SU1261582A1 - System for ventilating vegetable storage - Google Patents

Abstract

1. VEGETABLE VENTILATION VENTILATION SYSTEM, with compact container placement, containing a vertical main duct located in the front part of the stack with adjustable nozzles communicated with air ducts formed by container pallets and air flow restraints installed in the front part of the stack, which , in order to improve the microclimate, horizontal partitions are installed in the vertical main duct, arranged to form alternating parts between The air supply and exhaust sections, the nozzles are located in each of the above sections, and the air flow restrictor is designed as a wall located along the entire height of the piles. 2. A system according to claim 1, characterized in that the horizontal partitions have double-faced fins. t 3. The system according to claim I, characterized in that the nozzles are made rotatable. 1 / X // /// /// / 77 777 /// / uh 777/77 Z. l U / fig. I

Description

The invention relates to the field of ventilation and can be used to distribute air in storage rooms for agricultural products.

The aim of the invention is to improve the microclimate.

FIG. 1 shows a ventilation system, a longitudinal section; in fig. 2 — node 1 in FIG. one.

The ovosh ventilation system, storage unit 1 with stacked container placement 2 contains a vertical main duct 3 located in the end part of shtabel with adjustable nozzles 4 communicated with air ducts 5 formed by pallets 6 of container 2 and air flow restrictor installed in the opposite end part shtabel, and in the main duct 3 installed horizontal partitions 7, located with the formation of alternating supply 8 and exhaust 9 sections, nozzles 4 are placed in each section 8 and 9, and the air flow restrictor is made in the form of a wall 10 located along the entire height of the stacks, horizontal partitions 7 have double-sided fins 11, nozzles 4 are made rotatable.

The ventilation system of the vegetable store operates as follows.

External or a mixture of external and recirculated air is treated in

heat exchangers (not shown) and fed into the inlet sections 8 of the vertical main duct 3.

The supply air from the supply sections 8 flows through the nozzles 4 into the air ducts 5 formed by the pallets 6 of the containers 2 and walls 10. From the air ducts 5 the supply air passes through the load located in the containers 2. The exhaust air is removed through the air ducts 5, nozzles 4 and enters the exhaust sections 9 of the vertical main duct 3.

The intercontainer spaces can be considered as static pressure chambers; therefore, the flow rate of air passing through containers 2 located near nozzles 6 and through containers located at a distance from them is almost the same.

Alternating supply 8 and exhaust 9 sections work as regenerative heat exchangers. Bilateral fins 12 on the bulkheads allow the heat removal of the bulkheads 7 to increase between sections 8 and 9 and thereby increase the supply air temperature. The installation of the nozzles 4 with the possibility of rotation inside the duct 3 allows to ensure the regulation of the direction and flow of air and to increase the convenience in operating the system.

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Claims (3)

1. VENTILATION SYSTEM VEGETABLES, with stacked containers, containing a vertical main duct located in the end part of the stacks with adjustable nozzles in communication with the air channels formed by the pallets of containers and air flow restrictors installed in the end part of the stacks, characterized in that, in order to improve the microclimate , in the vertical main duct, horizontal partitions are installed, located with the formation of alternating supply and exhaust pipes ktsiy, nozzles are placed in each mentioned section, and the air flow restrictor is made in the form of a wall located along the entire height of the stacks. 2. The system by π. 1, characterized in that the horizontal partitions have bilateral finning. 3. The system according to π. 1, characterized in that the nozzles are made rotary. ND SL QO Nd