RU2267058C2 - Heating system in alcoholic beverages production - Google Patents

Abstract

FIELD: heat-and-power engineering systems; alcoholic beverage industry.

SUBSTANCE: heating system can be used at alcohol-producing plants using secondary heat. Heating system has at least one rectifying plant. Input of consumers of cold of the plant is connected with water-pipe for cold carriers. Output of the system is connected with water-pipe for secondary technological cold carrier which is in turn connected with water recycling system. Water-pipe for carrier of secondary technological heat is connected with secondary heating system in such a manner tat secondary heating system has to be part of water recycling system. More efficient usage of secondary heat produced by rectifying plant is provided. Distillation water can be used as carrier of secondary heat.

EFFECT: widened operational capabilities.

12 cl, 9 dwg

Description

The claimed device relates to heat power systems in distilleries that use secondary heat, and can be widely used in the alcoholic beverage industry.

Known heat power system that uses secondary heat during alcohol production, containing the installation of rectification of alcohol, a pipeline for entering cooling water into it and a pipeline for heated water after it. (Patent RU 2132911 of 10.13.93).

A disadvantage of the known system is its limited functionality.

The aim of the invention is the expansion of its functionality due to a more complete use of secondary heat generated by the distillation unit, the carrier of which is, for example, reflux water.

This goal is achieved by connecting the water supply for water heated by alcohol or its vapors after passing through the cold-consuming process heat exchangers of the distillation unit, such as its reflux condensers, condensers and alcohol coolers, with an independent heating system for at least one section of the enterprise that produces or purifies alcohol.

The heating system is illustrated by the following drawings:

Figure 1 - Structural diagram of a heating system.

Figure 2 - Node storage tank.

Figure 3 - Distribution node.

Figa) and b) - Regulatory node.

Figure 5 - Stabilizing node.

6 - An example of a heater.

7 - An example of a heater.

Fig - An example of a heater with ventilation.

Fig.9 - Pressure node.

The heating system contains a distillation unit 1, which includes, for example, an epilation column 2, which is fundamentally connected with a reflux condenser 3 and a condenser 4, and an alcohol column 5, functionally connected with a reflux condenser 6 and a condenser 7, in which coolers 8 or heat exchangers are made, having, for example, a tubular shape, and to the inlet of which a pipe 9 for cooling water is connected, and their outlet is connected to a pipe 10 of water heated in them. The end of the pipeline 10 is connected to an accumulation tank 11, for example, to a reflux tank or tank for a reflux tank, in which an overflow pipe 12 is made. The overflow pipe 12 is connected to an output pipe 13 connecting it to an inlet of a three-way control valve 14, one of the outputs of which is a pipe 15 connected to the inlet manifold 16 or distribution comb, to the collector 16 are connected the outlet pipes 17 with heaters 18 mounted thereon, for example radiators, batteries or fans onnymi heaters, closure piping 17 connected to the outlet manifold 19. The manifold 19 is connected to return line 20 which is connected with the drain, i.e. with a drain, or it is connected with the cooling system and the return of chilled water back to the distillation unit, if the reverse water supply system of this unit is mounted.

Another output of the three-way control valve 14 by a pipe 21 is connected to the return pipe 20. The actuator of the control valve 14 is functionally connected to the output of the control device 23, the input of which is connected to the temperature sensor 24.

The outlet pipe 13 bypass 25 with the valve 26 mounted on it is connected to the return pipe 20.

On a parallel pipeline 25, pipe 27 connecting the pipe 13 to the pipe 20, a control valve 28 is installed, the actuator 29 of which is connected through a control device 30 to the sensor 31 of the maximum level of the storage tank 11 located above the upper point of the overflow pipe 12.

A pipeline 32 is connected from the bottom of the storage tank 11, connecting it to the hot water supply system.

The pipeline 15, the collector 16, the discharge pipes 17, the heaters 18, the output manifold 19 and the pipe 20 can be considered an independent secondary heating system or auxiliary heating system that uses the heat of water, which has given its cold to technological refrigeration consumers of a distillation unit, such as reflux condensers and condensers, and which is part of the circulating water supply system of a distillation unit during the production and purification of alcohol.

In parallel with the auxiliary heating system at the enterprise site, the main centralized heating system, for example steam-water heating, is used, consisting of, for example, an inlet manifold 33 or a distribution comb connected to a direct pipe 34 of the steam-water heating system. The collector 33 by branch piping 36 with heaters 37 mounted on it is connected, for example, to radiators, pipelines or ventilation heaters, to an output manifold 38 or a distribution comb.

