EA015196B1 - Grain dryer - Google Patents

Abstract

The invention relates to plants for drying food, feed and seed grains of spiked cereals, different cereals, fabaceous crops, oil crops and maize and also other bulk materials and can be used in grain elevators, bread-making plants, large and small agricultural and grain processing enterprises and plants of agro-industrial complexes. In grain dryer, comprising vertical shaft (2) for grain formed by parallel installed perforated walls with zones of drying and cooling, grain exchangers (6) arranged in shafts in zone of drying, air collection chambers formed by barrier boxes (8) adjacent to side walls of shafts, mixing chamber (11) , formed between zone of drying and zone of cooling, heat exchangers (9) arranged in shafts of grain dryer and in mixing chamber, made of sides (20) and channels (21), outlet device (19), an air heater (18) and fans, zone of drying is separated by partition (14) with controlled valves (15) into upper (3) and lower (4) zones, mixing chamber (11) is separated from zone of cooling (5) by partition (12) and is connected to upper zone (3) of drying by means of air duct (13), at the same time air collection chambers and heat exchangers (9), with horizontal partitions (22) additionally arranged in them, are separated by partition (10) between lower zone (4) of drying and zone of cooling (5), cooling fan (16) is arranged in zone of cooling (5), and heating fan (17) is connected to air heater (18). Air duct (13) is arranged as ribbed to increase extent of drying agent heating. EFFECT: increased efficiency of grain dryer due to improved extent of drying agent application and improved conditions of operation due to reduction of fire and explosion risk.

Description

The invention relates to a device for drying food, feed and seed grains of cereals, cereals, legumes, oilseeds, other crops and corn, as well as other bulk materials and can be used in elevators and grain receiving enterprises, large and small agricultural and grain processing enterprises preparation of grain for storage, as well as in enterprises of the agro-industrial complex.

Known dryer for bulk materials described in ed. St. USSR No. 805034, class R26B 17/12, publ. 02/15/81.

The dryer contains several parallel perforated columns with discharge chambers between them. Each column is equipped with guide elements made in the form of three plates, one of which is vertical, and the other two are located at the same angle to it. All plates are made of triangular holes, pairwise aligned with each other, and each hole is open on one side, and closed with a plug and the holes are arranged alternately and additional guides are attached to them, also connected to a vertical plate.

Known core dryer has the following disadvantages.

The supply of perforated columns with guide elements installed along the entire height of the drying columns will lead to an uneven distribution of the drying agent along the height of the columns and to a decrease in its filtration rate at the locations of the installation of guide elements, which will reduce the drying intensity and dryer performance. In addition, the material consumption of the dryer will significantly increase and the reliability of its operation will decrease due to repeated braking of the grain layer and the possible formation of stagnant zones. The supply to the air collecting chambers of the exhausted drying agent, which is also saturated with moisture, and its intended direction into the furnace will increase the moisture content of the fresh drying agent and decrease the drying efficiency.

Known column dryers described in the book V.I. Atanazevich, Grain drying. M., DeLi Print, 2007, pp. 98-99.

Known dryers contain vertical shafts for grain formed by parallel perforated walls with an air chamber located between the shafts, a heat generator for receiving a drying agent, fans with air ducts and sedimentation chambers for supplying and removing drying agent and cooling air from the shafts of the dryer, grain exchangers for mixing the layer grain placed in the mines, and exhaust device.

In the SK-type grain dryers described above, the spent drying agent and cooling air are completely emitted into the atmosphere, passing either through sedimentary chambers or through enclosing shutters protecting the outer surfaces of the mines.

The described design of the grain dryer has the following disadvantages.

The lack of differentiated separation of the drying mines into drying zones does not allow to utilize the spent drying agent from the lower part of the drying mine, which has a low moisture content and a relatively high temperature. The design of the dryer does not allow to utilize the spent cooling air, which also has a low moisture content and an elevated temperature, i.e. it is useful to use the heat previously expended in heating the grain. In this case, the spent drying agent and cooling air are completely released into the atmosphere, which leads to increased energy consumption for drying.

Known core grain dryer type SZM, produced in the item Krasnoobsk (Modular grain dryers // Information leaflet. Novosibirsk region., Item Krasnoobsk, OPKTB SibIME: BI. 2001. 3 S.).

The known dryer has a partition in the lower part of the air-pressure chamber, which forms a channel with the inner conical part of the chamber, through which air heated by grain cooling is sucked by a fan into the mixing chamber, from where the mixture of atmospheric and exhaust air in the cooling zone is supplied to the heat generator.

A grain dryer has the following disadvantages.

In this dryer, where the drying agent is supplied to the drying zone under pressure, and cooling air is supplied to the cooling zone under vacuum, the spent drying agent is not disposed of from the lower part of the drying zone due to the lack of separation of the drying shaft and sediment chamber of the dryer into drying zones.

