DE102004021061A1 - Artificial snow production, e.g. for production of chilled pre-mixed concrete, avoids lump-formation by using draught tube baffle crystallizer vessel, fed with water and liquid nitrogen - Google Patents

Abstract

Artificial snow is continuously produced in a tubular baffle crystallizer vessel (1, 16), fed with water, cold gas and/or liquid nitrogen, and circulated upwards into a baffle tube (16) by a fan (6). The feeds are sprayed into the baffle tube which may have a closed upper end, or be an open draught tube allowing recirculation of gas and particles upwards through the tube. An independent claim is included for the production of artificial snow by injecting water into an upwards flow of cold gas.

Description

The The invention relates to an apparatus and a method for generating of artificial snow for the production of pre-cooled Concrete.

concrete comes in the construction industry in a wide variety of applications and diverse variations for use. Concrete is used in civil engineering, and the Terms normal concrete, lightweight concrete, exposed concrete, self-compacting Concrete, underwater concrete, etc. are just a few of the many possible variations of the high-tech building material concrete.

The usual form The concrete preparation consists of water and cement as well further surcharges and accessories (Binder, filler, Slag, Fly ash, lime, sealant, condenser, etc.) in predetermined Composition are mixed. It is the quality of the produced fresh concrete important that the mixing of the mixing water to the solid components quantitatively accurate and reproducible, so that compliance with the required mixing ratio guaranteed in the tolerance range can be.

Next compliance with the required mixing ratio is the quality of the fresh concrete decisively influenced by the installation temperature. Depending on the type and use of the concrete must not exceed a specific installation temperature become.

Around the stated requirements with regard to the installation temperature and the transportability of the To be able to comply with concrete has already been proposed, the concrete by using cooled mixing water to cool directly during the mixing process. The addition of the mixing water in the form of flake ice has proven to be detrimental, as they result in a reduction in concrete quality a non-uniform moisture of the concrete leads. As an alternative, it was proposed that the mixing water in the form of supercooled Add artificial snow.

In Hitherto known method is artificial snow with so-called snow cannons produced. The basic principle is that water under some Pressure using suitable nozzles and atomizer systems in fine droplets is distributed, which then freeze in cold surroundings to ice crystals. Here, methods are known which for lowering the temperature liquid nitrogen or other liquid use cryogenic gas.

Out physical reasons (thermal conductivity of water) the water droplets however a relatively long time to completely even into the inside of the droplets too crystallize. Up to a certain time therefore exists the Risk of ice or snow clots when subjected to mechanical stress can form. The ice lumps can form by the fact that not yet frozen water droplets at Impact or premature compression burst and resemble one another Connect snowball from wet snow. Completely frozen Forming water droplets whereas a non-clumping, gritty, easy to dose powder snow.

Around a complete Crystallization of water droplets to enable is one of the droplet size and of the ambient temperature dependent Dwell time floating in the cold environment crucial. In the In practice, this is achieved by building a sufficiently high spray tower in which alone by the drop height sufficient time for complete freezing the water droplets guaranteed becomes.

Around Such a plant for the production of cold concrete makes sense to use on site, there is a requirement to design the system in such a way that she is transportable remains and in particular the legal requirements regarding the maximum transport dimensions (in the Highway Code specified) is sufficient. At the required drop heights for the However, artificial snow production is usually no longer possible. When Another aspect is the question of profitability of a special kind Importance.

In Scripture DE 100 54 563 A1 For example, a method and apparatus for producing concrete using supercooled artificial snow as a make-up water is described. A cold gas mixture consisting of water and gaseous and liquid nitrogen is injected into a spray chamber. In this case, the cold gas jet is set in a rotation about its own axis in order to extend the beam path and thus the suspension period.

Known is about it addition, a method in which in a closed silo container a snow gun aslant is installed from below so that the water mist rises first and then falls down. Also by this measure the dwell time of the water droplets is to be extended while suspended.

The invention has for its object to provide a device that at low height, the residence time of the individual water droplets in the Suspended in the precooled environment extended until they are substantially completely crystallized. Furthermore, the invention aims to achieve a process for the complete crystallization of the water droplets with the lowest possible height of the machine equipment.