A straight pipe 34 is connected to a pipe 39 and through it with an input of a three-way control valve 40, one of the outlets of which is connected to a pipe 41 connecting it to a manifold 33, and the other outlet is connected to a pipe 42 with a valve 43 mounted on it, connecting this output with a collector 38. The actuator 44 of the three-way control valve 40 through the control device 45 is operatively connected to the temperature sensor 46.

The straight pipe 34 bypass pipe 47 with a valve 48 mounted thereon is connected to an output manifold 38, to which a return pipe 49 is connected, connected to the inlet of at least one recirculation pump 50, the output of which is connected to a direct pipe 34 with at least one one heat exchanger 51, for example a steam-water heater.

A pipe 52 is connected from the bottom of the storage tank 11, which connects this tank to the return pipe 49 and on which at least one booster pump 53 and valve 54 are installed, parallel to which a bypass pipe 55 with a valve 56 mounted on it is connected to the bottom of the storage tank tanks 11 on the one hand, for example through a portion of the pipe 52, and connected to the return pipe 49 on the other hand.

To the return pipe 49 is also a pipe 57 for city water from the plant's water pump station with a valve 58 installed on it.

A control valve 60 is installed on the steam pipe 59 connected to the steam-water heat exchanger, the actuator of which through the control device 61 is functionally connected to a temperature sensor 62 installed at the outlet of the heat exchanger 51, for example, on the pipe 34.

Heaters 18 and 37, temperature sensors 24 and 46 are installed directly on a specific site of the enterprise - the producer of alcohol, alcohol purification or alcoholic beverages, for example, in the premises of the production site 63, which can be a vodka bottling shop (Figure 1).

On the upper part of the storage tank 11, an overflow pipe 64 is installed, one end of which is incised above the upper point of the overflow pipe 12, and the other end of which is connected to the pipe 20 (Figure 2).

It is possible to dispense with the storage tank 11, in this case, the pipeline 10 is connected to the discharge pipe 65, from which the branches depart, namely the pipelines 32 and 52. After the junction of the pipeline 10 and the pipe 65, the pressure regulator 66 of execution "impulse tube 67 or its sensor. They are connected to the pipeline 65 and through a control device or through an impulse tube 67, are functionally connected with its actuator. The rest of the block diagram of the device coincides with the previous example shown in figure 1 (Figure 3).

In order to ensure the repair of control valves 14, 40, 28, 60 and pressure regulator 66, valves 68 are installed in series with their inputs and outputs on the pipelines associated with them, and if there are bypass lines, for example pipeline 69, valves 68 are also installed (Fig. .4a) and b)).

On the pipe 52, after the booster pump 53, a pressure regulator can be installed, for example, a pressure regulator 70 of the "after itself" design (Figure 5).

The heater 18 can be made in the form of a heater 71 through which a pipe 17, or a pipe 15, or a pipe 13, or a pipe 10 with a heat carrier - reflux water and an air pipe 72 with shutoff valves 73 installed on it, is installed in the air heater, for example fan (Fig.6).

The discharge device can be installed on the air duct 72 in a non-air heater 74, which differs from the air heater 71 only in the absence of a discharge device in it. In this case, either the fan or the compressor 75 (Fig. 7) can play the role of the injection device.

The air duct 72 can be connected to a manifold on which the bends 77 are made with a jet fan installed through the hub 78 through the hubs 78, for example, hollow blades 79 with drive holes made according to the patent No. 2128787 of November 19, 1993, published April 10, 1999 . (Fig. 8).

As a storage tank for chilled water, a pressure tank 80 can be used, to which a return pipe 20 is connected with a pump 81, a cooler 82, a valve 83 and a check valve 84 installed on it, while the check valve is located in close proximity to the pressure tank 80, in front of the pressure tank, a level 85 is also installed on the pipe 20, which maintains the required level in the pressure tank 80. Between the level 85 and the check valve 84, the pipe 20 is connected to the pipe 86 with It is controlled by a pressure regulator 87, for example, a pressure regulator "after itself", for feeding the system of circulating water supply with city water. Pipeline 9 exits pressure tank 80 with check valve 88 and valve 83 installed on it, after which pipe 9 is connected to pipe 20 bypass pipe 89 with valve 83 installed on it, check valve 84 and pressure regulator 90, for example, a pressure regulator “after itself” ". (Fig. 9).