The mixing chamber is not built into the dryer structure and is a stand-alone device connected to the furnace and dryer by air ducts, which makes the entire dryer structure cumbersome and additional heat loss from the dryer structures to the environment.

The closest to the claimed technical essence and the achieved result, selected as a prototype, is a grain dryer manufactured by OJSC Melinvest, Nizhny Novgorod. (Grain dryer R1-SZG, Operation manual, Nizhny Novgorod).

The grain dryer contains vertical mines for grain formed in parallel by perforated walls with drying and cooling zones, grain exchangers located in the mines in the drying zone, air collection chambers formed by enclosing boxes adjacent to

- 1 015196 to the side walls of the shafts, a mixing chamber, located in the shafts of the grain dryer and in the mixing chamber, heat exchangers consisting of sidewalls and channels, intake and exhaust devices, a burner located in the heating chamber, heating fans and cooling fan, control panel.

The specified design of the dryer also has disadvantages.

The location of the burner in an open flame grain dryer sharply increases the fire and explosion hazard of the grain dryer due to the possible occurrence of sparks from dust and debris coming in through the perforation and with recyclable air, which cannot be completely excluded from the grain.

In addition, repeated recycling of the spent drying agent through the grain layer will lead to increased moisture content in the whole mixture of the spent drying agent and cooling air, which will lead to a decrease in its use and lower productivity of the grain dryer, especially when drying raw grain.

The problem solved by the invention is the improvement of the grain dryer.

The technical result from the use of the invention is to increase the productivity of a grain dryer by increasing the degree of use of a drying agent and improving operating conditions by reducing fire and explosion hazard.

This result is achieved by the fact that in a grain dryer containing vertical grain shafts formed in parallel by perforated walls with drying and cooling zones, grain exchangers located in the shafts in the drying zone, air collecting chambers formed by enclosing boxes adjacent to the side walls of the shafts, a mixing chamber formed between the drying zone and the cooling zone, located in the shafts of the grain dryer and in the mixing chamber heat exchangers consisting of sidewalls and channels, an exhaust device the air heater and fans, the drying zone is divided by a partition with adjustable valves into upper and lower zones, the mixing chamber is separated from the cooling zone by a partition and connected to the upper drying zone by an air duct, while the air-collecting chambers and heat exchangers, with additional horizontal partitions made in them, are divided a partition between the lower drying zone and the cooling zone, the cooling fan is located in the cooling zone, and the heating fan is connected to the air heater.

The air duct is finned to increase the degree of heating of the drying agent.

The invention is illustrated by drawings, where in FIG. 1 schematically shows the proposed grain dryer, FIG. 2 — a heat exchanger of a grain dryer; FIG. 3 -constructing the processes of changing the state of the drying agent and cooling air in 1-6 diagram.

The grain dryer includes a receiving device 1, vertical shafts 2 for grain formed in parallel by perforated walls, divided into upper 3 and lower 4 drying zones and a cooling zone 5, grain exchangers 6 located between the upper and lower drying zones, shutters 7 located on the outer surface mines at the level of the upper 3 drying zones, enclosing boxes 8 adjacent to the outer surface of the mines at the level of the lower 4 drying zones and cooling zones 5, forming air collecting chambers. Heat exchangers 9 are located in the shafts 2 of the grain dryer between the lower 4 drying zone and the cooling zone 5, separated by a partition 10 and connected to the mixing chamber 11. The air collection chambers are also divided by the partition 10. The mixing chamber 11 is formed between the lower 4 drying zone and the cooling zone 5 and is separated from cooling zones 5 by a partition 12. An air duct 13 is located between the mixing chamber 11 and the upper 3 drying zone. Between the upper 3 and lower 4 drying zones, a partition 14 is made with adjustable valves 15 for partially supplying fresh drying agent from the lower 4 drying zone to the upper 3 drying zone. The cooling fan 16 is located in the cooling zone 5. The heating fan 17 is connected to the air heater 18. The exhaust device 19 is located in the lower part of the grain dryer. Each heat exchanger 9 (Fig. 2) consists of sidewalls 20, between which channels 21 are made, in which there are horizontal partitions 22 connected to the partition 10. The grain dryer is equipped with a control panel (not shown).

The drying process is as follows.