The The invention is based task by the Characteristics of the independent claims solved. Advantageous embodiments and further developments of the invention are in the subclaims specified.

To A first aspect of the invention comprises an apparatus for generating of artificial snow for the production of pre-cooled Concrete a device for injection of water in a cold environment and a container to catch the generated Artificial snow. The device for the injection of water in an im Ceiling area of the container provided telescopic part housed.

For the transport the device retracts the telescopic part. After this Setting up the container on the construction site, the telescopic part is used to enlarge the fall height pulled out and guaranteed in the extended state a sufficient long residence time of the water droplets in limbo.

Preferably the telescopic part is displaceable in the ceiling area of the container attached, extendable tube. The tube can be replaced by an external refrigeration Equipment or by a refrigerant supplied to the water during injection, e.g. liquid nitrogen, chilled become.

A further advantageous embodiment of the first aspect of the invention characterized in that in the container means for generating a upward gas flow is available. By this means, which expediently in the form of a fan and / or a delivery system for delivering a cold gas, in particular nitrogen, is realized, the Falling speed of the water droplets reduced in an adjustable manner by the upward gas countercurrent become.

To A second aspect of the invention comprises the device according to the invention for the production of artificial snow for the production of pre-cooled Concrete means for injection of Water in a cold environment, a container to catch the generated Artificial snow and one in the container housed and there preferably arranged substantially vertically Riser, with the injected Water and / or artificial snow rises in the riser. The riser thus defines a given flow area with upflow, in which the water droplets or the already formed artificial snow initially transported upwards and after exiting the riser outside of it falls. By the riser becomes floating from the water droplets / artificial snow covered Total distance of travel in the container extended. About that In addition, due to the defined by the riser defined flow conditions a precisely set upward flow in the Riser be generated, which is similar to the air classifier method Separation of the snow crystals from the not yet frozen ones water droplets allows. Both aspects are possible it, the container equip with a comparatively low height.

The Riser is preferably arranged substantially centrally in the container, so that a symmetrical structure without disturbing baffles achieved becomes.

One first preferred embodiment according to The second aspect of the invention is characterized in that the device for the injection of Water is arranged in the lower region of the riser. In this Case, the riser is traversed once (from bottom to top) of the water droplets.

One second advantageous embodiment according to the second aspect of the invention characterized thereby, that in the riser a coaxially arranged downpipe is provided, and the device for injection of water is arranged so that the water from the top of the downpipe injected is and comes out of the downpipe in the riser at the exit. In this case, the water droplets pass through the riser twice, and first from top to bottom within the downpipe and then from below upwards in the area between the riser and the downpipe. On this way will be a further extension of the route for artificial snow formation (and thus a reduction in the height of the container) achieved.

A in the riser upwardly directed gas flow can either by a Fan or a delivery system for feeding one in the riser upward flowing cold gas, in particular nitrogen, be realized. It is also possible that both a fan and such a delivery system are provided.

In general (ie also in the device according to the first aspect of the invention), a feed system can be provided, via which additives and / or nucleators and / or compressed air and / or nitrogen and / or liquid nitrogen are injected. By the addition of nucleators the nucleation temperature of the water can be favorably influenced so that the crystallization starts earlier (all other things being equal). This also allows a reduction in the height of the container. By adding compressed air and / or nitrogen and / or liquid nitrogen, the temperature of the cold gas injection and the consistency of the artificial snow can be changed as desired. By supplying additives used in the construction industry for the production of concrete is achieved in an advantageous manner that they are also mitgekühlt and also present by the distribution in the water mist in good and homogeneous sub-mixture in artificial snow (mixing water).

It It should be noted that the container in most cases at the same time as a silo container for Storage of the generated artificial snow is realized. But it is also possible, that the container only to catch the generated artificial snow and he serves with a separate silo container connected to the storage of artificial snow.

