RU2471918C1 - Device to melt snow by heat of refrigerating plant - Google Patents

Abstract

FIELD: instrument making.

SUBSTANCE: device for melting is arranged in the form of a heat insulated hopper previously filled with water, in the lower part of which there is a heating section, above which, but below the water level, a detachable protective grid is installed. In the device there is also a double-cavity heat exchanger and a three-way valve. The heating section is combined with one of cavities of a double-cavity heat exchanger into a closed manifold with a circulating coolant, making it possible to transfer heat from a heat exchanger to water filled into the hopper. In the other cavity of the heat exchanger there is a hot coolant flowing after compression in a compressor. The drain manifold joined with a sewage system is arranged as heat insulated with a stop valve, in the upper part of the side surface of the reservoir there is an overflow hole joined by a heat insulated pipeline with a drain manifold after a stop valve.

EFFECT: invention makes it possible to reduce power inputs and to increase operation safety.

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Description

The invention relates to a device for melting snow mass collected from the territory of shopping centers, hotels and warehouse complexes equipped with refrigeration units, and the removal of melt water in storm or sewer collectors. This device gives the greatest effect when used near large shopping or office centers with large parking spaces, such as supermarkets such as the Golden Babylon in Moscow, Auchan, Leroy Merlin, etc.

In the cities of Russia with its heavy snowfalls, the costs of utilities for cleaning and removing snow make up a significant share of the city budget. Snow transportation by freight transport along city streets from the place of its collection to special snow collection sites creates an additional load on the city transport network. Then, in the spring, this large mass of snow collected during the winter should be evenly scattered several times as it naturally melts in order to accelerate this process.

To solve the problem of snow utilization in large cities, stationary and mobile snow melting installations are used. Stationary snow-melting plants are located on the outskirts of the city, where snow is transported by trucks. These units are connected to nearby diesel tanks if the snow is melted with diesel burners, or to stationary gas networks if gas burners are used. In traditional stationary snow-melting sites, snow is unloaded into the hopper through a snow-crushing device mounted above the hopper, directly from the truck body, while the snow mass is exposed to the open flame from the burners, which causes the snow to melt, and melt water flows from the hopper into the sewer or storm collector . Such snow melters make a lot of noise during operation, consume a lot of fuel and emit a lot of harmful substances into the atmosphere. As practice has shown, after heavy snowfalls, cars can stand idle for a long time at snow melting points in the unloading line. Mobile snow melters are also known, as a rule they are of lesser productivity, but more compact, and they can be installed inside the city where they directly remove snow using small-scale mechanization tools, which can be installed in places of dense urban development or near supermarkets. Daily rental of these plants is quite expensive, so they are characterized by high performance. This is also achieved by melting the snow loaded into the hopper in an open flame of several burners operating on gas or diesel fuel. Therefore, the operation of such installations emits a lot of harmful gases, and this pollutes the surrounding airspace.

Mobile snow melting devices began to be produced by various companies both abroad and in Russia. For example, in Russia, one of the companies producing this equipment is VTK-Prom. The plants are a mobile snow melting bunker installed near the snow removal site. The heat source in these devices is a heat generator. The flow of hot exhaust gas after fuel combustion in the heat generator is sent directly to the pipes of the heat exchanger located in the snow melting hopper where the snow is loaded. The snow, in contact with the walls of the hot pipes, begins to melt, and melt water gradually fills the snow melting hopper and then leaves the hopper in the sewer system.

The disadvantage of snow-melting plants operating on gas or diesel fuel is their high noise level and the large amount of harmful products of fuel combustion emitted into the atmosphere that have a negative impact on the environment. If such a snow melter is installed in a busy area of the city near a supermarket, then in a few hours the surrounding area will be gassed like a major highway with a dense stream of freight transport. As an example, two installations of the company "VTK-Prom." One of them - a snow melter SPU-2 with a capacity of 5 m ³ / h of snow mass during operation, consumes from 15 to 24 kg / h of liquid fuel, while the energy consumption to ensure its operation is 2.2 kW. A more powerful snow melting plant SPU-5 has a capacity of 15 m ³ / h with a fuel consumption of 22 to 49 kg / h and an electric power consumption of 4.4 kW. Thus, the consumption of liquid fuel per 1 m ^{3 of} snow mass is about 3 kg / m ³ . In addition, the disadvantage of such snow melters is that for their maintenance and operation, in addition to snow cleaners, they also require a qualified mechanic with an average payment of 150-200 rubles / h, who must constantly monitor the operation of the fuel supply system to the burners and at work of a diesel generator. Constantly increasing requirements for our living environment, as well as rising fuel prices, are the main force forcing people to improve installations for forced snow melting in terms of their environmental and energy efficiency.

