WO1989012793A1 - Snow making equipment - Google Patents

Snow making equipment Download PDF

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Publication number
WO1989012793A1
WO1989012793A1 PCT/GB1989/000685 GB8900685W WO8912793A1 WO 1989012793 A1 WO1989012793 A1 WO 1989012793A1 GB 8900685 W GB8900685 W GB 8900685W WO 8912793 A1 WO8912793 A1 WO 8912793A1
Authority
WO
WIPO (PCT)
Prior art keywords
air
envelope
snow
coolant
thermal storage
Prior art date
Application number
PCT/GB1989/000685
Other languages
French (fr)
Inventor
Malcolm George Clulow
Original Assignee
Clulow Malcom George
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Family has litigation
First worldwide family litigation filed litigation Critical https://patents.darts-ip.com/?family=26294061&utm_source=google_patent&utm_medium=platform_link&utm_campaign=public_patent_search&patent=WO1989012793(A1) "Global patent litigation dataset” by Darts-ip is licensed under a Creative Commons Attribution 4.0 International License.
Priority claimed from GB888814769A external-priority patent/GB8814769D0/en
Priority claimed from GB898903304A external-priority patent/GB8903304D0/en
Application filed by Clulow Malcom George filed Critical Clulow Malcom George
Priority to DE68928657T priority Critical patent/DE68928657T3/en
Priority to BR898907016A priority patent/BR8907016A/en
Priority to KR1019900700364A priority patent/KR0118761B1/en
Priority to EP89907236A priority patent/EP0378636B2/en
Publication of WO1989012793A1 publication Critical patent/WO1989012793A1/en
Priority to NO900834A priority patent/NO176775C/en
Priority to FI900876A priority patent/FI900876A0/en
Priority to DK047190A priority patent/DK47190D0/en

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Classifications

    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63CSKATES; SKIS; ROLLER SKATES; DESIGN OR LAYOUT OF COURTS, RINKS OR THE LIKE
    • A63C19/00Design or layout of playing courts, rinks, bowling greens or areas for water-skiing; Covers therefor
    • A63C19/10Ice-skating or roller-skating rinks; Slopes or trails for skiing, ski-jumping or tobogganing
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25CPRODUCING, WORKING OR HANDLING ICE
    • F25C3/00Processes or apparatus specially adapted for producing ice or snow for winter sports or similar recreational purposes, e.g. for sporting installations; Producing artificial snow
    • F25C3/04Processes or apparatus specially adapted for producing ice or snow for winter sports or similar recreational purposes, e.g. for sporting installations; Producing artificial snow for sledging or ski trails; Producing artificial snow
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F25REFRIGERATION OR COOLING; COMBINED HEATING AND REFRIGERATION SYSTEMS; HEAT PUMP SYSTEMS; MANUFACTURE OR STORAGE OF ICE; LIQUEFACTION SOLIDIFICATION OF GASES
    • F25CPRODUCING, WORKING OR HANDLING ICE
    • F25C2303/00Special arrangements or features for producing ice or snow for winter sports or similar recreational purposes, e.g. for sporting installations; Special arrangements or features for producing artificial snow
    • F25C2303/048Snow making by using means for spraying water
    • F25C2303/0481Snow making by using means for spraying water with the use of compressed air

