RU2483117C2 - Saturator for beet-sugar production - Google Patents

Abstract

FIELD: food industry.

SUBSTANCE: proposed saturator for beet-sugar production contains a cone-bottomed cylindrical body equipped with technologic nipples and perforated baffle plates positioned in its lower part, designed in the form of elastic membranes for saturation gas flow dispersion. In the upper part of the body a device for juice drops separation from saturation gas is positioned; the device is represented by a conic frustum with longitudinal spiral grooves on the inside surface mounted with its major base to the wall of the cylindrical body to form a cavity for exuded drops collection on the outside; the cavity is communicated with the cylindrical body cavity positioned under the conic frustum. At least four flexible return tubes blanked off on the lower butt are diametrically positioned in the cylindrical body. Along each tube inside the tube wall convergent nozzles are designed for juice supply from the collection cavity onto the inside surface of the cylindrical body and formation of a liquid film on the surface. The perforated baffle plates are connected to a vibrator designed in the form of a drive with vibration regulation; the vibrator is connected to a pressure regulator and includes setting and comparison units, a magnetic and electronic amplifiers with a linear feedback unit as well as a pressure sensor positioned before the perforated baffle plates in the lower part of the saturator cylindrical body. The vibration regulator is designed in the form of a package of electromagnetic powder couplings.

EFFECT: saturator enables production of high quality saturated juice.

2 dwg

Description

The invention relates to sugar production, and in particular to devices for cleaning liquid intermediates, and can be used in the cleaning of diffusion juice and curing of raw sugar in various cleaning schemes for sugar production.

Known saturator for beet sugar production (see RF patent 1787166, IPC C13D 3/04, 1993, BI No. 1), containing a cylindrical body with a conical bottom, equipped with technological pipes and perforated baffles in the form of elastic membranes located in its lower part for dispersing the flow saturation gas, and located in the upper part of the cylindrical body, a device for separating drops of juice from saturation gas, which is a truncated cone with longitudinal helical grooves on the inner surface spine attached by a large base to the wall of the cylindrical body with the formation of a cavity outside to collect the released drops, in communication with the cavity of the cylindrical body located under the truncated cone.

The disadvantage of this saturator is the energy intensity of the saturation process, due to significant heat loss through the vertical wall of the cylindrical body of the saturator, which is caused by the small total thermal resistance of the material of the structure and the boundary layer draining from the truncated juice cone.

A known saturator for beet sugar production (see RF patent 2196830, IPC С13D 3/04, publ. 20.01.2003), comprising a cylindrical body with a conical bottom, equipped with process pipes and perforated baffles located in its lower part in the form of elastic membranes for dispersing the flow saturation gas, and located in the upper part of the cylindrical body, a device for separating drops of juice from saturation gas, which is a truncated cone with longitudinal helical grooves on the inner A surface attached with a large base to the wall of the cylindrical body with the formation of an outside cavity for collecting droplets, in communication with the cavity of the cylindrical body located under the truncated cone, with at least four flexible drain tubes plugged at the bottom end moreover, in the wall of each tube along the length there are narrowing nozzles for supplying juice from the collection cavity to the inner surface of the cylindrical body and the formation of a film on it liquids.

The disadvantage of this saturator is a decrease in the quality of the juice that has been saturated due to a violation of the uniform distribution of the saturation gas over the apparatus cross section due to clogging of part of the perforated partitions with drops of juice of different dispersion, which sharply reduces the contact surface of gas and juice.

The technical task of the invention is to maintain, under long-term operation, the specified conditions for the uniform distribution of saturation gas over the cross section of the lower part of the saturator body by preventing clogging of the perforated holes of the partitions due to vibration exposure to them by a vibrator in the form of a drive with a vibration regulator.

The technical result of maintaining an effective saturation process is achieved by the fact that the beet sugar production saturator containing a cylindrical body with a conical bottom, equipped with process pipes and perforated baffles located in its lower part in the form of elastic membranes for dispersing the saturation gas stream, and located in the upper part of the cylindrical housing device for separating drops of juice from saturation gas, which is a truncated cone with longitudinal то like grooves on the inner surface, attached by a large base to the wall of the cylindrical body with the formation of an outside cavity for collecting droplets, communicated with the cavity of the cylindrical body located under the truncated cone, while at least four flexible drain tubes are diametrically located in the cylindrical body, plugged at the lower end, and in the wall of each tube along the length there are narrowing nozzles for supplying juice from the collection cavity to the inner surface of the cylinder case and the formation of a liquid film on it, and the perforated partitions in the form of elastic membranes for dispersing the flow of saturation gas are connected to a vibrator made in the form of a drive with a vibration regulator, which is connected to a pressure regulator, including reference and comparison units, magnetic and electronic amplifiers with a non-linear feedback unit, as well as a pressure sensor located in front of the perforated partitions in the lower part of the cylindrical body of the saturator, while the vibration regulator is nen as a block of electromagnetic powder clutches.

Figure 1 schematically shows the proposed saturator with a vibrator and a device for its regulation; figure 2 - element of flexible drain tubes with holes in the form of tapering nozzles.