In the heating system, several pumps 53, 50 and 81, several heat exchangers 51 and 82, several air heaters 71 and 74, several discharge devices, for example compressors 75, several control devices, including valves 14, 28, 40, 60, pressure regulators, can be installed 66, 70, 87, 90, several storage tanks, several distillation plants 1, several rooms 63 in which they are installed, but in order for this system to work enough for at least one of the listed devices, i.e. the expression "at least" fits all of them. Pipelines 10, 13, 15, 52 are pipelines for secondary heat carriers, which is reflux water coming from distillation unit 1 after returning its cold in reflux condensers 3 and 6, condensers 4 and 7, alcohol coolers, i.e. these pipelines are connected with their exits, i.e. with the outputs of consumers of cold circulating water, what they are, and therefore these pipelines can be called pipelines for the carrier of process heat from at least one distillation unit, storage tank 11 can be added to them, and at least one of this is enough for the heating system to work water supply. And the auxiliary heating system that uses this heat can be called secondary, and the centralized steam-water heating system is primary. The secondary heating system can be located in several rooms of the enterprise, in any case, it can be part of the recycling water supply system of at least one distillation unit. The pipeline 9 is a water supply for the cold carrier, which is recycled water from the pressure tank 80, the consumers of which are reflux condensers 3 and 6, condensers 4 and 7 and alcohol coolers of the distillation unit 1.

The heating system operates as follows.

Cooling water, passing through refrigeration consumers, for example, through coolers 8 of condensers 4 and 7, of reflux condensers 3 and 6 of distillation unit 1, is itself heated in them to approximately 65-70 ° C and through pipeline 10 enters the storage tank 11. Some of the water leaves through the pipeline 32 into the hot water supply system of the enterprise, through pipe 52 to stabilize the pressure in its central heating system, and its excess through the overflow pipe 12 and pipe 13 enters the inlet of the three-way valve 14, which distributes part of the mountains the cell of water to the auxiliary heating system through the pipeline 15, and part of this water flows through the pipe 21 to the return pipe 20 of the circulating water system of the distillation unit 1. This ratio is changed by an automatic control system consisting of a temperature sensor 24, a control device 23 and a valve 14, depending on the room temperature 63, in winter this water can be supplied to the auxiliary heating system completely and this automatic control system can t be disabled.

Thus, the water through the pipe 15 enters the inlet manifold 16, the discharge pipes 17, the heaters 18, the outlet manifold 19 and the return pipe 20, through which it enters the cooling system and is returned to the distillation unit 1 by at least one pump. that this section is typical, it is not shown in the drawing, but it can be said that the auxiliary heating section using the so-called “reflux water” as a heat carrier, i.e. the water that has passed through the condensers, reflux condensers and end coolers of the distillation unit 1 can be called part of the recycled water supply system, for example, distillation unit 1, this auxiliary system not only helps to heat the premises of the enterprise, but also pre-cool it before final cooling and return to the distillation unit 1, saving refrigerant, for example, artisian water and the circulating water itself, thereby giving a triple economic effect.

The bypass pipe 25 is used in case of emergency in the auxiliary heating system, in this case, the valve 26 opens.

The system of automatic control of the limit level in the storage tank 11, consisting of a sensor 24, a control device 23 and a valve 14, is used to maintain the maximum level in the storage tank in case of an emergency change in the throughput of the auxiliary heating system, for example, its full and partial blockage, in this case, the valve 28 opens and discharges excess water through the bypass pipe 27 from the tank 11 to the return pipe 20, excluding its overflow through the upper edges of the storage tank 1.

In parallel with the auxiliary heating system, using reflux water as a heat carrier, or in general secondary heat from distillation unit 1, central steam and water heating can be used to heat the premises of the alcohol processing plant, in which hot water is supplied through a direct pipeline 34 to the input of the control valve 40, which distributes it, depending on the temperature in the heated room, or to the input manifold 33, pipelines 36 with heaters 37 and the output manifold 38, or in the bypass conduit 42 and through it to reservoir 38 or the return line 49.

Hot water from the storage tank 11 through the pipe 52 enters the inlet of the pump 50 through the return pipe 49. Given that the storage tank 11 is located at a considerable height from the pump 50, then the pressure due to this height difference may be sufficient, in this case hot water from the storage tank 1 to the inlet of the pump 50 through the pipeline 55 with the valve 56 open, and if this backwater is not enough, it is possible to turn on the pump 55 with the valve 54 open and supply this water to the pump 50 inlet through the parallel Yelnia conduit 52.

In the absence of water in the storage tank 11, the retaining water is supplied to the inlet of the pump 50 through a pipe 57 from the factory pump station.

A steam-water heater is installed on the return pipe, the task of which is to heat the return water to the required temperature and stabilize it using an automatic control system consisting of a temperature sensor 62, a control device 61, and a valve 60 installed on the steam pipe 59.

Capacity 11 practically performs distribution functions, first of all, it directs reflux water to the hot water supply system, for example, to the boiler room to filters, to the dining room and showers, and its surplus to the heating system and the circulating water supply system of the distillation unit, so it can be called distribution unit.