Definitions

  • This invention relates to indoor snow making equipment.
  • An object of the invention is to provide snow making equipment which overcomes the problems encountered with snow making in confined or enclosed spaces.
  • a method of making snow within a confined envelope of air in which air within the envelope is cooled and maintained at a temperature below the freezing point of water and is maintained at a humidity of less than 100% at the selected temperature, and water droplets are discharged into the envelope in a flow of air to .produce snow in said envelope over significant periods of time.
  • snow making equipment which comprises spray generating means for directing a flow of water and air into a cold atmosphere at a temperature below the freezing point of water, air drying means, air cooling means, and means for confining a body of said atmosphere within an envelope, the air drying means and the air cooling means drying and cooling the air in the envelope at least during the operation of the spray generating means to maintain the air within the envelope at below said freezing point and at a moisture content low enough to enable the water from the generating means to be turned into snow in said atmosphere for significant periods of time, whereby the water from the generating means turns into snow in said cold atmosphere.
  • the atmosphere is maintained at a temperature of -2°C or less during snow making and the air at that temperature is maintained at a humidity of below 100%.
  • thermal storage means is provided so that the rate of cooling of the air in the envelope can be significantly greater than the nominal capacity of the refrigeration means by utilising the storage capacity of the thermal storage means.
  • Air cooling means may also be provided for maintaining the envelope at below freezing point during intervals between snow production.
  • the thermal storage means may take any convenient form.
  • the refrigeration means utilises a secondary coolant, for example methylene chloride, which is cooled in a heat exchanger refrigeration cycle and the coolant is used to cool a mass of material of relatively high specific heat and conductivity.
  • a relatively large mass of coolant is employed which acts as the thermal storage means.
  • the thermal storage means When the thermal storage means utilises a mass of material the material is cooled by the coolant and the material may form a base on which a layer of snow is received. Accordingly the base may be inclined to the horizontal to provide a surface for receiving the snow for skiing etc.
  • the mass of material may include alumina in particles bound by ice or contained within other solid material such as cement to provide a solid base.
  • the mass of material thereby forms a cold base for the snow to help to prevent it from melting.
  • the base is provided by insulating material to help in preventing the snow from melting.
  • the base is provided by insulating material to help in preventing the snow from melting.
  • the thermal storage means is arranged of a size to match the cooling capacity of the refrigeration means with the cooling requirements of snow making, the cooling requirements being high during this operation.
  • the cooling capacity of the refrigeration means may be of the order of 1/8 - 1/20 of the maximum cooling requirement.
  • the coolant from the refrigeration means is passed in heat exchange relationship with the mass of material of the thermal storage means .
  • the snow generation means may take the form of an air discharge and a water discharge nozzle, the water being discharged in fine droplets into the flow of air, or air and water may be discharged together through the same nozzle.
  • the air is kept at a temperature of below -2°C or less by discharging cooled and dried air into the envelope during discharge of the water.
  • the air is recirculated from the envelope and over cooling means before discharge back into the envelope.
  • the cooling means may be contained within the envelope with fans provided to pass air over the cooling and drying means.
  • the _ cooling means preferably includes thermal storage means maintained at a cold temperature in the range -5°C to -30°C, conveniently about -20°C, but the temperature of the thermal storage means rises during the snow making operation since the refrigeration means by which the thermal storage means is cooled has a lower refrigeration capacity than the needs of the system during cooling of the air when snow making is taking place.
  • Fig. 1 is a schematic plan view of snow making equipment for indoor snow making
  • Fig. 2 is a sectional side elevation of the equipment of Fig. 1,
  • Fig.3 shows schematically a modified version of the arrangement of Figs. 1 and 2.
  • snow making equipment is shown which is installed in a building defining an air envelope in which snow is to be formed.
  • the building may be of any convenient size and shape and in the illustrated arrangement the building is shown at 10 and is insulated and of generally rectangular shape in plan and cross section.
  • a surface to be covered in snow is shown at 12 and the surface slopes downwards from its upoer end 12A to its lower end 12E terminating at the ends in an upper platform 13 and a lower run off area 14 respectively.
  • At one end of the run off area 14 is a gully and drain area 16 for melted snow.
  • the surface 12 is formed over its sloping part by a structure 15 suitably supported and, as will be described, incorporating a thermal store.
  • the volume V of the building over the surface 12 constitutes the air envelope.
  • a snow making machine 17 is located on the area 14 and is arranged to form snow and direct it as it is formed onto the surface 12 and for this purpose the machine 17 is mobile.
  • the machine 17 may be mounted on the building above the surface 12 to be mobile or fixed and to direct the snow downwards to the surface 12. More than such machne may be provided.
  • the surface 12 may be located on the ground surface when the ground contours are suitably sloped.
  • the snow making machine 17 is supplied with water and with cooled air which may be dried.