The sugar beet sugar production saturator consists of a vertical cylindrical body 1 with an upper part 2 and a conical bottom 3, a device for separating juice droplets from the saturation gas in the form of a truncated cone 4, hermetically mounted on the inner surface of the cylindrical body 1 in the upper part 2 and forming a cavity with the latter 5, which communicates with the lower part of the cylindrical body 1 through at least four diametrically located flexible drain pipes 6, the inlet openings of which are located the lower point of the cavity 5, and the weekend is muffled and located under the upper perforated partition 7, an annular barbator 8, mounted under the device for separating drops of juice from saturation gas in the form of a truncated cone 4, pipe 9 for defecated juice, perforated partitions 7, arranged in height inside the lower part of the cylindrical body 1 and made in the form of flexible membranes, pipelines 10 for supplying saturation gas and 11 for removal of saturation juice, a pipe 12 for discharge of the vapor-gas stream into the atmosphere.

A device for separating drops of juice from a saturation gas in the form of a truncated cone 4 has longitudinal helical grooves 13 on the inner surface, and the ratio in the truncated cone between the smaller and larger bases is in the range of 1 / 5-1 / 7, which is determined at known vapor-gas flow rates saturation boilers by changing the density of the vapor-gas flow when moving along a truncated cone.

Flexible drain pipes 6 have holes 14 located along them in the form of tapering nozzles with a smaller base 15 and a larger 16.

Perforated baffles 7 in the form of elastic membranes for dispersing the flow of saturation gas are connected to a vibrator 17 made in the form of a drive 18 with a vibration regulator 19, which is connected to a vibration regulator 19, which is connected to a pressure regulator 20, which includes a task unit 21 and a comparison unit 22, electronic 23 and magnetic 24 amplifiers, a nonlinear feedback unit 25, and a pressure sensor 26 located in front of the perforated partitions 7 in the lower part of the vertical cylindrical body 1.

A saturator for beet sugar production is as follows.

The vibrator 17, connected to the perforated partitions 7, operates in a normalized mode with an optimal amplitude of their oscillations, ensuring the throughput of all perforation holes along the section of the lower part of the cylindrical body 1.

The defecated juice is piped 9 into the vertical cylindrical body 1 and flows downward in the form of a cascade. Saturation gas through a pipeline 10 enters the lower perforated baffle 7, is evenly distributed over the apparatus section, passes through perforation of elastic membranes, which contribute to its separation into small particles, as a result of which the contact surface of gas and juice increases.

During the operation of the saturator, especially during prolonged use, sticking of finely dispersed particles of defective juice sticks to the internal holes of the perforation of the partitions 7 and mainly along its peripheral section, which leads to a sharp decrease in the contact surface of the gas and juice, and this, accordingly, reduces the quality of the saturation process.

The reduction of the "live" section of the holes of the perforated partitions contributes to an increase in pressure in front of them in the lower part of the cylindrical body 1, which is detected by the pressure sensor 26. The signal of the reference unit 21 of the pressure regulator 20 exceeds the signal of the pressure sensor 26 and a positive signal appears at the output of the comparison unit 22 polarity, which is fed to the output of the electronic amplifier 23. This also receives the signal from the non-linear feedback block 25, which is calculated from the signal of the comparison unit 22. Due to this, The ram amplifier 23 compensates for the non-linearity of the vibrator characteristic. The signal from the output of the electronic amplifier 23 enters the output of the magnetic amplifier 24, where it is amplified by power, rectified and fed to the winding of the vibration regulator 19 in the form of a block of electromagnetic powder couplings.

The positive polarity of the signal of the electronic amplifier 23 causes an increase in the excitation current at the output of the magnetic amplifier 24, which leads to an increase in the oscillation amplitude of the perforated partitions 7, and this contributes to the process of shaking off adhering fine particles of the defecated juice from the inner surfaces of the perforation holes, both in the center and on the periphery partitions 7. As a result, the optimal mode of uniform distribution of saturation gas over the perforated partitions 7 is restored, i.e. an increase to the normalized contact surface of gas and juice is observed, with subsequent ensuring high-quality saturation.

Returning to the initial position of the "live" section of the holes of the perforated partitions 7 leads to a change in pressure in the lower part of the cylindrical body 1, which is detected by the pressure sensor 26. The signal of the pressure sensor 26 exceeds the signal of the reference unit 21 of the pressure regulator 20 and appears at the output of the comparison unit 22 the signal of negative polarity, which is fed to the input of the electronic amplifier 23. This also receives the signal from the non-linear feedback block 25, which is subtracted from the signal of the comparison unit 22. The signal from the output an electronic amplifier 23 is fed to the input of a magnetic amplifier 24, where it is amplified by power, rectified and fed to the winding of the vibration regulator 19 in the form of a block of electromagnetic powder couplings.

The negative polarity of the signal of the electronic amplifier 23 causes a decrease in the excitation current at the output of the magnetic amplifier 24, which leads to a reduction and subsequent reduction to the normalized value of the amplitude of the oscillations of the perforated partitions 7 to provide the necessary contact surface of the saturation gas and the defecated juice.