A US patent is known (5199198, CL Е01Н 5/10, publ. 04/06/1993), in which a method and device for removing snow-ice mass collected from the territory of a metropolis, which consists in the fact that the snow-ice mass is poured into a receiving hopper devices are crushed to the required size of the individual elements of the snow-ice mass and transferred to a snow melting chamber, into which warm sewage sewage is supplied to melt the snow-ice mass, after which melt water is discharged to the sewer collector. A device for removing snow and ice mass according to this method comprises a snow melting chamber connected to a pipeline for supplying warm water and a pipeline for removing melt water associated with a sewer collector. This device also contains a receiving hopper with drive shafts with crushing elements mounted above the snow melting chamber.

A similar device for removing snow and ice mass collected from the territory of a megalopolis is described in Russian patent 2,188,890 with a publication date of September 10, 2002 (class: Е01Н 5/10, Е03F 5/02) according to application 2001127297/28 of 10/10/2001 ., patent holders: OAO NIISstroydormash and GUP Mosvodokanal.

The disadvantages of these devices are low energy efficiency of the device, because for crushing snow and ice blocks, it is necessary to expend additional electricity, which drives the drive shafts of the device located above the hopper. At the same time, the device, into the bunker of which warm sewage wastewater is supplied for melting snow, is not always applicable from the point of view of ecology and public utilities. It should be removed from crowded places (the smell of sewage, even after pre-treatment, is not very pleasant). In addition, the supply of warm wastewater from treatment plants requires the use of special corrosion-resistant pumps, which leads to an increase in the cost of the device and the cost of its operation. In addition, such snow melting devices can only be located near treatment facilities, i.e. on the outskirts of cities. Therefore, the collected snow must be brought there by truck. All this negatively affects the environment, increases the cost of snow removal and limits the possibilities of using this device.

As a prototype of the proposed technical solution, a device was selected - a mobile snow melter described in Russian patent 2023786 with publication date 11/30/1994 (class: Е01Н 5/10, Е01С 11/24) according to application 4939409/11 of 05/27/1991.

In this device, forced snow melting is achieved through the use of heat from the exhaust gases of the engine (diesel or gasoline) of a mobile snow melter. The snow melter is equipped with a heated hopper, a protective grating-dirt collector, and a two-cavity heat exchanger. The exhaust gases of a running engine pass through one cavity of the heat exchanger, heating the water passing through the second cavity of this heat exchanger from the supply tank. This heated water is used to irrigate the snow lying on the protective grid in the hopper. After the heat exchanger, still warm exhaust gases enter the cavity formed by the inner and outer walls of the hopper, and also heat them. Snow loaded by loaders into the bunker, when it is irrigated from above with warm water, and also in contact with the inner wall of the bunker heated by exhaust gases, begins to melt, while meltwater flows down the bunker, and from there into the sewer.

As a disadvantage of the prototype, one can point to its environmental and energy imperfection, since forced melting of snow requires the constant operation of an engine running on liquid fuel, although the mobile snow melter stands still and is hydraulically connected to the sewer. And this means that at the place of operation of the snow melter, exhaust gases will be constantly emitted into the atmosphere. In addition, most of the heat of liquid fuel is converted in the engine of the diesel generator, i.e. does not have a large positive effect on melting snow. The design of the snow melting bin also has a significant drawback. It is made with double walls for the passage of exhaust gas between them, which complicates its design. Exhaust gas gives off heat to both walls equally. And if the snow in the bunker, touching the internal hot wall, begins to melt, then the heat from the outer wall of the bunker simply leaves useless in the surrounding space. Thus, the thermal efficiency of this device is further reduced. In addition, noise from a running diesel generator engine also negatively affects the environment. It should also be remembered that all devices operating on liquid fuel are fire and explosion hazardous objects, which must be periodically examined by the technical and fire supervision authorities, which leads to an increase in the cost of operating these devices.

