CN211255862U - Vacuum system for soapstock and oil foot - Google Patents

Abstract

The utility model belongs to the technical field of grease processing, concretely relates to vacuum system for soapstock oil foot, modulation jar tail gas outlet intercommunication vacuum condenser air inlet, the import of vacuum condenser gas outlet intercommunication water ring vacuum pump, water ring vacuum pump export is even the vapour and liquid separator feed inlet of ventilating, vapour and liquid separator overflow mouth intercommunication cooling tower import, vapour and liquid separator liquid outlet intercommunication water-saving condenser inlet, water-saving condenser liquid outlet intercommunication water ring vacuum pump import, vapour and liquid separator still is equipped with the vapour and liquid separator gas outlet, water-saving condenser cooling water export intercommunication cooling tower import, water-saving condenser cooling water import intercommunication cooling tower export, vacuum condenser drain opening intercommunication escape canal, the utility model discloses steam consumption is low, and the negative pressure is stable.

Description

Vacuum system for soapstock and oil foot

Technical Field

The utility model belongs to the technical field of the grease processing, concretely relates to vacuum system for soapstock oil foot.

Background

In the processing technology of the soapstock and the oil residue, the soapstock and the oil residue are mixed with sulfuric acid to generate glycerin and fatty acid, but the sulfuric acid has strong acidity and is easy to carbonize, when the fatty acid is prepared by using the method, negative pressure needs to be provided for a system in the working procedures of evaporation, concentration and the like, a multi-stage steam jet pump is used in the prior art, the working procedures are vacuumized, the steam consumption is high, the steam is unstable, and therefore the prior art needs to be further improved.

Disclosure of Invention

An object of the utility model is to provide a vacuum system for nigre oil foot that steam consumption is low, and the negative pressure is stable.

Based on the above-mentioned purpose, the utility model discloses take following technical scheme:

the utility model provides a vacuum system for soapstock oil foot, modulation jar tail gas outlet intercommunication vacuum condenser air inlet, the vacuum condenser gas outlet intercommunication water ring vacuum pump import, water ring vacuum pump export is even the hydraulic separator feed inlet of ventilating, the hydraulic separator overflow mouth communicates the cooling tower import, hydraulic separator liquid outlet intercommunication water-saving condenser inlet, the hydraulic condenser liquid outlet communicates the hydraulic pump import of water ring, hydraulic separator still is equipped with the hydraulic separator gas outlet, hydraulic condenser cooling water outlet intercommunication cooling tower import, hydraulic condenser cooling water inlet intercommunication cooling tower export, vacuum condenser drain ditch intercommunication.

Further, vacuum condenser include the vacuum condenser jar body, the internal condenser pipe that is equipped with of vacuum condenser jar, condenser pipe one end opening stretches out the vacuum condenser jar body and is the vacuum condenser cooling water import, condenser pipe other end opening stretches out the vacuum condenser jar body and is the vacuum condenser cooling water export, be equipped with vacuum condenser air inlet, vacuum condenser gas outlet and vacuum condenser drain on the vacuum condenser jar side wall, gas in vacuum condenser cooling water import and the vacuum condenser cooling water export intercommunication cooling tower cooling vacuum condenser.

Further, vapour and liquid separator include the vapour and liquid separator jar body, the top of the gas and liquid separator jar body top is equipped with the vapour and liquid separator gas outlet, vapour and liquid separator top lateral wall is equipped with vapour and liquid separator feed inlet, vapour and liquid separator liquid outlet and vapour and liquid separator overflow mouth, this vapour and liquid separator overflow mouth is higher than vapour and liquid separator feed inlet and vapour and liquid separator liquid outlet.

Further, the water-saving condenser include the water-saving condenser jar body, the internal first water pipe that is equipped with of water-saving condenser jar, first water pipe one end opening stretches out the water-saving condenser jar body and is the water-saving condenser cooling water inlet, first water pipe other end opening stretches out the water-saving condenser jar body and for the water-saving condenser cooling water export, be equipped with water-saving condenser inlet and water-saving condenser liquid outlet on the water-saving condenser jar side wall, the water-saving condenser still is equipped with water-saving condenser drain.

The utility model discloses use acetic acid to replace traditional sulphuric acid, use acetic acid and soapstock oil foot to mix, produce glycerine and fatty acid, reduce the corruption of equipment and the carbomorphism of soapstock, this system steam consumption is low, and the negative pressure is stable.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a schematic structural view of a vacuum condenser;

FIG. 3 is a schematic view of a gas-liquid separator;

fig. 4 is a schematic structural view of the water-saving condenser.

Detailed Description

The modulating tank tail gas outlet 101 of the vacuum system for soapstock oil foot as shown in fig. 1-4 is communicated with a vacuum condenser air inlet 201, a vacuum condenser air outlet 202 is communicated with a water ring vacuum pump inlet 401, a water ring vacuum pump outlet 402 is communicated with a gas-liquid separator feed inlet 503, a gas-liquid separator overflow port 505 is communicated with an inlet of a water cooling tower 7, a gas-liquid separator liquid outlet 504 is communicated with a water-saving condenser liquid inlet 601, a water-saving condenser liquid outlet 602 is communicated with the water ring vacuum pump inlet 401, a gas-liquid separator 5 is further provided with a gas-liquid separator air outlet 502, a water-saving condenser cooling water outlet 606 is communicated with an inlet of the water cooling tower 7, a water-saving condenser cooling water inlet 605.

