Blast cell cooling with guided airflow

What is claimed is: 1. A blast freezing system comprising: one or more blast cells, each configured to receive items and operate to cool the items received therein, each of the blast cells including: a housing defining (i) a bay space, (ii) a plenum, (iii) a first air passage fluidly connecting a first end of the bay space to a first end of the plenum, and (iv) a second air passage fluidly connecting a second end of the bay space to a second end of the plenum, wherein the bay space, the plenum, the first air passage, and the second air passage collectively provide a closed-loop within which air is circulated within the housing; a fan configured to circulate air through the bay space, the plenum, the first air passage, and the second air passage in the closed-loop provided by the bay space in the housing; and a plurality of channels arranged within at least a portion of the second air passage, each of the plurality of channels defining a fluid pathway that (i) is fluidly separate from other fluid pathways provided by others of the plurality of channels and (ii) extends from the second end of the bay space to the second end of the plenum, the plurality of channels configured to, over their length, turn a direction of airflow from the second end of the bay space to the second end of the plenum. 2. The blast freezing system of claim 1 , wherein the one or more blast cells are configured to independently operate to cool the items received therein. 3. The blast freezing system of claim 1 , wherein the one or more blast cells are arranged at a distance from one another. 4. The blast freezing system of claim 1 , wherein the fan is positioned within the plenum. 5. The blast freezing system of claim 1 , wherein each of the blast cells includes: an air flow guide arranged at a corner of the housing and configured to streamline the air flow at the corner with reduced turbulence, and wherein the air flow guide includes a plurality of turning vanes configured to provide curved air passages at the corner. 6. The blast freezing system of claim 1 , wherein each of the blast cells includes: a door configured to selectively open or close an entrance of the housing through which the items are moved into the bay space, the entrance including one or more surfaces that, at least in part, define the first air passage of the housing. 7. The blast freezing system of claim 1 , wherein the one or more blast cells are arranged by side-by-side. 8. The blast freezing system of claim 7 , wherein the one or more blast cells are split by one or more walls. 9. The blast freezing system of claim 1 , wherein the fan is configured to selectively circulate air in a first direction and a second direction opposite to the first direction. 10. The blast freezing system of claim 9 , wherein the fan is configured to circulate air in the first direction to (i) pull the air from the second end of the bay space, through the second air passage, and into the second end of the plenum, and (ii) discharge the air into the first end of the plenum, through the first air passage, and toward the first end of the bay space. 11. The blast freezing system of claim 10 , wherein the fan is configured to circulate air in the second direction to (i) push the air from the rea end of the plenum, through the second air passage, and into the second end of the bay space, and (ii) draw the air from the first end of the bay space, through the first air passage, and into the first end of the plenum. 12. The blast freezing system of claim 1 , wherein the bay space includes a plurality of rows, each of the plurality of rows configured to hold one or more pallets of items to be cooled, and wherein the plurality of channels are arranged to correspond with the plurality of rows in the bay space, respectively. 13. The blast freezing system of claim 12 , wherein the fluid pathway of each of the plurality of channels extends from a second end of a corresponding row of the plurality of rows to the second end of the plenum. 14. The blast freezing system of claim 12 , wherein the plurality of channels each has a width that gradually becomes smaller from a drawing end adjacent the second end of the bay space to an opposite discharging end adjacent the second end of the plenum. 15. The blast freezing system of claim 12 , wherein the plurality of channels each has a drawing end adjacent the second end of the bay space and a discharging end adjacent the second end of the plenum, the discharging end having a narrower width than the drawing end. 16. The blast freezing system of claim 15 , wherein the plurality of channels includes one or more walls curved between the drawing end and the discharging end. 17. A method for blast-freezing items, the method comprising: providing a plurality of blast cells including a first blast cell and a second blast cell, each of the plurality of blast cells configured to receive items and operate to cool the items received therein, each of the plurality of blast cells including a housing defining (i) a bay space, (ii) a plenum, (iii) a first air passage fluidly connecting a first end of the bay space to a first end of the plenum, and (iv) a second air passage fluidly connecting a second end of the bay space to a second end of the plenum, wherein the bay space, the plenum, the first air passage, and the second air passage collectively provide a closed-loop within which air is circulated within the housing; circulating, using one or more fans, first air through the bay space, the plenum, the first air passage, and the second air passage in the closed-loop provided by the bay space in the first blast cell; and circulating, using the one or more fans, second air through the bay space, the plenum, the first air passage, and the second air passage in the closed-loop provided by the bay space in the second blast cell, wherein the one or more fans include a first fan arranged in the first blast cell and a second fan arranged in the second blast cell. 18. The method of claim 17 , wherein circulating the first air in the first blast cell is performed independently from circulating the second air in the second blast cell. 19. The method of claim 17 , wherein circulating the first air in the first blast cell includes operating the first fan at a first fan speed, and wherein circulating the second air in the second blast cell includes operating the second fan at a second fan speed being different from the first fan speed. 20. The method of claim 17 , wherein circulating the first air in the first blast cell includes operating the first fan in a first operational mode, and wherein circulating the second air in the second blast cell includes operating the second fan in a second operational mode being different from the first operational mode. 21. The method of claim 17 , wherein circulating the first air in the first blast cell includes operating the first fan based on a first blast cycle schedule, and wherein circulating the second air in the second blast cell includes operating the second fan based on a second blast cycle schedule being different from the first blast cycle schedule. 22. A method for blast-freezing items, the method comprising: providing a plurality of blast cells including a first blast cell and a second blast cell, each of the plurality of blast cells configured to receive items and operate to cool the items received therein, each of the plurality of blast cells including a housing defining (i) a bay sp