  • the machine directs cold water supplied by a pump 39 from nozzles (not shown) and air from a fan or air compressor 24 (Fig.3) in known manner to produce a pattern of water and air which creates a plume of air and entrained small water droplets which form as snow for deposition on the surface 12.
  • the air within the building should be kept below 0°C and preferably at between -2°C and -10°C during snow making. This is achieved by providing fans 20 which pass air from within the envelope in heat exchange relationship with coolant supplied to each fan 20 along coolant ducts 21. Normally after snow discharge has ceased the air in the building can be allowed to rise to a temperature no higher than say -1 C C.
  • Air for the snow making machine 17 is supplied from a compressor 24 which may include an air drying device 23.
  • Refrigeration may be achieved by means of a refrigerator consisting of an evaporator unit 26 comprising a heat exchanger cooling the second coolant and located in the building, and a compressor 28 and a condenser unit 27 located externally.
  • the evaporator unit 26 receives coolant for cooling through an inlet conduit 29 and the coolant leaves through an outlet 30.
  • the cold coolant at, for example, -30°C is pumped by pump 31 to a thermal storage system 32 in the structure 15.
  • the system 32 includes an array of pipes having longitudinal or header portions 33 interconnected by transverse portions 34.
  • a return header pipe 33B connects with a pipe 35 which carries the coolant to the fans 20 through the coolant ducts 21 and with a pipe 37 which connects through a control valve 43 (Fig.3) to the conduit 29.
  • the fans 20 pass air from the space V over coils which can be cooled either by coolant from evaporator 26, by direct expansion of refrigerant from condenser 27, or by a separate cold air supply,, and air from these coils may be slightly reheated in order to provide a suitable level of dryness so as to maintain the humidity of the body of air in the envelope at less than 100%.
  • the pipes 33 and 34 are embedded in a suitable material 36 with relatively high thermal conductivity and specific heat, for example particulate activated alumina (aluminium oxide) or even ice, which lies on an insulated surface of, for example, polystyrene slab.
  • a suitable material 36 with relatively high thermal conductivity and specific heat for example particulate activated alumina (aluminium oxide) or even ice, which lies on an insulated surface of, for example, polystyrene slab.
  • the alumina layer may be embedded in ice or bonded together with cement or concrete such that its thermal conductivity is maintained .
  • the coolant in the thermal storage system 22 may be methylene chloride or any other fluid which possesses a low freezing point and low viscosity and within the system there is sufficient volume of coolant and alumina to provide an adequate store for cooling purposes during snow generation.
  • the refrigeration means 26, 27 need only provide, say, 1/8 to 1/20 of the total cooling requirement during these operations, the remainder being provided by the thermal storage system. It is envisaged with this arrangement snow making can be provided continuously for extended periods of say 2 hrs or more to provide a layer of snow over a portion of the surface 12. Thereafter after recooling the thermal storage means a further layer of snow over another portion of the surface 12 can be supplied so that a layer over the whole surface is built up progressively and can be maintained over lengthy periods, it only being necessary to work the layer of snow from time to time to provide a clean surface layer of snow.
  • Water for the snow generator 17 is supplied from the mains supply through a tank 38 to a pump 39 and then to the machine 17 and the rate of supply of water to the machine 17 can be controlled according to the desired rate of generation of snow.
  • Water in the tank is cooled preferably by a supplementary refrigeration compressor 41 and condenser 42 arrangement (Fig. 3) .
  • the cooling requirement of the envelope is reduced since it is only required to maintain a low temperature in the body of air consistent with preventing the snow from melting.
  • the latent heat produced during snow formation is greater, hence the provision of the thermal storage which enables a relatively low capacity refrigeration unit to lengthy periods.
  • the cooling effect during non-snow making periods may be provided from a separate refrigeration source which may cool air directed from a separate fan to the air provided during snow making, such as through the refrigeration compressor and condenser arrangement 41, 42 of Fig. 3 which in that arrangement also cools the snow gun water in tank 38.
  • the supplementary refrigeration arrangement 41, 42 is also arranged so that it may provide the necessary cooling requirement of the fans 20 for example during a non-snowmaking period.
  • the arrangement is coupled to the air supply heat exchange arrangement of the fans 20, as shown in Fig. 3. _
  • snow making machine 17 may be carried on a gantry (not shown) mounted above the slope and arranged to follow the line of the slope at a predetermined distance above the slope 12.
  • the machine 17 may be arranged to be withdrawn from the envelope to enable maintenance and ice removal to take place.
  • the structure 15 is preferably insulated on its underside and any space below the structure utilised for support services or for housing other associated facilities.
  • the space or other areas may be heated by the heat generated by the refrigeration means condenser unit and to this end all or a portion of the heat generated may be stored for use as necessary.
  • the air temperature and humidity during snow making are between -3°C at 85% relative humidity and -6°C also at 85% relative humidity and is dependent on the kind of snow required.
  • the pipes 34 in the structure 15 may be at 1.0m centres and the surface 12 may be convoluted or corrugated, as shown in Fig. 3, to hold the snow in place on steep gradients and to ensure an even temperature distribution over the surface.

