the first loading platform 17, at the moment, the blind plate on the first flange 13 is pulled out, so that the first carbon dioxide storage tank system 1 can convey carbon dioxide for the first loading platform 17, and the device can control the on-off control of the first valve 4, the second valve 5, the third valve 6, the fourth valve 7, the first flange 13 and the second flange 14 to convey carbon dioxide, is convenient to operate, and has obvious economic benefit.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can substitute or change the technical solution and the concept of the present invention within the technical scope of the present invention.

Claims (5)

1. A carbon dioxide loading system is characterized by comprising a first carbon dioxide storage tank system (1), a second carbon dioxide storage tank system (2), a third carbon dioxide storage tank system (3), a first valve (4), a second valve (5), a third valve (6), a fourth valve (7), a first pump (8), a second pump (9), a third pump (10), a first loading valve (11), a second loading valve (12), a first flange (13), a second flange (14), a blind plate (15) and a communication line (16), wherein the first carbon dioxide storage tank system (1) is connected with one end of the first valve (4), the second carbon dioxide storage tank system (2) and the third carbon dioxide storage tank system (3) are connected with the other end of the first valve (4), the second valve (5), the third valve (6) and one end of the fourth valve (7) respectively, the other end of the second valve (5) is connected with one end of the first pump (8), the other end of the third valve (6) is connected with one end of the second pump (9), the other end of the fourth valve (7) is connected with one end of the third pump (10), the other ends of the second pump (9) and the third pump (10) are connected with the first loading valve (11) after being connected, the other end of the first pump (8) is connected with the second loading valve (12), two ends of the first flange (13) are connected with the other end of the first pump (8) and the first loading valve (11) respectively, and a blind plate is arranged on the first flange (13).

2. Carbon dioxide loading system according to claim 1, characterized in that a second flange (14) is arranged between the other end of the first pump (8) and the second loading valve (12).

3. Carbon dioxide loading system according to claim 2, characterized in that a blind plate (15) is provided on the second flange (14).

4. A carbon dioxide loading system according to claim 1, wherein the first carbon dioxide storage tank system (1), the second carbon dioxide storage tank system (2) and the third carbon dioxide storage tank system (3) comprise a carbon dioxide storage tank and an automatic control valve, and the carbon dioxide storage tank is connected to one end of each of the first valve (4), the second valve (5), the third valve (6) and the fourth valve (7) through the automatic control valve.

5. Carbon dioxide loading system according to claim 1, wherein a first loading platform (17) is arranged below the first loading valve (11) and a second loading platform (18) is arranged below the second loading valve (12).

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