A further advantageous embodiment of the devices according to the invention according to the first and / or the second aspect of the invention This is due to the fact that a dosing system for dosing artificial snow batches from the container (or from a downstream silo container, which is connected to the container is) and a conveyor system to promote the artificial snow batches are intended for a mixing system for the treatment of concrete are. While the artificial snow production thus preferably takes place continuously, are from the artificial snow storage volume stored in the container / silo container single artificial snow batches are dosed. A special advantage of Dosing from a supply volume is that a short Dosing time and thus a short period of time for the production of a concrete batch (i.e., high plant performance) is achievable.

One Particularly advantageous dosing system comprises a dosing scale, which preferably located in cryogenic environment and the artificial snow batches by weighing dosed.

To In a third aspect of the invention, an apparatus for the Production of artificial snow for the production of pre-cooled Concrete a device for injection of water in a cooling pipe and a mixing system for the concrete preparation into which artificial snow leaving the cooling pipe directly, i. without stock formation and dosage from a stock, is metered. The advantage of this arrangement is that due to the omission of the container a much smaller size achievable is. About that In addition, easy integration into existing equipment (i.e. Existing mixing systems for the concrete preparation) possible. Disadvantageous compared to the first two aspects of the invention (with container) is however the longer one Dosing time, which increases the time for the production of a concrete batch extended and at the same time reduces the system performance.

Preferably has the device according to the third aspect of the invention a Water quantity measuring and control unit for the dosage of the device for injection supplied water on. The artificial snow dosage is thus with temporally linked to the course of artificial snow production.

at all Aspects of the invention it is advantageous if a heat exchanger for precooling the Water is present by means of cold exhaust gases. By pre-cooling the Water by means of cold exhaust gases, the residual cold of the exhaust gases can be used and it is due to pre-cooling of the water a shortening the required Schwebewegs the water droplets until complete crystallization reached.

One Method according to the second Aspect of the invention comprises the step of injecting water in a cold environment inside a container, being the injected water and / or artificial snow in the riser rises, from the riser exit and in the container is deposited to catch the generated artificial snow.

One Process according to the third Aspect of the invention comprises the step of injecting water into a cold one Environment inside a cooling tube on, leaving the cooling tube exiting artificial snow directly, i. without stock formation and dosage from the supply, metered into a mixing system for the treatment of concrete becomes.

The Invention will now be described with reference to exemplary embodiments with reference closer to the drawings explains; in these show:

1 a schematic sectional view of a system according to the invention for the production and dosage of supercooled artificial snow according to the first aspect of the invention;

2 a schematic sectional view of a first embodiment of a plant according to the invention for the production and metering of cryogenic artificial snow according to the second aspect of the invention;

3 a schematic sectional view of a second embodiment of a plant according to the invention for the production and metering of cryogenic artificial snow according to the second aspect of the invention; and

4 a schematic sectional view of a plant for the production and dosage of artificial snow according to the third aspect of the invention.

In an artificial snow container or silo 1 is deep cold artificial snow 3 which is passed through a snowmaking device 2 was generated. In the silo shown here 1 So will both artificial snow 3 generated as well as saved. The artificial snow generator 2 is in the ceiling area of an essay 4 arranged. The essay 4 is movable (arrow P) on the ceiling 5 of the silo 1 attached, ie he can go up from the silo 1 pulled out and down into the silo 1 be pushed back. It is also in the silo 1 a fan 6 , which in operation a gas flow 7 generated in the upward direction.

Below the silo 1 is a supercooled isolation cell 8th arranged. The insulating cell 8th is structurally realized in the form of a abge closed space or cabinet, the bottom and side walls are lined with a cryogenic insulation. The cooling of the insulating cell 8th can be done over the (non-insulated) ceiling area, which at the same time the bottom of the silo 1 forms. Furthermore, there is a cooling of the insulating 8th by the inflow of deep cold artificial snow during the dosing process.

Inside the cold insulation cell 8th is a container scale consisting of a weighing container 9 and a force fit with the weighing container 9 coupled scales 10 , Essential part of Libra 10 is a measuring cell (not shown) for weight detection of the weight of a material to be weighed (artificial snow) in the weighing container 9 ,

In the bottom area of the silo 1 is a dosing flap 11 intended. A container flap 12 is located at the bottom of the weighing container 9 , and an emptying closure realized as a tempering bulkhead 13 is in the bottom area of the insulating cell 8th below the container flap 12 arranged.