At the same time, refrigeration systems of buildings, such as supermarkets or large refrigeration buildings equipped with remote condensers mounted on the roof or on the ground near the building, are widely known. These condensers are designed for cooling and condensing hot gaseous vapors leaving the compressor. In this case, a hot gaseous refrigerant heated to 80-100 ° C, cooling and condensing, gives off the heat of condensation to the surrounding air. Such refrigeration systems are described in the book by E.S. Kurylev and N.S. Gerasimov. Refrigeration units, ed. "Engineering", Leningrad, 1970. pp. 325, 326 and many others.

The aim of the present invention is to remedy these disadvantages, namely the elimination of harmful effects on the environment during operation of the device, reducing energy costs and improving operational safety.

This goal is achieved by the fact that in the device for melting snow with a melting hopper connected to the sewer collector, a two-cavity heat exchanger and a protective grill, the utilized heat of the compressor-condenser refrigeration unit is used as an external heat source, for which a heating section is installed, which is installed in the lower part of the snow melting hopper, and a three-way valve, while the heating section is combined with one of the cavities of the two-cavity heat exchanger in a closed a main line with a circulating coolant, the second cavity of this heat exchanger is connected to the output of the condenser of the refrigeration unit and one of the outputs of the three-way valve, the other output of this valve is connected to the input of the condenser, and the input of the three-way valve is connected to the compressor output, the snow melting hopper is insulated and pre-filled with water while the protective grill is removable and installed above the heating section below the water level in the hopper, a drain line connected to the sewer a lecturer, made insulated with a shut-off valve, an overflow hole is installed in the upper part of the side surface of the tank, connected by a thermally insulated pipeline to a drain channel after the shut-off valve.

The conducted patent studies have shown that the set of distinctive features characterizing this technical solution is unknown to the authors, which allows us to conclude that its criterion of "significant differences" is met.

The technical result when using the proposed device for melting snow is achieved due to the fact that, in contrast to the currently existing similar devices, it has the following positive properties:

- for melting snow in the device, the utilized heat of the refrigeration unit, traditionally given to the surrounding space in air or water condensers, is used as an external heat source. Considering the fact that the refrigeration capacities of food and processing industries, trade enterprises, refrigerated warehouses, distribution terminals are constantly growing and often reach several megawatts, the utilization of the waste heat of refrigeration units is an important task in terms of energy saving and environmental protection, since it saves energy resources;

- the installation in the lower part of the hopper of the heating section, the heat to which is supplied by the liquid coolant from the refrigerating machine through the double-circuit heat exchanger, eliminates the use of diesel or gas fuel as a heat source for melting snow in such devices, which reduces the cost of installation and the cost of its operation, displays these installations are from the class of fire and explosion hazardous facilities and improves the environment ecology;

- installing a removable protective grill inside the hopper below the water level allows the snow to be loaded immediately into warm water, which will accelerate its melting and the deeper the hopper is and the lower the protective grill is, the faster the snow will melt. Chunks of ice and thick snow falling on this grate are washed by warm water and begin to melt quickly. The grate is periodically removed from the hopper and cleaned of solid foreign objects (leaves and tree branches, household garbage, paper, etc.). In this device it is important that with such a design there is no need to install ice crushers and packed snow over the hopper, which are quite energy-intensive and require constant maintenance of the device. This increases the energy efficiency of the proposed device;

- an overflow hole made in the upper part of the side surface of the insulated hopper, connected by a thermally insulated pipe to a thermally insulated drain channel after the shut-off valve, prevents the hopper from being overfilled with water during snow melting. In this case, cold water drains into the sewer, since the drain hole is located just in the snow melting zone, and warm water enters this zone from the bottom of the tank, where the heat exchange section is located. This also has an impact on cost savings, because immediately after the snow melts, melt water with a temperature close to 1-2 ° C is discharged into the sewer, practically not mixing with warm water under the protective grill. Therefore, the warm water remaining in the bunker begins to melt the next portion of snow, poured into the bunker;