Crude grain coming from the receiving device 1, enters the vertical shafts 2 for drying and sequentially passes the upper 3 drying zone, then through the grain exchangers 6 to the lower 4 drying zone and cooling zone 5, drying and cooling to standard humidity and temperature, and leaves grain dryer through the exhaust device 19. Fresh drying agent of a predetermined temperature by the heating fan 17 from the air heater 18 enters the lower drying zone 4, penetrates the grain layer in the mines, drying the grain, and through the lower air collecting chamber 4 of the drying zone formed by the outer surfaces of the shaft and the enclosing box 8, due to the partitions 22 through the channels 20 enters the upper part of the heat exchangers 9 located between the lower 4 drying zone and the cooling zone 5. In the lower part of the heat exchangers 9 in the same way through the air chamber of the cooling zone 5 the exhaust cooling air enters from the cooling zone 5. In the cooling zone 5, separated from the lower drying zone 4 by a partition 12, fresh air enters through the cooling fan 16 and, after passing through oh grain, enters the mixing chamber

- 2 015196

11. After mixing in the mixing chamber 11 through the air duct 13 located in the lower drying zone 4, the utilized air, additionally heated from the walls of the air duct 13, enters the upper drying zone 3, where fresh drying agent is partially directed through the adjustable valves 15 in the partition 14, increasing the temperature of the drying agent in the upper 3 drying zone. The newly formed drying agent passes through a layer of raw grain, drying it, and saturated with moisture is sent to the atmosphere.

Perforated walls, enclosing boxes, external walls, exhaust device are made of galvanized steel; heat exchangers, receiving device, partitions, air duct, grain exchangers - from cold-rolled steel. The main material of the grain dryer is cold rolled, hot rolled and galvanized steel. The fan can be used, for example, grade ВР-80-70-12,5 Ж. Adjustable valves can be made in the form of blinds, gates.

In accordance with the scheme of the grain dryer, a grain dryer with a capacity of 15 t / h was calculated at a grain moisture content at the inlet of the grain dryer equal to 19%, at the outlet of the grain dryer 14% at an air temperature of 15 ° C, its relative humidity 60% for corn grain intended for starch industry with an initial temperature of 15 ° C and determined the overall dimensions of the drying and cooling zones, operating parameters, pressure and flow rate of the drying agent and cooling air when choosing an existing grain dryer as a prototype 1-SZG. At the same time, fuel savings due to utilized heat amounted to 31.3%.

The process of changing the state of the drying agent and cooling air is illustrated by a 1-ά diagram, which shows: AB ¹¹ - heating of the drying agent in the air heater; In ^P With ^P - a change in the state of the drying agent in the lower drying zone; HELL - change in air condition in the cooling zone; DS ¹¹ - mixing the spent cooling air and the spent drying agent in the mixing chamber; EE - air heating in the air duct; EB ¹¹ - mixing heated air with a drying agent in the upper drying zone; B'S. ' ¹ - state change of the drying agent in the upper drying zone.

As can be seen from the 1-ά diagram, the spent drying agent has a low temperature and a high degree of moisture saturation. Thus, the degree of utilization of the drying agent is increased and energy costs for drying are saved.

The separation of the drying zone into the upper and lower zones with the regulation of the entry into the lower drying zone of only fresh drying agent, and in the upper drying zone of both fresh and spent drying agent and cooling air, allows to differentiate the drying regimes and reduce heat loss with the drying agent leaving after drying and increase the degree of its use.

The connection of the mixing chamber of the dryer with the air duct to the upper drying zone will prevent multiple recycling of the spent drying agent and its excessive moisture, which will increase the drying ability of the mixture of spent drying agent and cooling air, increase the productivity of the dryer and reduce the specific energy consumption for drying. Additional heating of the mixture in the air duct will also reduce its relative humidity and increase the drying potential.

The device of the partition in the air collecting chamber and heat exchangers will allow to separately supply the drying agent spent in the lower drying zone and the exhaust cooling air into the mixing chamber, which will reduce the energy consumption for the fan drive, since the fans will not work against each other, which will also increase their reliability. In addition, removal of the burner from the grain dryer will allow the use of different fuels for drying and increase the fire and explosion safety of drying.

Thus, the productivity of the grain dryer is increased by increasing the degree of use of the drying agent and the operating conditions are improved by reducing the fire and explosion hazard.

Claims (2)

CLAIM 1. Grain dryer containing vertical silos for grain formed in parallel with perforated walls with drying and cooling zones; grain exchangers located in mines in the drying zone; air collection chambers formed by enclosing boxes adjacent to the side walls of the mines; a mixing chamber formed between the drying zone and the cooling zone; heat exchangers located in the mines of a grain dryer adjacent to the mixing chamber, consisting of side walls, between which channels are made; intake and exhaust devices, an air heater and fans, characterized in that the drying zone is divided by a partition with adjustable valves into upper and lower zones; the mixing chamber is separated from the cooling zone by a partition and connected to the upper drying zone by an air duct, while in each channel of the heat exchangers an additional horizontal partition is made; the lower drying zone and the cooling zone are separated by a partition connected to the baffles of the heat exchanger channels; the cooling fan is located in the cooling zone, and the heating fan is connected to the air heater. 2. Grain dryer according to claim 1, characterized in that the air duct is made finned to increase