Below the drainage cap 13 can be a transport or conveyor system 14 for transferring the weighed artificial snow batch to a mixing system, not shown. The transport or conveyor system can be realized as a conveyor belt or auger, in the simplest case, however, it can also be in the form of a shaft or the like, through which the weighed artificial snow falls directly into the mixer or this is fed.

The ceiling-mounted artificial snow-generating device 2 is via a first supply line 21 the mixing water (H ₂ O) and a supply line 22 liquid nitrogen (LIN) to a temperature of -196 ° C supplied. Further supply lines 23 . 24 . 25 . 26 allow the supply of nitrogen, compressed air, additives and nucleators.

About valves 15 lockable supply lines 27 open into the bottom of the silo 1 , By blowing cold nitrogen gas over the supply lines 27 A loosening of artificial snow can be achieved, resulting in a high degree of compaction of artificial snow 3 can be counteracted in the stock volume.

The total height H of the 1 shown plant is at fully inserted essay 4 eg 8.70 m (maximum permissible transport dimension according to the Highway Code).

When transporting the system by means of semi-trailers or the like is the extendable attachment 4 practically completely in the silo 1 pushed into it. After setting up the attachment, the essay 4 be pulled out to his highest possible position. As a result, the achievable fall path of the artificial snow can be increased by about a factor of 2 (ie, for example, from about 3 to 4 m to 6 to 8 m). It can also be a multi-telescopic essay 4 be provided, whereby an even greater extension of the fallway is reached.

By the blower 6 generated gas flow 7 , which is directed counter to the fall direction, a further extension of the dwell time of the artificial snow is achieved in the flight phase.

The operation of the device according to the invention is as follows. By a suitable mixture of the over the supply lines 21 to 26 the artificial snow generator 2 the temperature, the consistency, the accumulation of artificial snow with additives and the crystallization time is adjusted suitably. Artificial snow production is continuous. The temperature of the generated artificial snow 3 should be as deep as possible and may in practice be between -100 ° C and -170 ° C depending on the structural conditions.

By opening the dosing flap 11 becomes artificial snow from the silo 1 in the weighing container 9 filled. Because the weighing container 9 as well as the entire interior of the insulating cell 7 is cold (the temperature is preferably between -20 ° C and -196 ° C) results in the inflow of artificial snow 3 in the weighing container 9 no major warming of the Artificial snow. During the inflow of artificial snow is the weight of the weighing container 9 located, supplied artificial snow by means of the balance 10 constantly measured. An unillustrated control system compares the weight measured by the balance with a setpoint value and, upon reaching the setpoint value, the dosing flap 11 closed. The accuracy of the dosage is below a tolerance of eg 0.05 kg (or 0.02%). It can be achieved in this way short Dosierintervalle and thus a high performance system.

After closing the dosing flap 11 becomes the drain plug 13 and the container flap 12 opened so that the metered artificial snow batch by means of the transport or conveyor system 14 on the shortest possible way (the lowest possible heating of artificial snow before the mixing process) the mixer (not shown) is supplied.

2 shows a further embodiment of the invention. The same or equivalent parts as in the 1 are here as well as in the following figures designated by the same reference numerals.

In the silo container 1 is essentially centrally a vertically aligned riser 16 arranged. The fan 7 located in the lower part of the riser 16 so that the gas flow 7 through the riser 16 through it flows upwards. Inside the riser 16 is the artificial snow generator 2 , The from the artificial snow generator 2 generated water mist is from the gas flow 7 entrained and occurs at the top of the riser 16 out. Due to the addition of liquid nitrogen (and / or an additional LIN cooling system for the riser 16 ) is the water mist during high flow in the riser 16 in cold environment, so that the crystallization process already in the riser during the flight phase 16 starts. When exiting the riser 16 falls the artificial snow / water mist 17 outside the riser 16 down again with complete crystallization.