- a heat-insulated drain channel located at the bottom of the hopper with a shut-off valve allows, after snow removal, to drain all water into the sewer. After opening the shut-off valve, water under the influence of static pressure flows out of the hopper, capturing contamination from the bottom. After removing the protective grill, from the top when draining the water, you can clean the bottom from contaminants, for example, with hard brushes, so that all contaminants immediately fall into the sewer system, which also helps to improve the environment;

- pre-filling the hopper with water and its pre-heating is an important feature of the device, allowing to accelerate the initial process of melting snow mass;

- thermal insulation of the walls of the hopper, the drain channel and the pipe connecting the overflow hole to the drain channel, reduces heat loss to the surrounding space during its operation, i.e. the water temperature in the bunker will decrease mainly due to snowmelt falling into the bunker, and not due to heat losses through the bunker walls, thereby increasing the productivity of the process of melting snow mass. Thermal insulation of the drain channel and pipe protects these elements from possible freezing during any small interruptions in the operation of the device that do not require complete draining of water.

Additional advantages of the proposed solution are:

- filling the bunker with water in the hot season (at peak capacitor loads) and connecting the heating section through a two-cavity heat exchanger to the refrigeration unit reduces the temperature of the air condenser, which avoids the operation of the refrigeration unit with high condensation temperatures and low efficiency;

- in the warm and snowless season, this bunker can be used for heating water for the technological needs of the building, reducing energy costs for these purposes.

We will consider the practical implementation of the design of the proposed device for melting snow collected near a large supermarket such as AUCHAN using the example of the operation of this device from the refrigeration unit of a shopping center. The refrigeration unit provides operation of the entire complex of commercial refrigeration equipment (counters, chests, racks, refrigerators, cutting and packing shops, trading floors) and has a cooling capacity of 750 kW. Then, the amount of heat discharged in the condenser will be, according to the laws of thermodynamics, about 1000 kW (the capacity of the electric drive of the compressor is added to the cooling capacity - about 250 kW). Thus, during the operation of the refrigeration unit for its normal operation, about 1 MW of heat should be discharged into the surrounding air through a condenser at a level of 45-50 ° C. The proposed device allows it to be useful to use this heat by melting snow collected from the surrounding area (parking lots, sidewalks), product unloading zones.

Figure 1 schematically shows the proposed device for melting snow utilized heat of the refrigeration unit, where the numbers indicate:

1 - refrigeration unit

2 - compressor

3 - condenser refrigeration unit

4 - three-way valve

5 - two-cavity heat exchanger

6 - heating section

7 - circulation pump

8 - insulated hopper

9 - removable protective grill

10 - water level

11 - insulated drain channel

12 - shutoff valve

13 - overflow hole

14 - thermally insulated pipe.

A refrigeration unit 1 with a compressor 2 is located inside the building. A condenser of the refrigeration unit 3 is installed outside the building (on the roof, on the wall or on the ground), which is a heat exchanger for cooling the compressor vapor compressed refrigerant with ambient air. A three-way valve 4 and a two-cavity heat exchanger 5 are sequentially installed in the discharge pipe at the outlet of compressor 2. The input of one of the cavities of this heat exchanger 5 is connected to one of the outputs of the three-way valve 4, and the output of this cavity is connected to the output of the condenser of the refrigeration unit 3. The input and output of another the heat exchanger 5 forms a closed hydraulic circuit with the heating section 6 and the circulation pump 7, and the heating section 6 is installed in the lower part of the insulated hopper 8. Another output a three-way tap 4 is connected to the input of the condenser 3, and the input of this tap is connected to the output of the compressor 2. A removable protective grill 9 is installed above the heating section 6. The insulated hopper 8 is pre-filled with water, and the water level 10 is located above the removable protective grill 9. At the bottom of this hopper, a heat-insulated drain channel 11 with a shut-off valve 12 is located, and an overflow hole 13 is placed in the upper part of the hopper on the side surface, connected by a heat-insulated pipe 14 to the drain channel 11 e shut-off valve 12. The drain passage 11 is connected to a collector sewer building or city storm sewer.

The device operates as follows.