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  • Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Mechanical Engineering (AREA)
  • Thermal Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Central Air Conditioning (AREA)
  • Materials Applied To Surfaces To Minimize Adherence Of Mist Or Water (AREA)

Abstract

Apparatus and a method are provided whereby snow is made in an indoor environment (V) over extended periods. Within the indoor environment (V) temperature and humidity conditions are set up to enable snow to be produced by a spray of water and air. Such conditions are maintained for an extended time by the use of thermal storage means (32). The thermal storage means (36) is cooled to a low temperature by coolant in turn cooled by refrigeration apparatus (26). The thermal storage means (36) uses a mass of relatively high conductivity material through which the coolant is circulated and the coolant is used to cool and dry air to be discharged into the indoor environment (V).

Description

SNOW MAKING EQUIPMENT
This invention relates to indoor snow making equipment.
For skiing and other winter sports activities it has been proposed to make real snow by artificial means in order to provide the surface for engaging in such activities when naturally produced snow cover is inadequate or absent. However it has been found that when equipment which has successfully produced snow cover outdoors is tried in an enclosed space, i.e., indoors, snow production has been unsatisfactory. In some cases although snow has been formed indoors it has only been for a brief duration and is insufficient for forming a layer for skiing etc.
It has been proposed in U.S. Patent 3,250,530 to provide tunnels in which artifical snow may be laid down to give an all year round skiing facility. For this purpose air conditioning and temperature controlling facilities are proposed. However the teaching of this patent is insufficient to enable prolonged snow generation to be achieved.
An obiect of the invention is to provide snow making equipment which overcomes the problems encountered with snow making in confined or enclosed spaces.
According to one aspect of the invention there is provided a method of making snow within a confined envelope of air in which air within the envelope is cooled and maintained at a temperature below the freezing point of water and is maintained at a humidity of less than 100% at the selected temperature, and water droplets are discharged into the envelope in a flow of air to .produce snow in said envelope over significant periods of time.
According to another aspect of the invention there is provided snow making equipment which comprises spray generating means for directing a flow of water and air into a cold atmosphere at a temperature below the freezing point of water, air drying means, air cooling means, and means for confining a body of said atmosphere within an envelope, the air drying means and the air cooling means drying and cooling the air in the envelope at least during the operation of the spray generating means to maintain the air within the envelope at below said freezing point and at a moisture content low enough to enable the water from the generating means to be turned into snow in said atmosphere for significant periods of time, whereby the water from the generating means turns into snow in said cold atmosphere.
Preferably the atmosphere is maintained at a temperature of -2°C or less during snow making and the air at that temperature is maintained at a humidity of below 100%.
During the snow making operation a considerable quantity of latent heat is released and high refrigeration requirements are needed to provide enough cooling effect on the air in the envelope to maintain a temperature of -2°C or below and to maintain humidity below 100%. Cold, dry air from the air cooling and drying means is introduced into the envelope for this purpose and to maintain _the necessary dryne≤s. Such air may be recirculated from the envelope through the air cooling and drying means or the air cooling and drying means may be appropriately located within the envelope.
In order to reduce the capacity of refrigeration means supplying the air cooling means during snow production, which would otherwise be necessary, thermal storage means is provided so that the rate of cooling of the air in the envelope can be significantly greater than the nominal capacity of the refrigeration means by utilising the storage capacity of the thermal storage means.
Air cooling means may also be provided for maintaining the envelope at below freezing point during intervals between snow production.
The thermal storage means may take any convenient form. Preferably the refrigeration means utilises a secondary coolant, for example methylene chloride, which is cooled in a heat exchanger refrigeration cycle and the coolant is used to cool a mass of material of relatively high specific heat and conductivity. Alternatively a relatively large mass of coolant is employed which acts as the thermal storage means.
When the thermal storage means utilises a mass of material the material is cooled by the coolant and the material may form a base on which a layer of snow is received. Accordingly the base may be inclined to the horizontal to provide a surface for receiving the snow for skiing etc. The mass of material may include alumina in particles bound by ice or contained within other solid material such as cement to provide a solid base.
The mass of material thereby forms a cold base for the snow to help to prevent it from melting.
Alternatively or in addition the base is provided by insulating material to help in preventing the snow from melting. In addition to cooling and drying the air within the envelope it may be desirable to cool and optionally dry the air directed from the spray generating means to help maintain the desired air conditions in the envelope.
The thermal storage means is arranged of a size to match the cooling capacity of the refrigeration means with the cooling requirements of snow making, the cooling requirements being high during this operation. In practice it has been found that the cooling capacity of the refrigeration means may be of the order of 1/8 - 1/20 of the maximum cooling requirement.
Preferably the coolant from the refrigeration means is passed in heat exchange relationship with the mass of material of the thermal storage means .
The snow generation means may take the form of an air discharge and a water discharge nozzle, the water being discharged in fine droplets into the flow of air, or air and water may be discharged together through the same nozzle.
Preferably the air is kept at a temperature of below -2°C or less by discharging cooled and dried air into the envelope during discharge of the water. Conveniently the air is recirculated from the envelope and over cooling means before discharge back into the envelope. Alternatively the cooling means may be contained within the envelope with fans provided to pass air over the cooling and drying means.
The _ cooling means preferably includes thermal storage means maintained at a cold temperature in the range -5°C to -30°C, conveniently about -20°C, but the temperature of the thermal storage means rises during the snow making operation since the refrigeration means by which the thermal storage means is cooled has a lower refrigeration capacity than the needs of the system during cooling of the air when snow making is taking place.
Further features of the invention will appear from the following description of an embodiment of the invention given by way of example and with reference to the drawings in which:
Fig. 1 is a schematic plan view of snow making equipment for indoor snow making,
Fig. 2 is a sectional side elevation of the equipment of Fig. 1,
Fig.3 shows schematically a modified version of the arrangement of Figs. 1 and 2.
Referring to the drawings snow making equipment is shown which is installed in a building defining an air envelope in which snow is to be formed. The building may be of any convenient size and shape and in the illustrated arrangement the building is shown at 10 and is insulated and of generally rectangular shape in plan and cross section. A surface to be covered in snow is shown at 12 and the surface slopes downwards from its upoer end 12A to its lower end 12E terminating at the ends in an upper platform 13 and a lower run off area 14 respectively. At one end of the run off area 14 is a gully and drain area 16 for melted snow.
