TH13848B - Methods and devices for collecting fragrant gas - Google Patents

Abstract

Scented gas is sent to cryogenics storage unit, which spray liquid nitrogen directly into the aromatic gas to rapidly distill the aromatic gas and form particles of the scented gas. Frozen iced coffee That is, very small, suspended in a nitrogenous tube. At the same time, the cold gas contact with the wall of the storage unit is minimized. Pass the chilled scent particles suspended in nitrogen gas through a porous cylindrical filter to separate the chilled scent particles that are deposited on the outer surface of the cylindrical filter. Where nitrogen gas passes through a porous filter And exit from the storage unit Periodically stimulate the porous filter back into the porous strainer to loosen the frosty fragrance particles that settle on the outer surface of the cylindrical filter. Incorporates into soluble coffee products

Claims (9)

1. a method of storing fragrant gases that appear during the beverage production process, which includes Conduction of scented gas to cryogenics storage unit Liquid nitrogen is injected into the aromatic gas in such a storage unit under ideal conditions to hold down the frozen aromatic particles from the aromatic gas and to evaporate the liquid nitrogen. Thus creating a frozen aromatic particle suspension in nitrogen gas Exposure to the gaseous suspension with a porous filter medium with a pore size distribution which separates the chilled aromatic particles from the relatively gaseous suspension, by which the particles are immersed on The filter medium and the nitrogen gas component of the suspension pass through such a porous filter medium. Extraction of cold-scented particles from the filter medium, and collection of refrigerated fragrant particles that are condensed 2. Methods set out in claim No. 1 where the gas The fragrant gas is cooled to a minimum temperature of -80 c. By spraying liquid nitrogen into the aromatic gas, to condense the scented particles that are frozen from the gas. Is set out in Clause 2 where the aromatic gas is cooled to a temperature range from approx. -100 ° C to -160 ° C 4. Method set out in Clause 1 where Nitrogen gas that passes through the filter media is utilized to maintain the cool-to-hard aroma in a condensed form 5. The method specified in claim No. 1, where the porous filter media consists of: Minimal one rigid porous cylindrical tube installed in the storage unit, where such a porous cylinder tube is made of thermally usable material with cryo conditions. Jenix preserved in a storage unit and a hole size distribution, which separates the chilled aromatic particles from the gaseous suspension. 6. Methods set out in claim 5, where the cylindrical filter is made of porous metal 7. Methods set out in claim No. 6, where, where the cylindrical filter is made of porous metal. The porous gas has an absolute level of about 5 microns. 8. Method defined in claim No. 1, where aromatic gas and liquid nitrogen are introduced into the storage unit in such a way that the exposure of the scent gas is exposed. Fragrance and nitrogen with the side wall of the container were minimal 9. Method defined in Clause 1 where the aromatic gas was brought to the storage unit under pressure 1 0. In claim 1, where the fragrant gas is brought to the vacuum storage unit 1. 1. Methods set out in claim 1, where the aromatic gas is passed through the buzzing number of cryogenics, serialized to each subsequent storage that is maintained at The temperature is lower than the previous storage unit to produce the fragrant gas fragrant separation difference. 2. The method set out in claim 1, where the aromatic gas was made appear during the coffee production process 1. 3. Equipment for the collection of aromatic components from aromatic gases released during the beverage production process, which includes The microgeneric collection unit has a side wall with a gas inlet path, a top wall with a gas exit path, and a bottom wall with a particle-emitting opening that extends through it. At a minimum, a porous cylindrical filter path is installed in the enclosures between the gas inlet and gas outlet paths. The path for the introduction of the aromatic gas through the said gas inlet into the storage unit to the vertical center line of the storage unit. A method for introducing liquefied gas into a gas with such an odor component in a storage unit to cool the aromatic gas to a temperature where the frozen aromatic particles are condensed from the aromatic gas and The liquefied gas is evaporated to form a suspended solid-aromatic particle suspension in the gas. Pathways for the movement of the suspended solids are through the said filter paths, where the frosted aromatic particles are maintained on the surface of the filtered path, and the evaporated gas passes through the filtered path. Filtered and released from the microgenics collection unit through the said gas outlet path. Excitation Path involves a filter path for regeneration of gas backflow to evacuate cold aromatic particles from the filtration path, and a path for collecting the flammable particles. Cool to hard scent 1 4. The equipment specified in Clause 13 where the microgensic storage unit is installed in an insulated shell surrounding the storage unit, where the de-energized gas Evaporators are drained from cryogenics storage unit to the shell to maintain the unit at cryogenics 1 temperature. 5. The equipment specified in claim 13, where the route for the introduction of liquefied gas is included, a number of spray nozzles are installed in the cryogenics storage unit farther away. It surrounds the gas inlet and is adjusted to spray the liquid gas into the gas to the vertical midpoint of the incoming fragrant gas beam. 6.The equipment specified in claim 13, where the gas inlet trajectory is composed of an inlet pipe installed above the opening in the side wall of the microgynics collection unit against the wall. On top of the storage unit, the inlet pipe is positioned perpendicular to the side wall at a slightly lower angle. 7. The equipment specified in Clause 13, where such a method for the collection of frozen aromatic particles consists of a removable insulated container attached to the bottom wall of Storage unit above the opening for such release 1 8. The device specified in claim 13, where the cryogenics storage unit is combined with a cylindrical chamber installed on the wall of the storage unit, by which the chamber is in contact with the interior of the storage unit. The storage unit, the chamber, has an upper wall with a gas inlet pipe extending through that wall, and a number of liquefied gas inlet pipes installed in the chamber, somewhat spaced around the ends of the gas inlet pipe. The presence of such a gas inlet is positioned so that the liquefied gas released from the said inlet converts into the center of room 1. 9. The equipment specified in Clause 13, where each perforated cylindrical strainer is made of perforated stainless steel.