The vacuum condenser 2 comprises a vacuum condenser tank 203, a condenser pipe 204 is arranged in the vacuum condenser tank 203, one end opening of the condenser pipe 204 extends out of the vacuum condenser tank 203 and is a vacuum condenser cooling water inlet 205, the other end opening of the condenser pipe 204 extends out of the vacuum condenser tank 203 and is a vacuum condenser cooling water outlet 206, a vacuum condenser air inlet 201, a vacuum condenser air outlet 202 and a vacuum condenser vent 207 are arranged on the side wall of the vacuum condenser tank 203, and the vacuum condenser cooling water inlet 205 and the vacuum condenser cooling water outlet 206 are communicated with a water cooling tower 7 to cool gas in the vacuum condenser 2.

The gas-liquid separator 5 comprises a gas-liquid separator tank body 501, a gas-liquid separator air outlet 502 is arranged at the top of the gas-liquid separator tank body 501, a gas-liquid separator feeding hole 503, a gas-liquid separator liquid outlet 504 and a gas-liquid separator overflow hole 505 are arranged on the side wall of the upper part of the gas-liquid separator 5, and the gas-liquid separator overflow hole 505 is higher than the gas-liquid separator feeding hole 503 and the gas-liquid separator liquid outlet 504.

The water-saving condenser 6 comprises a water-saving condenser tank body 603, a first water pipe 604 is arranged in the water-saving condenser tank body 603, one end opening of the first water pipe 604 extends out of the water-saving condenser tank body 603 and is a water-saving condenser cooling water inlet 605, the other end opening of the first water pipe 604 extends out of the water-saving condenser tank body 603 and is a water-saving condenser cooling water outlet 606, a water-saving condenser liquid inlet 601 and a water-saving condenser liquid outlet 602 are arranged on the side wall of the water-saving condenser tank body 603, and a water-saving condenser vent 607 is further arranged.

When the water-saving condenser is used, gas in the preparation tank 1 enters the vacuum condenser 2 through the vacuum condenser air inlet 201, then the gas in the vacuum condenser 2 enters the water ring vacuum pump 4, the gas in the water ring vacuum pump 4 firstly enters the gas-liquid separator 5, the gas-liquid separator 5 separates the gas from the water in the water ring vacuum pump 4 and discharges the gas from the gas-liquid separator air outlet 502, the liquid enters the water-saving condenser liquid inlet 601 from the gas-liquid separator liquid outlet 504, and the water-saving condenser cooling water inlet 605 and the water-saving condenser cooling water outlet 606 of the water-saving condenser 6, which enter and exit from the water cooling tower 7, cool the water in the water-saving condenser.

Claims (4)

1. The utility model provides a vacuum system for soapstock oil foot, a serial communication port, including the modulation jar, modulation jar tail gas outlet intercommunication vacuum condenser air inlet, the vacuum condenser gas outlet communicates the import of water ring vacuum pump, water ring vacuum pump export even moves the hydraulic separator feed inlet, the hydraulic separator overflow mouth intercommunication cooling tower import, hydraulic separator liquid outlet intercommunication water-saving condenser inlet, hydraulic condenser liquid outlet intercommunication water ring vacuum pump import, hydraulic separator still is equipped with the hydraulic separator gas outlet, hydraulic condenser cooling water export intercommunication cooling tower import, hydraulic condenser cooling water import intercommunication cooling tower export, vacuum condenser drain ditch intercommunication.

2. The vacuum system for soapstock oil foot according to claim 1, wherein the vacuum condenser comprises a vacuum condenser tank, a condenser pipe is arranged in the vacuum condenser tank, an opening at one end of the condenser pipe extends out of the vacuum condenser tank and is a cooling water inlet of the vacuum condenser, an opening at the other end of the condenser pipe extends out of the vacuum condenser tank and is a cooling water outlet of the vacuum condenser, a vacuum condenser air inlet, a vacuum condenser air outlet and a vacuum condenser vent are arranged on a side wall of the vacuum condenser tank, and the cooling water inlet and the cooling water outlet of the vacuum condenser are communicated with gas in a cooling tower cooling vacuum condenser.

3. The vacuum system for soapstock oil foot as claimed in claim 1, wherein the gas-liquid separator comprises a gas-liquid separator tank, a gas-liquid separator outlet is arranged at the top of the gas-liquid separator tank, a gas-liquid separator inlet, a gas-liquid separator outlet and a gas-liquid separator overflow outlet are arranged on the upper side wall of the gas-liquid separator, and the gas-liquid separator overflow outlet is higher than the gas-liquid separator inlet and the gas-liquid separator outlet.

4. The vacuum system according to claim 1, wherein the condenser comprises a water-saving condenser tank, a first water pipe is arranged in the water-saving condenser tank, one end opening of the first water pipe extends out of the water-saving condenser tank and is a cooling water inlet of the water-saving condenser, the other end opening of the first water pipe extends out of the water-saving condenser tank and is a cooling water outlet of the water-saving condenser, a water-saving condenser liquid inlet and a water-saving condenser liquid outlet are arranged on the side wall of the water-saving condenser tank, and the water-saving condenser is further provided with a water-saving condenser vent.

Images