By means of the blower 7 can have a precisely set upward flow in the riser 16 be produced in which not yet frozen water droplets rise slowly or remain in suspension (and too large drops of water may even fall and can be collected in a manner not shown), while crystallizing water droplets (snow) due to their lower density and larger surface upwards get off and out of the riser 16 be blown out. This causes, similar to the air classifier method, an extension of the cooling time of the water droplets until snow formation is achieved.

The length of the riser 16 may be several meters and preferably extends over much of the dimension between the floor and ceiling of the silo 1 , Only in the lower, bottom-side area and in the ceiling-side area remains a space for the intake of ambient gases or the blowing out of the water mist / artificial snow.

3 shows a third embodiment of the invention. It differs from the second embodiment substantially in that within the riser 16 a coaxial downpipe 18 is arranged. Above the coaxial downpipe 18 there is an atomisation or injection system 2.2 , which from the supply line 21 for H ₂ O is fed. In the lower area of the downpipe 18 there is a delivery system 2.1 for supplying liquid nitrogen, nitrogen, compressed air, admixtures and nucleators via the supply line 22 . 23 . 24 . 25 and 26 ,

The delivery system 2.1 supplied gases and substances are in the peripheral region between the downpipe 18 and the riser 16 initiated, which - optionally with the aid of the blower 6 - Sets in this area an upward gas flow. In addition, this gas flow both the walls of the downpipe 18 as well as the walls of the riser 16 cooled.

The one of the atomizing or injection arrangement 2.2 generated water mist 17 falls in the downpipe 18 down and is cooled. In the area of the delivery system 2.1 the water mist is deflected and by the rising flow between the riser 16 and the downpipe 18 carried away. This is followed by a further cooling, so that in the riser 16 already artificial snow 19 is present. After the exit of artificial snow 19 from the riser 16 this falls like in 2 outside the riser 16 down.

4 shows another embodiment of the present invention. In this embodiment, no silo 1 for storing an artificial snow supply available. Instead, the artificial snow 19 directly into a mixer 30 metered. The mixer 30 has different mixing chambers 31 . 32 . 33 on. Every mixer chamber 31 . 32 . 33 is aggregated with the right amount 34 , Binders 35 and artificial snow 19 filled. Furthermore, via a supply line 28 Optionally additional additional mixing water can be supplied to increase the system performance.

The production of artificial snow 19 takes place in the manner already described via a snowmaking device 2 , which in the upper Area of a cooling pipe 40 is arranged. The cooling tube 40 must be long enough to clear the water mist 17 completely transform into artificial snow. In comparison to the embodiments 1 to 3 is the height of the in 4 However, the arrangement shown much lower because of the stockpiling and for the Verwartung of artificial snow 19 Required height omitted.

As in the in the 1 to 3 shown embodiments of artificial snow 19 produced by the artificial snow generating device 2 substantially continuously. The batch assignment (dosage) is determined by a in the supply line 21 arranged measuring and control unit 41 controlled for the water dosage. This measuring and control unit 41 includes in a manner not shown a flow meter, which measures the amount of water flowing through, and a shut-off valve, which interrupts the supply of water after reaching the intended amount of water. Unlike the embodiments described above, there is no metering from a supply of artificial snow, but the addition of artificial snow takes place simultaneously with the artificial snow production.

On the cooling tube 40 are several outlets 42 intended for cold exhaust air. This cold air can be exhausted using a heat exchanger 43 be used for pre-cooling of the mixing water H ₂ O. Corresponding heat exchangers can also be provided in the first three embodiments.

It It is noted that to the individual embodiments where it is technically possible (for example, if identical Reference numerals are used), also applicable to the other embodiments are and for these apply.

