VE Enrichment System

Abstract

Disclosed is a VE Enrichment System, comprising a falling film heat exchanger, a deodorization tower (deodorizer), a deodorizer transfer pump, a post-stripping deodorization tower (post-stripper), a high pressure steam heater and fatty acid collection unit. The falling film heat exchanger comprises of 2 shell heat exchange section of which the bottom section is connected to the deodorizer and the upper section is connected to the high pressure steam heater which is then connected to the post stripper; the post stripper bottom outlet is connected back to the falling film heat exchanger at it tube side. The post stripper top outlet (vapour outlet) is connected to the fatty acid collection unit. The upper shell section of the falling film heat exchanger and the high pressure steam heater forms a loop with the post stripper, while another loop is formed for the bottom of shell section of the falling film heat exchanger and the deodorizer and its transfer pump. Depending on operation needs, a vacuum ejector can be added. This VE enrichment system is used to produce more fatty acid distillate with higher VE content during the deodorization process of vegetable oil.

Claims

1. A VE enrichment system, comprising a falling film heat exchanger (1) and a connected deodorization tower (2), which is characterized in that: the falling film heat exchanger (1) is connected with high-pressure steam heater (4); high-pressure steam heater (4) is connected to the post-stripping deodorization tower (5); the bottom of the post-stripping deodorization tower (5) is connected with aforementioned falling film heat exchanger (1); the top of the post-stripping deodorization tower (5) is connected with the fatty acid collection unit (7).

2. The VE enrichment system of claim 1, wherein: the post-stripping deodorization tower (5) top is connected with the suction port of the ejector (6), the ejector (6) is connected with the fatty acid collection unit (7).

3. The VE enrichment system of claim 2, wherein: the ejector (6) exhaust port is connected with the fatty acid collection unit (7).

4. The VE enrichment system of claim 1, wherein: the upper shell side of the falling film heat exchanger (1) is connected with the aforementioned high-pressure steam heater (4) by pipeline, and forms loop connection with described post-stripping deodorization tower (5).

5. The VE enrichment system of claim 1, wherein: the bottom shell side outlet of the falling film heat exchanger (1) is connected with the deodorization tower (2) through a pipeline, the bottom of the deodorization tower (2) is connected to the deodorizer transfer pump (3) through a pipeline, the deodorizer transfer pump (3) is then connected to the upper shell side of the falling film heat exchanger (1) through a pipeline, form a loop connection.

6. The VE enrichment system of claim 1, wherein: the fatty acid collection unit (7) is connected with a circulating pump (8), forming loop connection with the circulating pump (8) through a pipeline.

7. The VE enrichment system of claim 1, wherein: the falling film heat exchanger (1) is comprised of upper and lower segmented falling film heat exchanger shell, and equipped with a temperature control device.

8. The VE enrichment system of claim 1, wherein: the falling film heat exchanger (1) is a vertical falling film heat exchanger.

9. The VE enrichment system of claim 1, wherein: the fatty acid collection unit (7) top outlet is connected with an external vacuum system.

10. The VE enrichment system of claim 2, wherein: the upper shell side of the falling film heat exchanger (1) is connected with the aforementioned high-pressure steam heater (4) by pipeline, and forms loop connection with described post-stripping deodorization tower (5).

11. The VE enrichment system of claim 2, wherein: the bottom shell side outlet of the falling film heat exchanger (1) is connected with the deodorization tower (2) through a pipeline, the bottom of the deodorization tower (2) is connected to the deodorizer transfer pump (3) through a pipeline, the deodorizer transfer pump (3) is then connected to the upper shell side of the falling film heat exchanger (1) through a pipeline, form a loop connection.

12. The VE enrichment system of claim 2, wherein: the fatty acid collection unit (7) is connected with a circulating pump (8), forming loop connection with the circulating pump (8) through a pipeline.

13. The VE enrichment system of claim 2, wherein: the falling film heat exchanger (1) is comprised of upper and lower segmented falling film heat exchanger shell, and equipped with a temperature control device.

14. The VE enrichment system of claim 2, wherein: the falling film heat exchanger (1) is a vertical falling film heat exchanger.

15. The VE enrichment system of claim 2, wherein: the fatty acid collection unit (7) top outlet is connected with an external vacuum system.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] FIG. 1 is a schematic diagram of the deodorization process of traditional vegetable oil.

[0020] FIG. 2 is a schematic diagram of the new vegetable oil deodorization process with VE enrichment system (including vacuum pump design)

[0021] FIG. 3 is a schematic diagram of the new vegetable oil deodorization process with VE enrichment system (without vacuum pump design).

DETAILED DESCRIPTION

[0022] The specific embodiment of a VE enrichment system provided by the disclosure is described in further detail in conjunction with FIG. 2 and FIG. 3 below, FIG. 2 depicts: 1, falling film heat exchanger; 2, deodorization tower, 3, deodorizer transfer pump; 4, high-pressure steam heater; 5, post-stripping deodorization tower, 6, vacuum ejector; 7, fatty acid collection unit; 8, circulating pump.

[0023] The invention provides a specific connection mode of a VE enrichment system is as follows:

[0024] The lower shell side of falling film heat exchanger 1 is connected to the top of deodorization tower 2 by pipeline, a temperature gauge is installed on the pipeline, the aforementioned falling film heat exchanger is equipped with a temperature control device, using which the temperature of the bleached oil entering the deodorization tower 2 can be adjusted. The bottom of the deodorization tower 2 is then connected to the deodorizer transfer pump 3 through a pipeline, and then connected to the upper shell side of the falling film heat exchanger 1 through a pipeline, forming a loop connection.

