Abstract: A facility that is especially suited for the freezing of juices and similar products, which includes a cooling tank that supplies the product by means of an impelling pump to a freezing chamber that receives a supply of a liquefied gas at a temperature of around ?140° C., preferably nitrogen, and pressurized air through an electro-valve to transform the juice into micro-drops or pellets and to freeze the droplets or the pellets inside the freezing chamber, which then exit the chamber through one or more dispensing valves, said freezing not affecting the original characteristics of the juice, in terms of its vitamin, protein and enzyme content.

Abstract: The invention relates to a method for cooling materials, in particular food, in a cooling apparatus, the cooling being completely or partially carried out by contacting the materials with a cryogenic liquid. Said method is characterized in that the contacting is carried out by means of the injection of two cryogenic liquids, nitrogen and CO2. The liquid nitrogen and the liquid CO2 are injected either separately, into at least two injection points of the apparatus, or by mixing both cryogenic fluids at the injection point. The invention is of use if the apparatus being utilized is a mixing, batch mixing, or grinding chamber, with the injection being carried out into the body of the material in the bottom portion of the chamber.

Abstract: The invention provides a method for devitalizing plant seed, the method comprising the steps of hydrating a viable whole plant seed and freezing the hydrated whole plant seed. The invention further provides a collection of devitalized whole plant seed wherein the integrity of genomic DNA and protein within the devitalized plant seed is preserved.

Abstract: A cooling gas discharge nozzle 7 is arranged above an initial position P(Rin) distant from a rotation center P(0) of a substrate W toward the outer edge of the substrate W and supplies a cooling gas to the initial position P(0) of the rotating substrate W to solidify DIW adhering to an initial region including the initial position P(Rin) and the rotation center P(0). Following formation of an initial solidified region FR0, a range to be solidified is spread toward the outer edge of the substrate W and all the DIW (liquid to be solidified) adhering to a substrate surface Wf is solidified to entirely freeze a liquid film LF.

Abstract: An apparatus for freezing a biological sample in a container while it moves along a cooling axis is provided. The apparatus has at least one set of two cooling plates with inner surfaces having a first plate dimension perpendicular to the axis, and a second plate dimension parallel to the axis. The inner surfaces define a passage therebetween with a width that corresponds to the container thickness and which is no larger than the first plate dimension. A method for cooling using the apparatus is also provided.

Abstract: The rocker chiller 10 includes a semi-cylindrical tank 12 filled with heat exchanging liquid and a baffle assembly 18 that rocks back and forth across the bottom wall of the tank. The baffle 26 of the baffle assembly 18 defines baffle openings 29 that are sized and shaped to pass the heat exchanging liquid through the openings in response to the rocking of the baffle, but small enough so that the baffle engages and retards the movement of at least some of the carcasses from moving through the baffle, thereby massaging the carcasses and increasing the moisture retained in the carcasses.

Abstract: This application discloses devices, articles, and methods useful for producing lyophilized cakes of solutes. The devices and articles provide for a method of freezing liquid solutions of the solute by the top and the bottom of the solution simultaneously. The as frozen solution then provides a lyophilized cake of the solutes with large and uniform pores.

Abstract: The following paragraph is to replace the previous version of the abstract, and includes markings to show all the changes made relative to the previous version: An apparatus and method for chilling or freezing a product includes a freezer having a freezing chamber therein in which a cryogenic substance is provided, and an inlet and an outlet in communication with the freezing chamber; and a plastic film belt constructed and arranged to transport the product from the inlet through the freezing chamber for exposure to the cryogenic substance to the outlet for removal of the product for further processing. The plastic film belt may be formed with one or a plurality of pockets to transport a corresponding amount of product.

Abstract: A unique device for facilitating insertion and retrieval of biological specimens into and from a liquid nitrogen storage tank and a method of using the device is disclosed. The device basically has one U-shaped mainframe body, two handles, one semi-circular switch, four hooks, one rack rod locker, and one cross-shaped sample box holder.

Abstract: A current lead assembly includes a current lead having an end, at least one heat station thermally coupled to the end, a cryogen-flow path extending through the heat station and comprising at least one connection, and a cryogen generation source fluidly coupled to the cryogen-flow path through the connection.