During operation of the refrigeration unit 1, the compressor 2 compresses the refrigerant vapor, which at the same time heats up to a temperature of about 100 ° C. After the compressor 2, the refrigerant vapor, depending on the position of the three-way valve 4, is either supplied to the inlet of the condenser 3, where it is cooled by circulating the ambient air through its heat exchange surface, condensed and returned to the refrigeration unit 1, or to the inlet of one of the cavities of the heat exchanger 5 The first mode is used in the warm season and in winter, when snow removal is not required. When snow falls and it becomes necessary to clear it, the three-way valve 4 is set to the position shown in FIG. 2. In this position, hot refrigerant vapor flows from the compressor 2 into one of the cavities of the two-cavity heat exchanger 5, where they transfer their heat to the heat carrier circulating through this cavity due to the operation of the pump 7. The heated heat carrier transfers the received heat to the heating section 6, which, in turn, heats water previously poured from the water supply into the insulated hopper. For faster heating of the water, the hopper can be closed with a thermally insulated lid, the rise or shift of which can be automated. After heating the water (the temperature may be different depending on the performance of the refrigeration unit, the size of the hopper and the type of insulation), but when choosing the optimal parameters, this temperature should be at the level of 30-35 ° С, the lid opens, and the snow mass collected from surrounding area or roof. Snow falling into the warm water of the insulated bunker 8 begins to melt quickly, raising the water level 10 in the bunker to the height of the overflow hole 13, and then the melt water flows down the insulated pipe 14 into the sewer of the building or storm sewer. A removable protective grill 9 protects the heating section 6 from damage by ice or heavy snow, as well as from foreign objects falling into the hopper together with snow. A heat-insulated drain channel 11 with a shut-off valve 12 is designed to drain water from the hopper during periodic cleaning. In this case, a removable protective grill 9 is removed from the hopper 8 and is cleaned of solid foreign objects (leaves and tree branches, paper, household garbage). After snow removal, the three-way valve is installed in the position indicated in figure 3, in which all the heat of the refrigeration unit is transferred from the condenser 3 to the surrounding space, the shut-off valve 12 is opened, draining all the water from the hopper into the sewer.

If it is necessary to obtain warm water for technological needs, the operation mode of this device in the three-way valve position according to FIG. 2 can be used at any time of the year, after washing the internal cavity of the hopper and filling it with water from the water supply.

Thus, in the proposed device, the process of melting snow mass is carried out without the cost of any fuel, only by utilizing the heat of the refrigeration unit, which is traditionally given to the environment. With the ever-increasing demands of supermarkets for refrigeration units and an increase in their capacity, the heat recovery process of these units in snow melting devices can give significant savings on the costs associated with cleaning snow from the roofs of the building, as well as the territory adjacent to the building.

Such installations can be made both stationary and mobile, moving from one building to another. The presence on the market of flexible pipelines and tight quick connectors allows you to practically use this opportunity. To do this, it is necessary to mount reciprocal fittings in existing refrigeration units for connecting the pipelines of a mobile device for melting snow. In the summer, during periods of peak thermal loads on the condensers at high ambient temperatures, when the condensers of the refrigeration units operate at the limit of their performance, such bunkers filled with water can relieve part of the heat load going to the condenser, thereby ensuring uninterrupted operation of the refrigeration unit.

An additional advantage of the invention is that in a warm and snowless season, this tank can be used for heating water for the technological needs of the building, thereby providing additional supercooling of the refrigerant and increasing the useful cooling capacity of the installation.

Claims (1)

A device for melting snow with the utilized heat of a refrigeration unit, including a melting hopper with a drain line connected to the sewer collector, a two-cavity heat exchanger, a protective grill and an external heat source, characterized in that, in order to avoid harmful effects on the environment when removing snow mass, reducing energy costs and operating costs, the utilized heat of the compressor-condenser refrigeration unit is used as an external heat source, for which the device includes a heating section installed in the lower part of the snow melting hopper and a three-way valve, while the heating section is combined with one of the cavities of the two-cavity heat exchanger into a closed line with a circulating heat carrier, the second cavity of this heat exchanger is connected to the output of the condenser of the refrigeration unit and one of the exits three-way valve, the other output of this valve is connected to the input of the condenser, and the input of the three-way valve is connected to the output of the compressor, the melting hopper is snow made insulated and pre-filled with water, while the protective grill is removable and installed above the heating section below the water level in the hopper, the drain line connected to the sewer collector is made insulated with a shut-off valve, an overflow hole is connected in the upper part of the side surface of the tank, connected by a thermally insulated pipeline with drain channel after shut-off valve.

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