[0025] The outlet of upper shell side of falling film heat exchanger 1 is successively connected with high-pressure steam heater 4 and further to the post-stripping deodorization tower 5 through pipelines, and the bottom of described post-stripping deodorization tower 5 is connected to the falling film heat exchanger 1 through pipeline. At the upper end, a loop connection is formed. The bottom of post-stripping deodorization tower 5 adopts direct steam heating. For the design containing vacuum ejector, the post-stripping deodorization tower 5 is connected with the suction port of the vacuum ejector 6 above through a pipeline, exhaust port of the vacuum ejector 6 is then connected to the fatty acid collection unit 7 through the pipeline. For the design without the vacuum ejector, the post-stripping deodorization tower 5 is directly connected with the fatty acid collection unit 7 through pipeline.

[0026] The fatty acid collection unit 7 and circulating pump 8 forms a loop connection with pipeline connections.

[0027] The invention provides a process flow of a VE enrichment system is as follows:

[0028] After the bleached oil treated by the bleaching unit enters the lower shell side section of the falling film heat exchanger 1 and exchanges heat with the high-temperature deodorization oil to 230?240? C., it enters the deodorization tower 2 to remove some unpleasant gas substances. After that, the deodorizer transfer pump 3 conveys it to the upper shell section of the falling film heat exchanger 1, and heat exchange with the high-temperature deodorization oil again to 240?250? C.

[0029] The primary deodorized oil after carrying out the second heat exchange with the high-temperature deodorized oil is transported to the high-pressure steam heater 4 through pipeline, and after further heating it with high-pressure steam, it enters the post-stripping deodorization tower 5. Direct steam stripping is adopted at the bottom of the post-stripping deodorization tower 5, and the internal temperature of the post-stripping deodorization tower 5 reaches 260?265? C. In one preferred embodiment, when the vacuum degree of the VE enrichment system configuration is poor (reference value: vacuum absolute pressure greater than 1.5 mbarA), a vacuum ejector 6 needs to be installed (see FIG. 2). The vacuum ejector is designed such that the suction port of the vacuum ejector 6 is connected with a pipeline to the top of the post-stripping deodorization tower 5, and the vacuum ejectors 6 uses motive steam, so that the interior of the post-stripping deodorization tower 5 reaches a vacuum absolute pressure of 0.8?1.5 mbar. The exhaust port of vacuum ejector 6 is connected with fatty acid collection unit 7. When the VE enrichment system is equipped with a good vacuum (reference value: vacuum absolute pressure less than or equal to 1.5 mbarA), there is no need to install a vacuum ejector. Without vacuum ejector, it is designed as the post-stripping deodorization tower 5 top is directly connected with the fatty acid collection unit 7. The design without a vacuum ejector does not require a separate vacuum ejector because the top of the fatty acid collection unit 7 is connected to an external vacuum system of high vacuum design.

[0030] Under the above-mentioned vacuum and temperature conditions, the free fatty acids and unpleasant gaseous substances of deodorized oil in post-stripping deodorization tower 5 will be further removed. At the same time, fatty acid distillate, which is rich in VE components, is removed.

[0031] The removed fatty acid distillate (VE content 9%?14%) is captured in fatty acid collection unit 7, and the captured fatty acid distillate is collected as a by-product. When fatty acid collection unit 7 reaches high level, fatty acid distillate (VE content 9%?14%) will be discharged to outdoor fatty acid distillate storage tank by circulating pump 8. When fatty acid collection unit 7 reaches low level, stop discharge.

[0032] The high-temperature deodorized oil processed by the post-stripping deodorization tower 5 flows out from the bottom of the post-stripping deodorization tower 5 and enters the falling film heat exchanger 1 and is indirectly contact the bleached oil for heat exchange (the bleached oil goes to the falling film evaporator 1 shell side, and the high-temperature deodorized oil goes to the falling film evaporator 1 tube side). After the high-temperature deodorized oil is exchanged with the bleached oil, the temperature is reduced and stored as a refined oil. At the same time, the bleached oil at a higher temperature enters the deodorization tower (2) for subsequent deodorization treatment.

[0033] Through the above operation, a VE enrichment system provided by the disclosure can be realized, advantages of a VE enrichment system provided by the invention are as follows: [0034] (1) The bleached oil and the high-temperature deodorized oil in the falling film heat exchanger 1 can be increased by 10?15? C. after the second heat exchange than the first heat exchange, thereby improving the deodorization efficiency. The design of the secondary heat exchange can also make full use of the heat energy, about 30-40% of the amount of high-pressure steam, so as to achieve the purpose of saving natural gas or fuel oil. [0035] (2), The deodorized oil that has been deodorized once enters the high-pressure steam heater 4 for further heating, and the internal temperature of the post-stripping deodorization tower 5 is guaranteed to be higher, and the vacuum degree is better. As a result, while obtaining a higher yield of fatty acid distillate, the content of VE in fatty acid distillate is significantly increased, creating higher economic benefits. [0036] (3) The upper and lower segmented shell side of the falling film heat exchanger is equipped with a temperature control device, which can control the heat exchange temperature of the falling film heat exchanger in sections, which reduces the temperature of the bleached oil in the deodorization tower after heat exchange by the falling film heat exchanger, and controls the increase of trans fatty acids. As a result, higher quality refined oil products are obtained.