Abstract: The present invention is directed to a method and apparatus for adjusting the amount of cryogen delivered to a mill stand (1) using a non-optical sensor (16a) to measure at least one operating parameter selected from the group consisting of roll stand parameters, rolled product parameters, and cryogen parameters. Output signals, are generated by the non-optical sensor and a controller (17) calculates numeric values based on the signals. When the calculated numeric values reach a predetermined set point value that correlates with mill stand temperature, the flow of cryogen is adjusted to disperse a desired amount of cryogenic fluid to said mill stand (1) to control rolling temperature.

Abstract: A heat transfer arrangement comprises a refrigerant circuit (102). The refrigerant circuit (102) comprises an evaporator (104) adapted to be arranged inside an electronic component housing (202), a condenser (108) adapted to be arranged outside the electronic component housing (202), a first conduit leading (106) from the evaporator (104) to the condenser (108), and a second conduit leading from the condenser (108) to the evaporator (104). A refrigerant is present in the refrigerant circuit (102) and in use, under first temperature conditions, is arranged to self-circulate in the refrigerant circuit (102) by evaporating in the evaporator (104), rising as a gas through the first conduit, condensing in the condenser (108) and flowing through the second conduit to the evaporator (104).

Abstract: Improved brine solutions and uses thereof for uncontaminatedly and/or efficiently freezing items such as foods, and biological samples. In accordance with one embodiment, a brine solution containing a sufficient amount of dye in conferring the solution a distinctive color is used in the freezing process. In accordance with another embodiment, a brine solution containing deionized water is used for improving the freezing efficiency and/or freezing capacity.

Abstract: A cryogenic freezer includes a plurality of conveyor rail supports that rest upon side walls of a lower housing of the freezer. The conveyor rail supports include upper and lower bars that support upper and lower conveyor support rails extending perpendicular to the bars.

Abstract: The invention concerns a process respectively an apparatus for filling a container with articles such as food, in particular meat, and a process respectively an apparatus for cooling articles and is characterised by repeating the following steps: (A) a first portion of the articles is conveyed with a conveying means, in particular a conveyor belt, having a conveyor outlet and is discharged into a container at a lower conveying speed such that a first portion accumulates in the container at the first location closer to the conveyor outlet; and (B) thereafter, a second portion of the articles is conveyed by the conveying means and is discharged into a container at a higher conveying speed, such that the second portion accumulates in the container at the second location further away from the conveyor outlet; as well as a process respectively an apparatus for cooling articles using said process and said apparatus for filling; as well as the articles processed by said processes respectively said apparatus.

Abstract: A method of cooling foodstuff comprises immersing at least one perforated container containing foodstuff into an ice slurry bath for a period of time sufficient to allow ice slurry to enter the at least one perforated container and then subsequently removing the at least one perforated container from the ice slurry bath. Various apparatuses for cooling foodstuff are also provided.

Abstract: A cryostorage device (100) is described that includes at least one data storage device (200) and at least one sample receptacle device (300) with at least one sample chamber (301, 302, etc.) for the uptake of a suspension sample, the at least one sample chamber (301, 302, etc.) being connected to the data storage device (200) and having a elongated, hollow shape that extends from an inlet end (320) over a predetermined length to an outlet end (330) and being attached to the at least one data storage device (200) in a flexible and movably hanging manner.

Abstract: A method for providing cooling to the superconducting coils of a magnet with cryogenic helium gas at a helium production facility is disclosed. The cryogenic helium gas is fed to the magnet where the helium provides cooling. Cryogenic liquid helium provides additional cooling and fills the helium reservoir. Methods are also provided for recovering vaporized helium from the filling of a magnet and when the magnet is undergoing energization at the helium production facility.

Abstract: There are provided a machine tool cooling system and cooling method which allow cost reduction by reducing the number of control valves, and in which opening/closing control is simple. The machine tool cooling system and cooling method include a hot oil tank 4 storing hot oil, a cold oil tank 5 storing cold oil, a first to third hot oil passages 9a to 9c and a first to third cold oil passages 10a to 10c, which supply the hot oil and the cold oil to a first to third heat generating portions 1 to 3, a hot oil return passage 11 returning the hot oil to the hot oil tank 4, a first to third supply control valves 16a to 16c interposed in the first to third cold oil passages 10a to 10c, and a valve controller 8 controlling opening/closing of the first to third supply control valves 16a to 16c so that the cold oil is supplied to the first to third heat generating portions 1 to 3 intermittently at different timings.

