RU2137995C1 - Drying plant - Google Patents

Abstract

FIELD: mechanical engineering. SUBSTANCE: this drying plant is used for thermo-moisture treatment of materials. Drying plant has cylindrical hermetic housing 1 with thermal insulation 2, drying chamber 3 which is created by internal screen 4. Screen 4 is located in housing 1 with creation of duct 5 for drying agent. One of side walls of screen 4 is made in the form of distributing grate which is formed by guide blades 6. Bottom part of housing 1 has no thermal insulation and is used as condenser 7. Made in other side wall of screen 4 which is located oppositely to distributing grate is suction hole 8 of centrifugal fan 9. Located in upper narrowing part of drying agent duct 5 of distributing grate is air heater 10. Water-circular vacuum pump 11 by means of condensate drain pipeline 12 combined with external air inlet is connected to bottom part 7 of housing 1. Pipeline 12 is provided with shut-off fitting 13. Located in zone of connecting pipeline 12 is recuperative heat exchanger 14. Made in upper part of housing 1 between fan 9 and air heater 10 is exhaust hole 15 with exhaust pipe union 16 connected to it. Pipe union is provided with adjustable shutter 17. Drying plant is provided with steam generator 18 installed in drying agent duct 5 between fan 9 and distributing grate. Material to be treated 19 is introduced into drying plant on draw in/out carriage 20. Aforesaid embodiment of drying plant allows for performing convection drying at atmospheric pressure, also cyclic processes of convection drying, vacuum convection drying, and conditioning of material being treated. EFFECT: higher efficiency. 5 cl, 1 dwg

Description

 The invention relates to the field of thermal moisture treatment of materials, mainly for chamber drying of lumber.

 Known dryers containing a circulating circuit of a drying agent, including a fan, air heaters and supply and exhaust ducts with controlled dampers, enclosed in a common casing with the formation of a regenerative heat exchanger, inside which exhaust ducts form a condenser (A.S. N 1361447, IPC F 26 B 21 / 04, 1986). In such dryers, heat energy is recovered during moisture condensation, but the saturation of the drying agent depends on the moisture content of the dried material, which limits the range of modes.

 Supplementing the design of dryers with a humidification and steaming system (A.S. N 1257383, IPC F 26 B 3/04, 1984; A.S. N 1262230, IPC F 26 B 9/06, 1985) allows you to expand the range of modes However, in such dryers it is possible to carry out only convective drying of materials, and the possibility of intensification of drying through the use of vacuum is excluded.

 A drying unit is also known, containing a circulation loop of a drying agent, in which a drying chamber, a condenser, a fan and a heater are sequentially installed, which is placed in a building in which one of the walls of the condenser, in the direction of movement of the drying agent, is formed by a part of the building envelope made with thermal resistance less than the thermal resistance of the rest of it, and the other wall of the capacitor faces the inside of the building and is thermally conductive, and the capacitor is equipped with apani for collecting condensate (AS N 1151792, IPC F 26 B 9/02, 1979 YG). In such a drying installation, part of the condensation heat is transferred to the building in which the drying chamber is located, i.e. It is used to heat it from the outside, but the saturation of the drying agent is determined by the humidity of the material to be dried, and the condensation rate depends on the ambient temperature, so it is difficult to control the drying process.

 The closest in technical essence is a drying unit containing a sealed cylindrical body with thermal insulation, a drying chamber and a drying agent path connected to it with flow distribution means and a condenser, fan and air heater placed in series with it, a vacuum pump, a condensate drain pipe connected to the bottom of the body, and the outside air inlet piping, equipped with shutoff valves. The path of the drying agent is made in the form of a channel external to the casing, connected at the opposite ends of the casing and equipped with a drain pipe, which together with the bottom drain pipe is connected to a vacuum condensate collector, the drying agent distribution means is made in the form of screens placed on the side wall of the housing, an external air inlet pipe is connected to the upper part of the housing. The installation is equipped with means for dielectric heating of the material (A.S. N 1191703, IPC F 26 B 3/347, 1983). This invention is taken as a prototype.

 The unit is used for vacuum convective drying, without the use of dry outdoor air, because the outside air is only allowed to discharge the vacuum. The thermal energy of condensation is not used in the installation, and a special vacuum collector is used to collect condensate. Due to the fact that the humidity of the drying agent is limited only by the moisture content of the material, the technological capabilities of the installation are limited only by drying and it is impossible to perform other types of heat-moisture treatment, for example, conditioning dry wood. Thus, the installation is complex in design, limited technological capabilities and not fully utilized energy capabilities.

