RU2022220C1 - Aerodynamic solar drier - Google Patents

Abstract

FIELD: drying. SUBSTANCE: dryer has tight case 1 bearing on ball supports 2 and provided with aerodynamic solar heaters 3 made of 'hot box', X-shaped deflectors with heaters 4, hollow perforated core 5, dust fan 6, and charging branch pipe 7 with feeder 8. Vibration case 11 is positioned inside the case. The vibration case is provided with [-shaped shelves 12, vibration exciter and control desk. EFFECT: enhanced efficiency. 2 dwg

Description

 The invention relates to installations for drying and cleaning bulk materials in agriculture, construction, the chemical industry, and can also be widely used in other sectors of the economy.

 A device for drying, containing a drum with a nozzle, a loading hopper and an aspiration system is known.

 The disadvantages of this installation are the low quality of drying, low productivity and high energy intensity.

 Closest to the invention, a technical solution known (prototype) is a device for aerodynamic drying and cleaning of grain, containing nozzles, shelves and airgel heaters.

 The disadvantages of the prototype are the complexity in the manufacture and operation of the installation, low productivity, high energy costs, high material consumption and limited application.

 The aim of the invention is to increase productivity.

 This goal is achieved by the fact that the solar dryer further comprises a vibro-housing located inside the housing mounted on ball bearings and equipped with a hollow perforated core located along its axis and heaters with X-shaped reflectors placed above the shelves having a U-shaped profile, and heaters with reflectors and shelves are located relative to the core opposite to each other, cascading and in a spiral around the core.

The significant differences of the proposed aerodynamic solar dryer is the following:
equipment of the solar dryer enclosure with rotary air-heaters and X-shaped reflectors with heaters;
supply of the vibrating box of the solar dryer with U-shaped shelves;
the corrugated walls are made corrugated, the outer surface of which is light-absorbing, and the inner reflective.

 Figure 1 schematically shows a General view of a solar dryer; in FIG. 2 - section aa in figure 1.

 Aerodynamic solar dryer, for example, for grain, sand, gravel, granules, etc. consists of a sealed housing 1 on ball bearings 2, containing airgel heaters 3, made on the principle of "hot box", X-shaped reflectors with heaters 4, a hollow perforated core 5, a dust fan 6 and a loading pipe 7 with a feeder 8, and the walls 9 of the housing made corrugated with a light-absorbing transparent film 10 on the outside and a reflective surface inside. Inside the housing there is a vibrocasing 11 equipped with U-shaped shelves 12, a directional vibration exciter 13, an unloading pipe 14 and a control panel 15.

 Aerodynamic solar dryer works as follows.

 Bulk material from the loading hopper 7 through the feeder 8 under its own weight falls on the inclined U-shaped shelves 12, along which the grains of the material are cascaded and spiral moving in a vibro-boiling layer with a given frequency and amplitude in the field of radiant energy from X-shaped reflectors with heaters 4 , from the walls 9 of the casing, heated by the sun's rays, and from the heat flows of air from the airgel heaters 3, working on the principle of "hot box", and are gradually dried in a rarefaction medium while simultaneously moving along the entire travel path dusting using a dust fan 6, while dusty particles and moisture are removed into the suction system, and the aerodynamic solar dryer is constantly oriented towards the sun's rays by rotating it on ball bearings 2. The dried and purified bulk material is discharged through the discharge pipe 14, and the process is controlled from the control panel 15.

The technical and economic effectiveness of the claimed aerodynamic solar dryer is as follows:
cascade movement of grains during the drying process allows to accelerate the drying process by ≈10%;
radiation drying speeds up the process of heat transfer compared to convection by 1.5-2 times, which increases productivity;
the creation of a boiling layer in the drying process allows you to accelerate it by ≈30-40%;
the use of the "hot box" effect in the drying process reduces energy costs by ≈ 15-20%;
the creation of high-speed air flow under vacuum also accelerates drying.

Claims (1)

 AERODYNAMIC HELI-DRYER containing a housing with loading and unloading nozzles, shelves with the material to be dried, installed in the housing, and rotary air-heaters communicated through the air with the cavity of the housing, characterized in that, in order to increase productivity, the solar dryer further comprises a vibro-housing located inside the housing, mounted on ball bearings, and equipped with a hollow perforated core located along its axis and heaters with X-shaped reflectors placed on hell with shelves having a U-shaped profile, and heaters with reflectors and shelves are located relative to the core opposite to each other, cascading and in a spiral around the core.

Images