Abstract: A material to be frozen is fed to an immersion bath having a recirculating flow of liquid nitrogen thereinside and at least partially frozen material is withdrawn from the bath downstream of where it is fed.

Abstract: A method of fabricating a multi-fluid cooling system is provided for removing heat from one or more electronic devices. The cooling system includes a multi-fluid manifold structure with at least one first fluid inlet orifice and at least one second fluid inlet orifice for concurrently, separately injecting a first fluid and a second fluid onto a surface to be cooled when the cooling system is employed to cool one or more electronic devices, wherein the first fluid and the second fluid are immiscible, and the first fluid has a lower boiling point temperature than the second fluid. When the cooling system is employed to cool one or more electronic devices and the first fluid boils, evolving first fluid vapor condenses in situ by direct contact with the second fluid of higher boiling point temperature.

Abstract: A method and apparatus for the manipulation and management process of cryogen such that it controls both the fluid body movement as well as internal currents within the cryogen. Small volumes of a desired substance introduced into this managed cryogen for the production of frozen or solidified pellets or granules are better managed as to shape, size, deformation, frozen satellites, fines and agglomeration and overall desired quality. These benefits result from the dispersion of the gas produced, as well as the heat transferred, resulting from the introduction of the relatively hot substance to the cryogen. The fluid body movement assists in maintaining a distance between the individual solidifying pellets or granules thereby minimizing deformation as a result of physical contact. The output characteristics and desired quality of the pellets can be more effectively controlled and managed, as desired.

Abstract: The present invention relates to processes for the preparation of a batch of an active pharmaceutical ingredient, e.g. an allergen product. The invention also relates to a container comprising cryogranules of a liquid composition of an allergen product, and to a cryogranule of an allergen product. The processes feature formation of cryogranules using a container having therein a cryogenic medium (e.g. liquid nitrogen) and storage of the cryogranules in the same container. The cryogranules obtained can be stored and handled without prior freeze-drying.

Abstract: Methods and systems are provided for cooling an object with a cryogen having a critical point defined by a critical-point pressure and a critical-point temperature. A pressure of the cryogen is raised above a pressure value determined to provide the cryogen at a reduced molar volume that prevents vapor lock. Thereafter, the cryogen is placed in thermal communication with the object to increase a temperature of the cryogen along a thermodynamic path that maintains the pressure greater than the critical-point pressure for a duration that the cryogen and object are in thermal communication.

Abstract: According to various embodiments, a portable cryogenic treatment system comprises a transportable housing. The transportable housing comprises a plurality of side walls, a front wall, a rear wall, a ceiling and a floor. The transportable housing includes a cryogenic liquid source and a cryogenic treatment chamber in fluid communication with the cryogenic liquid source. The cryogenic treatment chamber is configured to treat a treat able object using a cryogenic liquid.

Abstract: One exemplary embodiment of a method includes removing an automotive part from a stretch forming machine. The method also includes spraying a coolant over at least a portion of an exterior surface of the automotive part in order to cool the automotive part to a lower temperature so that the automotive part is nonmalleable and is not as susceptible to the forces of gravity as it might otherwise be.

Abstract: A rapid cooling system for a rapid thermal processing chamber includes a rapid thermal processing chamber having a wafer support for supporting a wafer. A tank having a supply of cooling liquid is provided in fluid communication with the chamber. A pump is provided in fluid communication with the rapid thermal processing chamber and the tank for pumping the cooling liquid from the tank to the chamber and cooling the wafer during the cooling phase of rapid thermal processing.

Abstract: In a method of chilling slaughtered poultry or parts thereof, the poultry is conveyed through a chilling room, or at least through a part of said chilling room, and in the process is exposed to a stream of chilling air. During the chilling of the poultry the skin of the poultry is moistened. The skin of the poultry is moistened by spraying it with water in a spray area that is separated from the stream of chilling air.