 The essence of the proposed technical solution lies in the fact that in a drying installation containing a sealed cylindrical body with thermal insulation, a path of the drying agent with its distribution means and a condenser, fan and air heater placed in it along the stream, a condensate drain pipe connected to the bottom of the body, and outdoor air inlet pipe equipped with shutoff valves, a vacuum pump, a condenser made in the form of a non-insulated bottom of the body, an external air inlet pipe of air is connected to the housing bottom in the region of its connection arranged recuperative heat exchanger.

 The path of the drying agent is formed by the casing and the inner screen forming the drying chamber, and the means for distributing the drying agent are made in the screen in the form of a distribution grid formed by guide vanes and a fan suction port opposite it.

 The heater is located in the tapering part of the path of the drying agent in front of the distribution grid.

 The vacuum pump is made of liquid ring and is connected to the condenser drain pipe.

 The installation is equipped with at least one exhaust outlet with an adjustable damper located in the upper part of the housing between the fan and the air heater.

 The installation is equipped with a steam generator installed in the path of the drying agent in front of the distribution grid.

 What is new is that the condenser is made in the form of a non-insulated bottom of the housing, an outside air inlet pipe is connected to the bottom of the housing, and a regenerative heat exchanger is placed in the area of its connection.

 The path of the drying agent is formed by the casing and the inner screen forming the drying chamber, and the distribution means of the drying agent are made in the screen in the form of a distribution grid formed by guide vanes and a fan suction agent opposite it.

 The heater is located in the tapering part of the drying agent path in front of the distribution grid, the vacuum pump is made of liquid ring and connected to the condensate drain pipe.

 The camera is equipped with at least one exhaust outlet with an adjustable damper located in the upper part of the housing between the fan and the air heater. The installation is equipped with a steam generator installed in the path of the drying agent in front of the distribution grid.

 During vapor condensation, the hot condensate collected in the bottom of the case heats the recuperative heat exchanger and the condensate drain pipe, and the outside air introduced into the chamber through the inlet piping, passing through the recuperative heat exchanger, is heated and preheated into the drying chamber. In addition, the outside air cooling the non-insulated bottom of the housing is heated and, flowing from the bottom up the housing, heats it from the outside, reducing heat loss by heating the housing. Thus, in the proposed drying installation, it is possible to utilize the heat of the spent drying unit to heat the inlet air and the housing from the outside, thereby ensuring the energy efficiency of the drying installation.

 The compactness of the installation is increased due to the fact that the path of the drying agent is formed by a housing and an inner screen forming a drying chamber, and the flow distribution means are made in the screen in the form of a distribution grid formed by guide vanes and a fan suction opening opposite it.

 Placing the heater in the narrowing of the path of the drying agent, where the speed of the air flow increases along the entire length of the casing, ensures the efficiency and uniformity of heating the drying agent, and by supplying the unit with a steam generator installed in the path of the drying agent in front of the distribution grid, the dryer is efficiently and uniformly moistened agent. The implementation of the vacuum pump liquid ring and connecting it to the condensate drain pipe allows you to drain the condensate through the pump, which eliminates the use of a special vacuum condensate collector, this, in turn, simplifies the design.

 The connection of the external air inlet pipe to the bottom of the case, the placement of a regenerative heat exchanger in the area of its connection and the placement of the exhaust outlet in the upper part of the body provide additional convective mass transfer with the surrounding atmosphere without additional fans. Placement of the exhaust hole in the wall of the cylindrical body in the part of the drying agent path between the fan and the air heater, where the moisture content and pressure of the drying agent are maximum, the temperature is lowered and partial vapor condensation occurs, and the curvilinear shape of the drying agent path ensures the separation of droplet moisture and its outward discharge.

 In addition, the supply of the installation with a steam generator ensures its quick heating at start-up and expands the range of regulation of heat-moisture treatment, providing, for example, the possibility of conditioning dry wood.

 This design of the installation allows convective drying in it at atmospheric pressure or cyclic processes of convective drying — vacuum-convective drying, or conditioning of wood, i.e. makes it universal.

 Thus, the proposed drying installation is compact, simple in design, economical and allows you to expand the technological capabilities of the drying process.

 The drawing shows a drying unit, a cross section.

 The dryer contains a sealed, horizontal, cylindrical body 1 with thermal insulation 2, a drying chamber 3 formed by an inner screen 4. The screen 4 is placed in the housing 1 with the formation of the path of the drying agent 5.

