RU2044237C1 - Solar drier for loose materials - Google Patents

Abstract

FIELD: solar-energy engineering. SUBSTANCE: solar drier has hermetically sealed casing 1 with coating of transparent material 2, loading (3) and unloading (4) branch pipes with pulser 5, vacuum pump 6 and control desk 7 accommodating thermoelectric heaters 8 with parabolic reflectors 9 and vibration platform 10 on flexible shock-absorbers with cascade and inclined (for instance at an angle of 3 to 5 deg.) lattice shelves 12. EFFECT: improved design. 1 dwg

Description

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

 Known solar dryer for bulk materials, containing a sealed housing with loading and unloading nozzles and a translucent coating, a support for the dried material, reflectors and thermoelectric heaters.

 The disadvantages of the prototype are the low quality of drying due to the unregulated process, the complexity of the design and difficulties in operation, low productivity due to the slow process of dehumidification.

 The aim of the invention is to improve the quality and efficiency.

 To do this, the reflectors are made paraboloidal and installed under a translucent coating, and the heaters are located in the focus of the reflectors, the support is made in the form of cascade and inclined mesh shelves located on the vibration platform, the loading and unloading nozzles are equipped with pulsators, and the body cavity is connected to the vacuum pump through the air duct.

 The surface of the casing facing the solar radiation and the loaded surface of the reflectors are made heat-absorbing, and the inner surface of the casing is heat-reflecting.

 The drawing shows a solar dryer for bulk materials (grain, granules, wood chips, etc.).

One contains a sealed enclosure 1 with a coating 2 of transparent material, a loading 3 and an unloading 4 nozzles with pulsators 5, a vacuum pump 6 and a control panel 7. Thermoelectric heaters 8 with paraboloid reflectors 9 and a vibration platform 10 are mounted on elastic shock absorbers 11 with cascade and oblique , for example, at an angle of 3-5 ^about installed mesh shelves 12.

 A solar dryer for bulk materials works as follows.

 Bulk material (grain, granules, wood chips, etc.) from the loading pipe 3 through the pulsator 5 is portioned into the sealed housing 1 on the mesh shelves 12 of the vibration platform 10, where the grain of the material moves under vibration with a given amplitude and frequency in a vibro-boiling layer in field of radiant energy from the action of sunlight (“hot box” effect) through a transparent coating 2 and, if necessary, from the action of heat electric heaters 8 through reflectors 9, while a vacuum from the action of vacuum is created in the inner space of the housing pump 6. 6. As a result, high quality drying is ensured and its efficiency is increased. The process is automated and its control is carried out from the remote control 7, and if necessary, the technological cycle is repeated.

 The technical and economic efficiency of the solar dryer is as follows: improvement of the drying quality is achieved due to the combined effect of the vibrating boiling layer of the field of radiant energy and in a vacuum environment on the material grains; increased efficiency is achieved by increasing productivity cascade movement speeds up the drying process by 10%; radiation drying speeds up the process by 20-30%; a vibratory boiling layer speeds up the drying process by 10-15%; energy savings by 20-30% due to the use of solar energy. In addition, the process is automated with continuous quality control and drying modes.

Claims (2)

 1. HELI DRYER FOR BULK MATERIALS, containing a sealed housing with loading and unloading nozzles and a translucent coating, a support for the material to be dried, reflectors and thermoelectric heaters, characterized in that the reflectors are made paraboloidal and installed under the translucent coating, and the heaters are located in the focus of the reflectors, made in the form of cascade and obliquely installed mesh shelves located on the vibrating platform, the loading and unloading nozzles are equipped with a pulsato frames, and the cavity of the housing through the duct is connected to a vacuum pump.  2. The solar dryer according to claim 1, characterized in that the surface of the casing facing the solar radiation and the outer surface of the reflectors are heat absorbing, and the inner surface of the casing is heat reflecting.