Abstract: Apparatus and method are provided for facilitating pumped, immersion-cooling of an electronic system having multiple different types of electronic components. The apparatus includes a container sized to receive the electronic system, a coolant inlet port and a coolant outlet port for facilitating ingress and egress of coolant through the container, and a manifold structure associated with the container. The manifold structure includes a coolant jet plenum with an inlet opening in fluid communication with the coolant inlet port, and one or more jet orifices in fluid communication with the coolant jet plenum. The jet orifices are positioned to facilitate cooling of at least one electronic component of the multiple different types of electronic components by jet impingement of coolant thereon when the electronic system is operatively positioned within the container for immersion-cooling thereof.

Abstract: An apparatus for reducing a temperature of a product includes a housing in which cryogenic fluid is provided for being exposed to the product, and at least one ultrasonic transducer assembly disposed in the housing for generating ultrasonic energy to contact the cryogenic fluid and a surface of the product to facilitate heat transfer at the surface of the product. The cryogenic fluid can be selected from nitrogen and carbon dioxide.

Abstract: The method and device according to the invention for the cooling of articles, in which the articles are introduced into at least one channel, through which a first stream of a first coolant flows, the channel being cooled by a second stream of a second coolant, is distinguished in that the first stream is fed from a first coolant conveyance unit and the second stream is fed from a second coolant conveyance unit. Advantageously, the second stream of the second coolant is a high-purity coolant stream which comprises, in particular, essentially pure liquid nitrogen. High purity is understood in this context to mean, in particular, that the second stream of the second coolant carries with it no articles or remains of articles or other impurities. The cooling conduit thereby remains clean and does not have to be cleaned in a complicated way.

Abstract: A compact rapid liquid chilling apparatus and method are provided. A liquid is placed in a container having an inherent void volume. The housing includes a container-securing space dimensioned to receive ice and maintain substantially all of the ice atop the container placed therein and in thermal communication with the container without allowing substantially any of the ice to fall below the container. A rotating mechanism disposed in the housing rotates the container placed in the container-securing space. As the ice melts as it chills the rotating container, the resulting water falls freely below the container as substantially all of the unmelted ice remains above the container. A lid preferably closes around the container to form a portion of the container-securing space when closed. The lid preferably includes an ice supply window, and an ice measuring bin preferably is attachable to the window.

Abstract: A thermal management system configured to maximize the potential of single and multiple atomizers to effectively cool microprocessors and other electronic devices. The thermal management system, which may be a heat spreader, provides surfaces that are disposed to increase the effectiveness of impinging coolant droplets, provide additional heat transfer area in some embodiments, and permit the efficient, customized and disparate thermal management of a recipient object of the thermal management.

Abstract: A freezing microtome for the production of microscopable thin sections of tissue samples (60), comprising a cooling device (24, 34, 36, 38, 40, 42, 46, 48, 50, 52) for freezing the tissue samples (60), a cutting device for cutting the frozen tissue samples (60) and a working chamber, in which the cutting device and at least a part of the cooling device (24, 34, 36, 38, 40, 42, 46, 48, 50, 52) are arranged is described. The part of the cooling device (24, 34, 36, 38, 40, 42, 46, 48, 50, 52) arranged in the working chamber contains a liquid coolant (70), in which the tissue samples (60) can be inserted for freezing.

Abstract: Methods and apparatus for freezing a product. The product is frozen in a treatment container which contains a vibrating support. The vibrating support is capable of receiving a film of a cryogenic liquid. A heated temperature probe, located just before the outlet of the treatment container, measures the temperature at that location. The supply system for the cryogenic liquid has a proportional valve. A data acquisition and processing unit receives the temperature information and controls the opening of the proportional valve.

Abstract: A chiller apparatus is disclosed. The chiller apparatus comprises a revolving drum, a cooling system, and a baffle assembly. The revolving drum includes a flight assembly that is continuously welded throughout the revolving drum for moving a product from an infeed end of the revolving drum to a discharge end. The cooling system is coupled to the revolving drum for supplying a cooled fluid to the revolving drum. The baffle assembly includes a plurality of triangular baffles seal welded to the inside of the revolving drum and to the flight assembly for turning the product. The seal weld formed between the baffle assembly, the flight assembly, and the revolving drum prevents the cooled fluid from forming stagnation points that contaminate the product.

