US2022314141A1PendingUtilityA1
Nozzle and spray chamber for liquid separator and concentrator
Assignee: COLORADO EXTRACTION SYSTEMS LLCPriority: Apr 1, 2015Filed: Jun 16, 2022Published: Oct 6, 2022
Est. expiryApr 1, 2035(~8.7 yrs left)· nominal 20-yr term from priority
B01D 3/02B01D 5/006B01D 5/0036B01D 1/20B01D 1/065B01D 1/30F28B 7/00
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Claims
Abstract
A liquid separator and concentrator is disclosed. An example liquid separator and concentrator includes a separator column. A spray chamber has a sprayer nozzle to spray an influent within the spray chamber and create a falling film in the separator column. A heating jacket surrounds the separator column, wherein the heating jacket heats the falling film to evaporate at least one portion of the falling film and leaves a concentrate. A concentrate collection vessel receives the concentrate from the separator column.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 . A liquid separator and concentrator subsystem, comprising:
a spray chamber having a top opening, a bottom opening, and a singular curved wall extending therebetween,
wherein the singular curved wall has an interior surface and an exterior surface;
a sprayer having an influent receiving port and a spray nozzle, the influent receiving port and the spray nozzle being in fluid communications,
wherein the sprayer is located completely within the spray chamber, and
wherein the spray nozzle is configured to spray an influent directly passing through the top opening;
a separator column, having a top end and a bottom end, the top end being permanently attached to the bottom opening allowing for the fluid communication therebetween; means for pumping the influent to and through the sprayer; and a collection vessel permanently attached to the bottom end, the collection vessel and the separator column being in fluid communication.
2 . The liquid separator and concentrator subsystem of claim 1 , wherein the sprayer is configured to spray the influent with a flow rate in range of 0.3 LPH to 28 LPH.
3 . The liquid separator and concentrator subsystem of claim 2 , the spray nozzle further comprising a hollow cone and an integrated mesh strainer at a terminal end of the hollow cone.
4 . The liquid separator and concentrator subsystem of claim 3 , where the influent directly passes through the spray nozzle forms an approximately 160 degree angle with the interior surface.
5 . The liquid separator and concentrator subsystem of claim 4 , the influent directly passes through the spray nozzle with a pressure of 100 psi.
6 . The liquid separator and concentrator subsystem of claim 5 , the spray nozzle being a pattern sprayer.
7 . The liquid separator and concentrator subsystem of claim 6 , the spray nozzle being located centrally within the spray chamber.
8 . The liquid separator and concentrator subsystem of claim 7 , further a comprising a heater located beyond the top opening, the heater being configured to heat the influent prior to the influent entering the spray chamber.
9 . The liquid separator and concentrator subsystem of claim 8 , wherein influent that has passed through the sprayer nozzle will have a droplet size with a mean diameter in the range of 20 microns to 50 microns.
10 . The liquid separator and concentrator subsystem of claim 9 , the collection vessel further comprising a magnetic stirrer contained therein.Join the waitlist — get patent alerts
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