The surface 12 is formed over its sloping part by a structure 15 suitably supported and, as will be described, incorporating a thermal store. The volume V of the building over the surface 12 constitutes the air envelope. As shown a snow making machine 17 is located on the area 14 and is arranged to form snow and direct it as it is formed onto the surface 12 and for this purpose the machine 17 is mobile. Alternatively the machine 17 may be mounted on the building above the surface 12 to be mobile or fixed and to direct the snow downwards to the surface 12. More than such machne may be provided.
As an alternative the surface 12 may be located on the ground surface when the ground contours are suitably sloped.
The snow making machine 17 is supplied with water and with cooled air which may be dried. The machine directs cold water supplied by a pump 39 from nozzles (not shown) and air from a fan or air compressor 24 (Fig.3) in known manner to produce a pattern of water and air which creates a plume of air and entrained small water droplets which form as snow for deposition on the surface 12.
In order to create the conditions which enable the water and air to become snow during discharge certain characteristics should prevail and be maintained in the building.
Thus the air within the building should be kept below 0°C and preferably at between -2°C and -10°C during snow making. This is achieved by providing fans 20 which pass air from within the envelope in heat exchange relationship with coolant supplied to each fan 20 along coolant ducts 21. Normally after snow discharge has ceased the air in the building can be allowed to rise to a temperature no higher than say -1CC.
Air for the snow making machine 17 is supplied from a compressor 24 which may include an air drying device 23. Refrigeration may be achieved by means of a refrigerator consisting of an evaporator unit 26 comprising a heat exchanger cooling the second coolant and located in the building, and a compressor 28 and a condenser unit 27 located externally. The evaporator unit 26 receives coolant for cooling through an inlet conduit 29 and the coolant leaves through an outlet 30. The cold coolant at, for example, -30°C is pumped by pump 31 to a thermal storage system 32 in the structure 15. The system 32 includes an array of pipes having longitudinal or header portions 33 interconnected by transverse portions 34. A return header pipe 33B connects with a pipe 35 which carries the coolant to the fans 20 through the coolant ducts 21 and with a pipe 37 which connects through a control valve 43 (Fig.3) to the conduit 29.
The fans 20 pass air from the space V over coils which can be cooled either by coolant from evaporator 26, by direct expansion of refrigerant from condenser 27, or by a separate cold air supply,, and air from these coils may be slightly reheated in order to provide a suitable level of dryness so as to maintain the humidity of the body of air in the envelope at less than 100%.
In the thermal storage system the pipes 33 and 34 are embedded in a suitable material 36 with relatively high thermal conductivity and specific heat, for example particulate activated alumina (aluminium oxide) or even ice, which lies on an insulated surface of, for example, polystyrene slab. In operation the snow is laid on the activated alumina layer or other material which is kept cold by the coolant. The alumina layer may be embedded in ice or bonded together with cement or concrete such that its thermal conductivity is maintained . The coolant in the thermal storage system 22 may be methylene chloride or any other fluid which possesses a low freezing point and low viscosity and within the system there is sufficient volume of coolant and alumina to provide an adequate store for cooling purposes during snow generation. Thus the refrigeration means 26, 27 need only provide, say, 1/8 to 1/20 of the total cooling requirement during these operations, the remainder being provided by the thermal storage system. It is envisaged with this arrangement snow making can be provided continuously for extended periods of say 2 hrs or more to provide a layer of snow over a portion of the surface 12. Thereafter after recooling the thermal storage means a further layer of snow over another portion of the surface 12 can be supplied so that a layer over the whole surface is built up progressively and can be maintained over lengthy periods, it only being necessary to work the layer of snow from time to time to provide a clean surface layer of snow.
Water for the snow generator 17 is supplied from the mains supply through a tank 38 to a pump 39 and then to the machine 17 and the rate of supply of water to the machine 17 can be controlled according to the desired rate of generation of snow. Water in the tank is cooled preferably by a supplementary refrigeration compressor 41 and condenser 42 arrangement (Fig. 3) .
After a snow making operation is completed the cooling requirement of the envelope is reduced since it is only required to maintain a low temperature in the body of air consistent with preventing the snow from melting. During snow making the latent heat produced during snow formation is greater, hence the provision of the thermal storage which enables a relatively low capacity refrigeration unit to lengthy periods.
The cooling effect during non-snow making periods may be provided from a separate refrigeration source which may cool air directed from a separate fan to the air provided during snow making, such as through the refrigeration compressor and condenser arrangement 41, 42 of Fig. 3 which in that arrangement also cools the snow gun water in tank 38. The supplementary refrigeration arrangement 41, 42 is also arranged so that it may provide the necessary cooling requirement of the fans 20 for example during a non-snowmaking period. For this purpose the arrangement is coupled to the air supply heat exchange arrangement of the fans 20, as shown in Fig. 3. _
Instead of the snow making machine 17 being ground mounted it may be carried on a gantry (not shown) mounted above the slope and arranged to follow the line of the slope at a predetermined distance above the slope 12. The machine 17 may be arranged to be withdrawn from the envelope to enable maintenance and ice removal to take place.
The structure 15 is preferably insulated on its underside and any space below the structure utilised for support services or for housing other associated facilities. The space or other areas may be heated by the heat generated by the refrigeration means condenser unit and to this end all or a portion of the heat generated may be stored for use as necessary.
Pressure, fluid flow, temperature and humidity sensors in the building, valves and other control means are provided to monitor and control each of the functions to ensure satisfactory operation and maintenance of the equipment. ln a particular embodiment of the invention it has been found that the following cycle of operation can be followed assuming that adequate snow cover has previously been provided:-
Snowmaking period 3 hours
Use e.g. skiingg 17 hours
Snow grooming/maintenance 3 hours
Conditioning the air in the envelope prior to snowmaking 1 hour
In this example it will be seen that 20 hours is provided for recharging the thermal store. .
Figure imgf000012_0001
can be reduced by up to twentyfold to 60Kw reducing the ' capital cost of the refrigeration capacity and, at least to some extent, making the use of off-peak electricity supply possible.
In the illustrative embodiment the air temperature and humidity during snow making are between -3°C at 85% relative humidity and -6°C also at 85% relative humidity and is dependent on the kind of snow required.
The pipes 34 in the structure 15 may be at 1.0m centres and the surface 12 may be convoluted or corrugated, as shown in Fig. 3, to hold the snow in place on steep gradients and to ensure an even temperature distribution over the surface.