Abstract: The invention relates to a method of cooling a metal strip traveling through a cooling section in a continuous heat treatment line. In accordance with the invention, the method consists in projecting a refrigerant medium into the cooling section (4) onto the surface of the strip (1) to be cooled, the medium being constituted for the most part by a phase-change substance that passes into the gaseous phase at a temperature that is lower than the temperature of the strip (1) and without oxidizing said strip so that energy is exchanged within an endothermic process by a change in the phase of said phase-change substance.

Abstract: A multi-fluid cooling system and methods of fabrication thereof are provided for removing heat from one or more electronic devices. The cooling system includes a multi-fluid manifold structure with at least one first fluid inlet orifice and at least one second fluid inlet orifice for concurrently, separately injecting a first fluid and a second fluid onto a surface to be cooled when the cooling system is employed to cool one or more electronic devices, wherein the first fluid and the second fluid are immiscible, and the first fluid has a lower boiling point temperature than the second fluid. When the cooling system is employed to cool the one or more electronic devices and the first fluid boils, evolving first fluid vapor condenses in situ by direct contact with the second fluid of higher boiling point temperature.

Abstract: An apparatus and a method for freeze-storing baked foods allow the baked foods to retain excellent crust condition (surface layer of baked foods), avoiding any peeling, and retain excellent sensory condition, attaining long-term frozen storage. Baked foods, including baked bread and baked confectionery, are frozen in a humidified atmosphere, cooled to 30 to 35° C. in terms of core temperature, and subjected to a high-humidity cooling process conducted in an atmosphere, where even upon receiving high-temperature baked foods after baking, 20 to 28° C. and ?65% RH, high humidity condition can be maintained, and further subjected to a frozen storage process where the baked foods are freeze stored at low temperature of ?freezing temperature.

Abstract: A spray cooling system includes a spray delivery device and a cooling liquid delivered to the spray delivery device. The spray delivery device includes one or more inlet apertures and one or more corresponding outlet apertures, at least one pair of inlet aperture and corresponding outlet aperture being positioned relative to each so as to form an asymmetric non-uniform density full-cone spray pattern.

Abstract: An apparatus and method for the presentation of organic samples at low temperature and under vacuum for analysis using a surface analysis technique is described. The apparatus carries a sample trapped between two hinged plates which is subsequently cryogenically-cooled and then inserted into a vacuum system where it locates on a cold stage. The device has a mechanism which is used to fracture the sample whilst under vacuum and open the two halves of the sample ready for analysis. It thus provides a reliable automated method of freeze-fracture, replacing current unreliable manual methods.

Abstract: A deep cryogenic tempering process for brake components such as rotors and drums is provided, wherein the unique processing profile is dependent on properties of the specific brake components. The process comprises the steps of placing a brake component at a temperature within a cryogenic processing chamber, cooling the brake component at a descent rate until the brake component temperature is approximately ?300° F., maintaining the brake component temperature at ?300° F. for a stay time, raising the temperature of the brake component to approximately ?300° F. at an ascent rate, maintaining the temperature of the brake component at 300° F. for a post temper time, and lowering the temperature of the brake component to room temperature at a cool down rate.

Abstract: A method is provided for cooling a powder in a tunnel with a vibrating support with at least two independently controllable cryogenic liquid inflows into the tunnel. It includes the following steps. A thermal mass of powder entering the tunnel is determined. The arrival of the powder at the tunnel inlet is detected. The thermal mass measurement previously obtained is synchronized with the detection of the arrival of the powder at the tunnel inlet, according to a known or predefined response time of the means for controlling the said cryogenic liquid inflows into the tunnel. The synchronization data is transmitted to a data acquisition and processing unit, which is able to retroact, if necessary, on the basis of this data, on all or part of the parameters governing the operation of the tunnel. The method is especially applicable to the cooling or deep-freezing treatments of food products or chemicals.