But the functions of the distribution node can also be performed by a pressure regulator 66 installed on the reflux water pipe 10 after it is connected to the hot water supply pipe 65, and its primary element, pressure sensor or impulse pipe 67, functionally connected through a secondary element, a control device, or directly with its actuator is connected to the pipeline of the hot water supply system, while the valve used in the construction of the pressure regulator 66, normally closed execution. The simplest design of the pressure regulator 66 can be made in the form of a normally closed control valve installed on the pipe 10 after it is connected to the hot water supply pipe 65, the membrane actuator of which is connected via a pulse tube to the pipe 65, and in general it can be called a pressure regulator " to myself. " With sufficient pressure in the pipeline 65, the pressure regulator opens the flow of this water to the heating system and to the reverse water supply system, when the pressure in the pipeline 65 decreases, the pressure regulator 66, which can also be called a control valve, begins to block the flow of hot water to the heating system and to the reverse water supply , thereby determining the priority of supplying it to the hot water supply system of the plant.

The installation of a pressure regulator 70 after the pump 53 allows you to adjust the pressure of hot water in the pipe 52 and in the entire centralized heating system.

When using air heaters 71 and 74 as heaters, it becomes possible to heat rooms using secondary heat using fresh air ventilation, i.e. the air is heated in these heaters with reflux water and is supplied through an air duct 72, for example a duct, into a room, for example onto hollow blades 79, leaving their drive openings, these blades begin to rotate, ventilating the room and warming it with heated air.

When using a pressure tank as a storage tank, which creates a pressure in the water supply system of a distillation unit, a check valve 84 installed on pipeline 20 allows water to be shut off from pressure tank 80 and pipe 86 to pipe 20 when it is depressurized to this valve. The pressure regulator 87 allows you to stabilize the pressure in the pipe 20 in front of the pressure tank 80, feeding the system of reverse water supply with city water and performing the functions of protecting this system from dehydration, in case of an emergency stop of the pump 81. The bypass pipe 89 with the pressure regulator 90 installed on it allows replacing or supplementing the functions pressure tank 80, feeding to a distillation plant, cooling water of stable pressure.

Claims (11)

1. The heating system in alcohol production, containing at least one distillation unit, the input of the consumers of the cold of which is connected to the water supply for the carrier of the cold, and the output is connected to the water supply for the carrier of secondary process heat associated with the recycled water supply system, characterized in that the water supply for the secondary process heat carrier is connected to the secondary heating system in such a way that the secondary heating system is part of the recycled water supply system. 2. The heating system in the alcohol industry according to claim 1, characterized in that this connection is through at least one three-way control valve, the input of which is connected to the water supply for the process heat carrier, one of the outputs of this valve is connected to the secondary heating system, and the other with a bypass pipe connecting it to the return pipe of the secondary heating system, and the actuator of this three-way valve is functionally connected to a temperature sensor installed in a heated room enii. 3. The heating system in alcohol production according to claim 1, characterized in that the water supply for the carrier of the secondary process heat to the cooling devices is connected to the return pipe of the primary heating system in front of its recirculation pump. 4. The heating system in alcohol production according to claim 3, characterized in that at least one pump is installed on the water supply for the secondary heat carrier to increase the pressure in the primary heating system. 5. The heating system in alcohol production according to claim 3, characterized in that a pressure regulator is installed on the water supply for the secondary process heat carrier. 6. The heating system in the alcohol industry according to claim 1, characterized in that the heaters of the secondary heating system are made in the form of radiators. 7. The heating system in alcohol production according to claim 1, characterized in that the heaters of the secondary heating system are made in the form of heaters, functionally connected by the ventilation system of the heated room. 8. The heating system in alcohol production according to claim 1, characterized in that the distribution node in the form of a storage tank is made on the water supply for the secondary process heat carrier, with a pipe connected to its bottom and connected to the hot water supply system, and connected to its overflow pipe water supply connecting it with a secondary heating system. 9. The heating system in alcohol production according to claim 1, characterized in that a distribution unit is made on the water supply for the secondary process heat carrier, made in the form of a pressure regulator installed on this water supply after it is connected to the pipeline connecting it to the hot water supply system, and the primary element of the pressure regulator, such as a pressure sensor or impulse tube, is connected to this pipeline. 10. The heating system in the alcohol industry according to claim 1, characterized in that the pipe of the circulating water supply system is connected to the pressure tank through a check valve installed near it, and after it a city water pipe with a pressure regulator installed on it is connected to this pipeline. 11. The heating system in the alcohol production according to claim 1, characterized in that the pipe of the circulating water supply system is connected to the bypass pipe leaving the pressure tank with a pressure regulator installed on it, and the return pipe is installed in front of the connection to the pipe leaving the pressure tank valve.

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