Claims

C laims
1. A method of making snow within a confined envelope of air in which air within the envelope is cooled and maintained at a temperature below the freezing point of water and is maintained at a humidity of less than 100% at the selected temperature, and water droplets are discharged into the envelope in a flow of air to produce snow in said envelope over significant periods of time.
2. A method according to Claim 1 wherein the air in the envelope is kept at a temperature at or below -2°C during snow making by discharging cooled and dry air into the envelope during discharge of the water.
3. A method according to Claim 2 wherein the air in the envelope is circulated over cooling means and discharged into the envelope during snow making. ,
4. A method according to Claim 3 wherein the cooling means includes thermal storage means containing a mass of cold material cooled by the passage of coolant from refrigeration means during a ncn-snow making period and the coolant providing the cooling capacity required during a snow making period, whereby cyclical snow making and non-snow making periods are provided.
5. A method according to Claim 4 wherein the thermal storage means is maintained at a temperature between -5°C and -30°C.
6. -A method according to Claim 4 or 5 wherein the thermal storage capacity of the thermal storage means relative to the refrigeration capacity of the refrigeration means is in the range 8 to 20 times the refrigeration capacity.
7. Snow making equipment which comprises spray generating means for directing a flow of water and air into a cold atmosphere at a temperature below the freezing point of water, air drying means, air cooling means, and means for confining a body of said atmosphere within an envelope, the air drying means and the air cooling means drying and cooling the air in the envelope at least during the operation of the spray generating means to maintain the air within the envelope at below said freezing point and at a moisture content low- enough to enable the water from the generating means to be turned into snow in said atmosphere for significant periods of time, whereby the.water from the generating means turns into snow in said cold atmosphere.
8. Equipment according to Claim 7 wherein the air cooling means and the air drying means are arranged to maintain the atmosphere in the envelope at -2°C or less and at a humidity of less than 100% during a snow making operation of the , generating means.
9. Equipment according to Claim 7 or 8 comprising thermal storage means whereby cold air is discharged into the envelope at a rate required to maintain the air in the envelope at the selected temperature for said significant period, the thermal storage means comprising a mass of cold material.
10. Equipment according to Claim 9 comprising refrigeration means for cooling the mass of cold material by circulating coolant from the refrigeration means to said mass.
11. Equipment according to Claim 10 wherein the mass of cold material comprises relatively high thermal conductivity material through which the coolant is passed in heat exchange relationship, the coolant acting to use the thermal storage means as a heat sink during snow making.
12. Equipment according to Claim 11 wherein the material is particulate aluminium oxide embedded in ice, cement or other binding material.
13. Equipment according to any one of Claims 10-12 wherein the cooling capacity of the refrigeration means is 1/8 - 1/20 of the cooling capacity of the thermal storage means.
14. Equipment according to Claim 11 or 12 wherein the thermal storage means comprises a plurality of conduits for the coolant in heat exchange relationship with the mass of cold material.
15. Equipment according to any one of Claims 10-14 wherein the coolant communicates with air/coolant heat exchange means whereby the air for discharge into the envelope is cooled bv the coolant.
16. Equipment according to any one of Claims 9-15 wherein the thermal storage means is incorporated into a base defining a surface of the envelope on which the snow is to be received.
17. Equipment according to any one of Claims 9-16 wherein the air cooling means includes one or more fans circulating air from the envelope through a heat exchanger to cool the air before discharge into the envelope.
18.. Equipment according to any one of Claims 7-17 wherein water supplied to the spray generating means is cooled by coolinσ means.
19. Equipment according to any one of Claims 7-18 wherein the spray generating means is mobile and the surface on which the snow is to be deposited is inclined to the horizontal.
20. Snow making equipment substantially as described with reference to the drawings.
21. Air conditioning equipment substantially as described with reference to the drawings.
PCT/GB1989/000685 1988-06-22 1989-06-19 Snow making equipment WO1989012793A1 (en)