Abstract: A method and apparatus for using liquid nitrogen to render crises safe, as in circumstances of hostage crises, entering Methamphetamine labs, purging the accumulating toxic or flammable gases, ending the dispersal of substances from aerosols and capturing the material dispersed by condensing it and sealing it in containers for disposal, picking up spills by solidifying them or gelling the material and containing it for disposal—this includes Mercury spills, sealing and repairing broken pipes and dikes and dams, enabling a combustion engine to quit running, strengthening levee structures by freezing the core for the length of the levee or sandbag structure when severe crises occur, rapid cooling lava flows to structure the solid lava formation to something useful in that location, purging the coalmine fire environment of Oxygen to quell the long-term blaze while cooling subterranean structure to below freezing causing water crystals to loosen structure, treating industrial stack gas to capture acidics and use

Abstract: An improved bottom mount refrigerator is provided with water and lighting systems housed in a space adjacent the top of the fresh food compartment between a false ceiling and the top wall of the liner. The water system includes a filter manifold, filter cartridge, storage tank, and valve mounted to a bracket. The lighting system, including the fixtures and wiring harness, are also mounted in the bracket. The water and lighting systems are pre-assembled on the bracket, which is then secured to the liner. The false ceiling includes a tank cover, a pivotal filter cover, and a removable light cover. The false drop ceiling hides the water and light systems and the mounting bracket. A front façade closes the gap between the ceiling and the liner. The ceiling and façade provide an aesthetically pleasing appearance for the upper portion of the fresh food compartment of the refrigerator.

Abstract: A system for rapidly cooling a liquid in a container within a refrigerator-freezer or freezer is provided. The housing has a space for receiving a container, and a rotator rotates the container about an axis. While the container is rotating, a sprayer sprays chilled cooling medium on the container in the housing. A reservoir stores the cooling medium when the system is not being used and maintains the cooling medium at a given temperature. At least one chilling surface is preferably provided over which the cooling medium flows and where ice may be stored. A recirculator such as a pump recirculates the cooling medium throughout the system.

Abstract: A method and apparatus for cooling a workpiece, tool or the like by subjecting the workpiece, tool or the like to a coolant that has been heated to have a temperature near the temperature at which the coolant changes phase from liquid to gas. Thus, the coolant can quickly draw a substantial amount of heat from the workpiece, tool or the like in order to effect a phase change from liquid to gas. Typically, the coolant is preheated to within a predefined range of the phase change temperature, such as within 5° C. or even 1° C.

Abstract: The invention relates to a cooling device (100) for cooling a metal strip (200) after a forming in a cold rolling stand (200) having at least one nozzle (112) for spraying a cooling medium (400) onto the surface of the metal strip (200). In order to make such known cooling device more effective and efficient, it is proposed according to the invention to provide a plate (500), which in an operating position is arranged parallel to the surface of the metal strip (200) in the run-out of the cold rolling stand (300) and to arrange the nozzle in the operation position in such a manner that the cooling medium is sprayed at an acute spray angle ? into a cavity between the surface of the metal strip and the opposing plate, with a spray direction (R) opposite to the running direction (L) of the metal strip.

Abstract: A system for rapidly cooling a liquid in a container within a refrigerator-freezer or freezer is provided. The housing has a space for receiving a container, and a rotator rotates the container about an axis. While the container is rotating, a sprayer sprays chilled cooling medium on the container in the housing. A reservoir stores the cooling medium when the system is not being used and maintains the cooling medium at a given temperature. At least one chilling surface is preferably provided over which the cooling medium flows and where ice may be stored. A recirculator such as a pump recirculates the cooling medium throughout the system.

Abstract: The present invention discloses methods for artificially splitting nuts in a manner that ensures that the nuts split in the same manner as naturally split nuts. The methods include placing a batch of closed-shell nuts into a water filled vessel, sealing it, and reducing the pressure inside the vessel by removing air. This also causes air to be removed from inside the nuts. The air pressure in the vessel is then normalized, causing the air removed from the nuts to be replaced with water from the vessel. The nuts are then promptly transferred from the vessel and exposed to forces that cause the water inside the nuts to rapidly expand, creating internal pressure that forces the shells to split open along the longitudinal suture of the nut.