Therefore, the automated vibration effect on the perforated partitions 7 supports the long-term operation of the saturator for beet sugar production a high-quality process of saturation.

Saturated juice is discharged through line 11, and the exhaust gas in the form of a vapor-gas stream, entraining drops of juice of various dispersion, rises to the upper part 2 of the vertical cylindrical body 1 and then enters the inlet of the device for separating drops of juice from saturation gas in the form of a truncated cone 4.

Drops of juice of different dispersion with a vapor-gas flow move in contact with the inner surface of the device for separating drops of juice from saturation gas 4. As a result of a decrease in the flow cross section of the truncated cone 4, the speed of the vapor-gas flow increases and the droplets of juice are pushed to the inner wall of the truncated cone 4 and fall longitudinal helical grooves 13, where under the influence of increased hydraulic resistance of the helical grooves sharply reduce their speed, collide with each other, upnyayutsya become "condensation nuclei" vapor-gas flow. Twisting in a longitudinal helical grooves 13 of a denser boundary layer leads to a rotational movement of the entire mass of the vapor-gas stream with drops of juice of different dispersion in front of the outlet of the truncated cone 4. Moreover, the swirling process is observed at low speeds of the vapor-gas stream, and the higher the density of the treated vapor-gas mixture, the at a lower speed, a rotational flow movement is provided before exiting the tapering nozzle 4.

The rotational movement of the mass of the vapor-gas stream with drops of juice in front of the inlet of the truncated cone 4 reduces the likelihood of a breakthrough of part of the vapor-gas stream located in the center of the cylindrical body 1, without processing. In addition, after exiting from the smaller hole of the truncated cone, the gas-vapor flow suddenly expands, which leads to a slight decrease in temperature and an additional separation of finely dispersed droplets of juice that enter the cavity 5 and, when collected there, flow down the flexible drain tubes 6, and the waste, purified from droplets of juice gas is ejected through the pipe 12 into the atmosphere.

The location of the drain tubes 6 diametrically opposite directly on the inner surface of the vertical cylindrical body 1 leads to the fact that under the influence of hydrostatic pressure due to the accumulation of fine droplets of juice due to the muffled lower end, they begin to bend, move, washing the inner surface of the vertical cylindrical body 1 trickles of juice flowing from the narrowing nozzles 14. As a result, a film of juice is formed, which is an additional term resistance to heat transfer from the internal volume of the saturator to the environment.

In addition, coarse juice droplets collected on the inside of the device for separating juice droplets from the saturation gas in the form of a truncated cone 4 flow down the longitudinal helical grooves 13 to the outlet of the latter, and then flow down, forming also a thin uniform film of juice on the inner surface of a vertical cylindrical body 1. Joint formation of a thermally insulating film with finely dispersed drops, collected both on the inner surface of the device for separating juice drops from saturation -gas frustoconical 4 and 5 in the cavity, reduces the heat transfer coefficient through a vertical cylindrical body 1, which reduces heat loss carbonation process. The implementation of the tapering nozzles 14 in such a way that the smaller base 15 is in contact with the inner surface of the vertical cylindrical body 1, provides a reactive effect of the effluent from the flexible drain tubes 6, because a smaller base 15 has greater hydraulic resistance than a larger base 16.

With a high degree of foaming of saturation juice, steam is supplied through the annular bubbler 8 to reduce the level of foam.

The originality of the technical solution lies in the fact that it maintains the required amount of saturation by providing a normalized contact surface of saturation gas and defecated juice during long-term operation of the saturator by automating the vibration effect on the perforated partitions in the form of elastic membranes by means of a drive with a vibration regulator made in the form of an electromagnetic unit powder couplings, as well as a pressure regulator. In this case, the pressure regulator contains reference and comparison blocks, electronic and magnetic amplifiers and a non-linear feedback block, in addition, the pressure sensor is located in the lower part of the cylindrical body in front of the perforated partitions and is connected to the pressure regulator comparison block.

Claims (1)

A sugar beet sugar production saturator comprising a cylindrical body with a conical bottom, equipped with process pipes and perforated baffles located in its lower part in the form of elastic membranes for dispersing the saturation gas stream, and a device for separating juice drops from the saturation gas located in the upper part of the cylindrical body, a truncated cone with longitudinal helical grooves on the inner surface, attached by a large base to the walls e of the cylindrical body with the formation of a cavity outside to collect the droplets released, in communication with the cavity of the cylindrical body located under the truncated cone, with at least four flexible drain tubes plugged at the bottom end, and in the wall of each tube tapered nozzles are made along the length for supplying juice from the collection cavity to the inner surface of the cylindrical body and forming a liquid film on it, characterized in that the perforated The cities in the form of elastic membranes for dispersing the flow of the saturation gas are connected to a vibrator made in the form of a drive with a vibration regulator, which is connected to a pressure regulator, including reference and comparison units, magnetic and electronic amplifiers with a nonlinear feedback unit, and a pressure sensor located in front of the perforated partitions in the lower part of the cylindrical body of the saturator, while the vibration regulator is made in the form of a block of electromagnetic powder couplings.

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