 One of the side walls of the screen 4 is made in the form of a distribution grid formed by guide vanes 6. The bottom of the housing 1 is non-insulated and serves as a capacitor 7. In the other side wall of the screen 4, the opposite distribution grid, there is a suction hole 8 of the centrifugal fan 9. In the upper tapering part of the path of the drying agent 5, in front of the guide vanes 6 of the distribution grid, a heater 10 is placed. The liquid ring vacuum pump 11 by means of a combined pipeline a condensate drain and an outside air inlet 12 is connected to the bottom part 7 of the housing 1. The pipe 12 is equipped with shutoff valves 13. In the connection area of the pipe 12 a regenerative heat exchanger 14 is placed. In the upper part of the housing 1, between the fan 8 and the air heater 10, an exhaust hole 15 s is made connected to it by an exhaust pipe 16 with an adjustable damper 17.

 The installation is also equipped with a drying agent 5 located in the duct, between the fan 8 and the distribution grid formed by the guide vanes 6, with a steam generator 18.

 The processed material (lumber) 19 is placed on the roll-out cart 20.

 The unit is equipped with a temperature and humidity control system (not shown in the diagram).

 Installation works as follows. The lumber 19 is placed on the roll-out carriage 20 and placed in the drying chamber 3. The fan 9 and the air heater 10 are turned on. When conditioning the dry wood and to intensify the heating of the lumber and installation, the steam generator 18 is turned on at the beginning of drying. The drying agent is sucked by the fan 9 from the drying chamber 3, through hole 8 and is fed into the path of the drying agent 5, where, passing the steam generator 18, it is saturated with steam. In the tapering part of the path of the drying agent 5, where the air heater 10 is installed, the flow of the drying agent is accelerated, which ensures intensive heat transfer, and, heated, enters the guide vanes 6 of the distribution grid, turning on which, distributed along the height of the package of the processed material, enters the drying chamber 3 and, in part, to the non-insulated bottom of the hull 7. Condensate that forms abundantly during heating of the unit flows to the bottom 7 of the housing 1, heats the regenerative heat exchanger 14 and flows through the pipe 12, the shutoff valves 13 of which are open. Partially, the heat from the condensate through the non-insulated bottom part 7 of the housing 1 is transferred to the outside air, the convective flow of which flows around the cylindrical housing 1, heating it from the outside. Upon reaching the set temperature and humidity, the steam generator 18 is turned off, the damper 17 is ajar and the drying agent begins to be ejected, through the exhaust hole 15 and the exhaust pipe 16, to the outside. The resulting rarefaction causes a suction of outside air through the outside air inlet pipe 12, which removes heat from the recuperative heat exchanger 14 and, when heated, enters the drying chamber 3. Since the formation of condensate is significantly reduced by this time, it flows down the wall of the pipe 12, without obstructing the flow of outside air. The moisture-saturated drying agent is compressed by the fan 9, which causes partial condensation of moisture, and the curvilinear shape of the path of the drying agent 5 provides centrifugal separation of droplet moisture, which is discarded to the wall of the cylindrical body 1 and is ejected through the exhaust outlet 15.

 By means of shut-off valves 13 and an adjustable shutter 17, the necessary exchange of the drying agent is established. Upon reaching the specified modes, the shutoff valve 13 and the shutter 17 are closed and the vacuum pump 11 is turned on. Since the pump 11 is made of liquid ring, water, both in condensed and in steam form, is easily removed through it.

 In the described construction, the condensate drain pipe and the outside air inlet are combined and the outside air let in is somewhat humidified. Obviously, this can be avoided by separating the pipelines, i.e. at the cost of some design complexity.

Claims (6)

 1. A drying unit comprising a sealed cylindrical body with heat insulation, a drying agent path with its distribution means and a condenser, fan and air heater placed in it along the stream, a vacuum pump, a condensate drain pipe connected to the bottom of the body, and an outside air inlet pipe, equipped with shutoff valves, characterized in that the capacitor is made in the form of the bottom of the housing, the external air inlet pipe is connected to the bottom of the housing and in the area of its connection The recuperative heat exchanger is located.  2. The dryer according to claim 1, characterized in that the path of the drying agent is formed by a casing and an inner screen forming the drying chamber, and the means for distributing the drying agent are made in the screen in the form of a distribution grid formed by guide vanes and a fan suction opposite it.  3. The dryer according to paragraphs. 1 and 2, characterized in that the air heater is placed in the tapering part of the path of the drying agent in front of the distribution grid.  4. The dryer according to claim 1, characterized in that the vacuum pump is made of liquid ring and is connected to a condensate drain pipe.  5. The dryer according to claims 1 and 2, characterized in that it is provided with at least one exhaust outlet with an adjustable damper located in the upper part of the housing between the fan and the air heater.  6. The dryer according to claims 1 and 2, characterized in that it is equipped with a steam generator installed in the path of the drying agent in front of the distribution grid.