SU1617280A1 - Drying unit - Google Patents

Abstract

The invention relates to the storage of agricultural products and can be used for drying grain, mainly seed. The purpose of the invention is to increase the efficiency of the drying unit. The drying unit contains a drying apparatus 1, a heat generator 2, a regenerative heat exchanger-heat exchanger 3 and surface heat exchangers 6 and 7. Each heat exchanger 6, 7 contains a working chamber for passing atmospheric air and a working chamber for passing waste working agent filled with a sorbent in the form of mineral fertilizer, for example, disubstituted anhydrous sodium phosphate. The outlet of the drying apparatus 1 is connected to the recuperative heat exchanger 3 through the air cleaner 12. Fans 4 and 5 are installed to circulate the atmospheric air and the working agent in the system of the drying unit. The input and output of atmospheric air and the output of the working agent of heat exchangers 6, 7 are connected with a regenerative heater-accumulator 11. The installation allows reducing the energy consumption for drying the grain by using the heat of sorption released during drying of the working agent in surface heat exchangers. 3 hp f-ly, 2 ill.

Description

Drained one

4th atmosphere and air

Heated Air

FIG. 2

Claims (4)

Claim 1. A drying unit, including a dryer with nozzles for supplying and discharging a working agent and dried material, a heat generator with nozzles for supplying and discharging a working agent, a recuperative heat exchanger-heat exchanger with nozzles for supplying and discharging atmospheric air and exhaust working agent, fans and pipelines with shut-off control fittings connecting branch pipes b supply and 'removal of the working agent of the drying apparatus, respectively, with nozzles for removing the working agent of the heat generator and supplying the spent working agent of regenerative heat recovery nickname-utilizer, characterized in that, in order to increase the efficiency of the dryer, it is additionally equipped with at least two surface heat exchangers, each of which is equipped with a chamber for the passage of atmospheric air and a chamber for the passage of the spent working agent filled with a sorbent, with pipes for their passage the intake and exhaust, and the inlet and outlet pipes of the atmospheric air of the surface heat exchangers are connected via pipelines to the exhaust pipes of the recuperative heat exchanger and the supply of the working agent of the heat generator, and the pipes of the outlet of the working agent of surface heat exchangers are connected to the pipe of the supply of the working agent of the heat generator, then how the pipes for supplying the spent working agent of surface heat exchangers are connected by means of oprovodov with nozzle discharge working agent drying unit, wherein a fertilizer is used as a sorbent. 2. Installation according to π. 1, characterized in that as a mineral fertilizer using disubstituted anhydrous sodium phosphate. 3. The installation according to claim 2, characterized in that the pipes for exhausting the spent working agent of surface heat exchangers are connected to the atmosphere by a pipe equipped with a regenerative heater-accumulator having pipes for supplying and removing atmospheric air, the latter being connected via pipelines to the atmosphere and pipes for atmospheric removal, respectively air of surface heat exchangers, and pipes for supplying atmospheric air of surface heat exchangers via pipelines are connected to the mososphere. 4. Installation according to claim 2, characterized in that the pipes for supplying and removing the spent working agent of surface heat exchangers are connected to the atmosphere by pipelines. Wet air I Drained Air Atmospheric air FIG. 2