Priority Applications (7)

Application Number Priority Date Filing Date Title
DE68928657T DE68928657T3 (en) 1988-06-22 1989-06-19 SNOW PRODUCTION DEVICE AND METHOD
BR898907016A BR8907016A (en) 1988-06-22 1989-06-19 PROCESS TO PRODUCE SNOW WITHIN A CONFINED AIR WRAP, EQUIPMENT FOR THE SAME AND AIR-CONDITIONING EQUIPMENT
KR1019900700364A KR0118761B1 (en) 1988-06-22 1989-06-19 Snow making method and apparatus
EP89907236A EP0378636B2 (en) 1988-06-22 1989-06-19 Snow making equipment and method
NO900834A NO176775C (en) 1988-06-22 1990-02-21 Method and plant for making snow for deposition on a surface in an enclosed space
FI900876A FI900876A0 (en) 1988-06-22 1990-02-21 SNOETILLVERKNINGSANORDNING.
DK047190A DK47190D0 (en) 1988-06-22 1990-02-22 SNOW MANUFACTURING EQUIPMENT

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
GB8814769.9 1988-06-22
GB888814769A GB8814769D0 (en) 1988-06-22 1988-06-22 Snow making equipment
GB8903304.7 1989-02-14
GB898903304A GB8903304D0 (en) 1989-02-14 1989-02-14 Snow making equipment

Publications (1)

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WO1989012793A1 true WO1989012793A1 (en) 1989-12-28

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US (1) US5230218A (en)
EP (1) EP0378636B2 (en)
JP (1) JP2531995B2 (en)
KR (1) KR0118761B1 (en)
AR (1) AR246602A1 (en)
AT (1) ATE165651T1 (en)
AU (1) AU625226B2 (en)
BR (1) BR8907016A (en)
CA (1) CA1332517C (en)
DE (1) DE68928657T3 (en)
DK (1) DK47190D0 (en)
ES (1) ES2017129A6 (en)
FI (1) FI900876A0 (en)
GB (1) GB2221024B (en)
GR (1) GR1000568B (en)
HK (1) HK109993A (en)
IE (1) IE63680B1 (en)
IL (1) IL90662A (en)
MX (1) MX170945B (en)
MY (1) MY110262A (en)
NO (1) NO176775C (en)
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EP0508752A1 (en) * 1991-04-11 1992-10-14 Taikisha, Ltd. Method of forming an artificial snow layer
EP0636844A1 (en) * 1991-11-12 1995-02-01 Taikisha, Ltd. Method for maintaining a snow surface
EP0798520A3 (en) * 1989-03-01 1998-10-14 Technologies International Pty Limited Polar Snow making method and device
GB2325298B (en) * 1997-05-16 2000-01-19 Mitsubishi Heavy Ind Ltd Indoor type skiing ground, and method and controller for indoor type skiing ground
EP1600711A2 (en) * 2004-05-29 2005-11-30 Innovag AG Aktiengesellschaft für innovative Industrietechnik Indoor snow plant
KR101869550B1 (en) * 2016-11-14 2018-06-25 주식회사 스노우테크 Snowing booth
WO2019243208A1 (en) * 2018-06-21 2019-12-26 Nivis Gmbh - Srl Snow-making system, fan duct and snow-making method