Claims (23)

Apparatus for producing artificial snow for the manufacture of precooled concrete, comprising - a device ( 2 ) for the injection of water into a cold environment, and - a container ( 1 ) for collecting the generated artificial snow ( 3 ), whereby - the institution ( 2 ) for the injection of water in a in the ceiling region of the container ( 1 ) telescopic part ( 4 ) is housed. Device according to claim 1, characterized in that the telescopic part ( 4 ) in the ceiling area of the container ( 1 ) is slidably mounted, extendable tube. Device according to claim 1 or 2, characterized by a means ( 6 ) for generating an upward gas flow ( 7 ) in the container ( 1 ). Apparatus according to claim 3, characterized in that the means is a fan ( 6 ) and / or a delivery system ( 2.1 ) for supplying a cold gas, in particular nitrogen. Apparatus for producing artificial snow for the manufacture of precooled concrete, comprising - a device ( 2 . 2.2 ) for the injection of water into a cold environment, - a container ( 1 ) for collecting the generated artificial snow ( 2 ), and - one in the container ( 1 ) accommodated riser ( 16 ), wherein the injected water and / or artificial snow in the riser ( 16 ) goes up. Apparatus according to claim 5, characterized in that the riser ( 16 ) is arranged substantially vertically. Apparatus according to claim 5 or 6, characterized in that the riser ( 16 ) substantially in the center of the container ( 1 ) is arranged. Device according to one of claims 5 to 7, characterized in that the device ( 2 ) for the injection of water in the lower region of the riser ( 16 ) is arranged. Device according to one of claims 5 to 7, characterized in that - in the riser ( 16 ) a coaxially arranged downpipe ( 18 ), and - the establishment ( 2.2 ) is arranged for the injection of water so that the water from above into the downpipe ( 18 ) is injected and at the exit from the downpipe ( 18 ) in the riser ( 16 ). Device according to one of Claims 5 to 9, characterized by a means ( 6 . 2.1 ) for producing a in the riser ( 16 ) upward gas flow ( 7 ). Apparatus according to claim 10, characterized in that the means a fan ( 6 ). Apparatus according to claim 10, characterized in that the means comprises a delivery system ( 2.1 ) for feeding one in the riser ( 16 ) upwardly flowing cold gas, in particular nitrogen. Device according to one of the preceding claims, characterized by a delivery system ( 2 . 2.1 ), via which additives and / or nucleators and / or compressed air and / or nitrogen and / or liquid nitrogen can be injected NEN. Device according to claim 13, characterized in that the delivery system ( 2 . 2.1 ) has at least one mixing chamber for mixing one or more of the substances mentioned in claim 12 with the water before the injection. Device according to one of the preceding claims, characterized by - a metering system ( 9 . 10 ) for the dosage of artificial snow batches from the container ( 1 ), and - a support system ( 13 ) for conveying the artificial snow batches to a mixing system for the concrete preparation. Device according to claim 15, characterized in that the dosing system ( 9 . 10 ) a dosing scale ( 10 ). Apparatus for producing artificial snow for the manufacture of precooled concrete, comprising - a device ( 2 ) for the injection of water for the production of artificial snow ( 19 ) in a cooling tube ( 40 ), and - a mixing system ( 30 ) for the concrete treatment, in which from the cooling tube ( 40 ) exiting artificial snow ( 19 ) directly, ie without Vorratsbildung and dosage from a supply, is metered. Apparatus according to claim 17, characterized by a water quantity measuring and control unit ( 41 ) for the dosage of the device ( 2 ) for the injection of water. Device according to one of the preceding claims, characterized by a heat exchanger ( 43 ) for pre-cooling the water before the injection by means of cold exhaust gases. Process for the production of artificial snow for the production of precooled concrete, comprising the step of: - spraying water into a cold environment within a container ( 1 ), wherein the injected water and / or artificial snow in a riser ( 16 ) rises from the riser ( 16 ) and in the container ( 1 ) for collecting the generated artificial snow ( 3 ) is deposited. A method according to claim 20, further comprising the steps of: dosing of artificial snow batches from the container ( 1 ), and - supplying the artificial snow batches to a mixing system ( 30 ) for the concrete processing. Method for producing artificial snow for the production of precooled concrete, comprising the step of: - spraying water into a cold environment within a cooling tube ( 40 ), wherein from the cooling tube ( 40 ) exiting artificial snow directly, ie without Vorratsbildung and dosage from a supply, in a mixing system ( 30 ) is metered for the concrete preparation. A method according to claim 22, characterized by the step measuring and controlling the water quantities of the water to be injected.