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US11092373B2 (en) 2010-10-04 2021-08-17 Industries Snöflake Inc. Conveying assembly for snowmaking apparatus
JP2014506668A (en) * 2011-02-26 2014-03-17 アーマッド,ナイーム The method of holding snow and ice
KR101488478B1 (en) * 2013-01-25 2015-01-30 주식회사 델타이앤씨 Snowmaking system with residual water discharging device
PL3280961T3 (en) 2015-04-06 2023-01-09 Snow Logic, Inc. Snowmaking automation system and modules
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US3111011A (en) * 1960-07-01 1963-11-19 Bar Rup Corp Apparatus for preserving liquids by freezing
FR1372024A (en) * 1963-08-02 1964-09-11 Bertin & Cie Improvements in snow production, in particular with a view to manufacturing artificial ski slopes
US3250530A (en) * 1964-02-10 1966-05-10 Lawrence M Dean Year-around ski run
US3257815A (en) * 1964-07-10 1966-06-28 Conch Int Methane Ltd Method and apparatus for the largescale production of snow fields for sports use
CA1057069A (en) * 1976-12-02 1979-06-26 Francis C. Atkinson Method and apparatus for making and holding ice in an artificial ice rink
EP0004803A2 (en) * 1978-03-31 1979-10-17 Pasquier, Armand René Method and apparatus for the automatic production of snow
WO1986002936A1 (en) * 1984-11-06 1986-05-22 Permasnow Limited Method for making artificial snow
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EP0798520A3 (en) * 1989-03-01 1998-10-14 Technologies International Pty Limited Polar Snow making method and device
US5241830A (en) * 1991-04-11 1993-09-07 Taikisha Ltd. Method of forming and maintaining artificial snow layer
US5327738A (en) * 1991-04-11 1994-07-12 Taikisha Ltd. Method of forming and maintaining artificial snow layer
EP0508752A1 (en) * 1991-04-11 1992-10-14 Taikisha, Ltd. Method of forming an artificial snow layer
EP0658732A2 (en) * 1991-04-11 1995-06-21 Taikisha, Ltd. Method of maintaining an artificial snow layer
EP0658732A3 (en) * 1991-04-11 1995-11-08 Taikisha Kk Method of maintaining an artificial snow layer.
EP0636844A1 (en) * 1991-11-12 1995-02-01 Taikisha, Ltd. Method for maintaining a snow surface
GB2325298B (en) * 1997-05-16 2000-01-19 Mitsubishi Heavy Ind Ltd Indoor type skiing ground, and method and controller for indoor type skiing ground
US6079161A (en) * 1997-05-16 2000-06-27 Mitsubishi Heavy Industries, Ltd. Indoor type skiing ground, and method and controller for indoor type skiing ground
EP1600711A2 (en) * 2004-05-29 2005-11-30 Innovag AG Aktiengesellschaft für innovative Industrietechnik Indoor snow plant
EP1600711A3 (en) * 2004-05-29 2009-08-05 Innovag AG Aktiengesellschaft für innovative Industrietechnik Indoor snow plant
KR101869550B1 (en) * 2016-11-14 2018-06-25 주식회사 스노우테크 Snowing booth
WO2019243208A1 (en) * 2018-06-21 2019-12-26 Nivis Gmbh - Srl Snow-making system, fan duct and snow-making method
EP3587966A1 (en) * 2018-06-21 2020-01-01 NIVIS GmbH - Srl Artificial snow production system and snow production method

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GR1000568B (en) 1992-08-26
PT90952A (en) 1989-12-29
IE63680B1 (en) 1995-05-31
DK47190A (en) 1990-02-22
IL90662A0 (en) 1990-01-18
GB8914174D0 (en) 1989-08-09
DE68928657D1 (en) 1998-06-04
NO900834D0 (en) 1990-02-21
EP0378636B1 (en) 1998-04-29
DK47190D0 (en) 1990-02-22
AU625226B2 (en) 1992-07-02
NO176775B (en) 1995-02-13
EP0378636B2 (en) 2002-09-04
JPH03501404A (en) 1991-03-28
KR0118761B1 (en) 1997-09-30
EP0378636A1 (en) 1990-07-25
NO900834L (en) 1990-02-21
US5230218A (en) 1993-07-27
IL90662A (en) 1994-07-31
AR246602A1 (en) 1994-08-31
MX170945B (en) 1993-09-22
GB2221024B (en) 1992-08-12
CA1332517C (en) 1994-10-18
DE68928657T2 (en) 1999-01-07
ES2017129A6 (en) 1991-01-01
GB2221024A (en) 1990-01-24
JP2531995B2 (en) 1996-09-04
NO176775C (en) 1995-05-24
IE892014L (en) 1989-12-22
FI900876A0 (en) 1990-02-21
HK109993A (en) 1993-10-29
ATE165651T1 (en) 1998-05-15
MY110262A (en) 1998-03-31
BR8907016A (en) 1990-12-26
DE68928657T3 (en) 2003-02-27
GR890100412A (en) 1990-05-11
KR900702308A (en) 1990-12-06
AU3837789A (en) 1990-01-12
PT90952B (en) 1995-03-01

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