DE19924624A1 - Drying products of low thermal conductivity, is achieved by simultaneous employment of microwaves, heating elements and reduced pressure - Google Patents

Abstract

Microwave radiators (3) and elements (5) heat the products being dried, under reduced pressure An Independent claim is included for corresponding equipment to carry out the process. The equipment is placed in a pressure (sic) vessel, in which pumping reduces the pressure. Preferred features: Microwaves hold product temperature higher internally, than at the surface heated by the elements, during drying. The product, lying on a conveyor (2), is carried past the radiators and elements. The entire width of the product across the belt is irradiated, as it is moved past. Radiators and elements alternate in succession, along the belt. The process runs continuously. Spacing between two successive microwave radiators is selected to set up a temperature differential in the product, in the manner indicated earlier.

Description

The invention relates to a method and an apparatus for Drying of products under negative pressure, especially of Products with a low thermal conductivity.

A variety of products are available for drying different products into consideration, which are listed under different conditions can exist. You can at for example, be liquid, granular, pasty or lumpy. Through the drying process, these products become damp, consisting of water and any solvents, withdrawn. Drying is done by using thermal products Energy is supplied, which heats them. The partial pressure the moisture in the product is created by heating it increases, so that more liquid in the gaseous phase occurs. Is the evaporated liquid, for example, by If a warm draft is removed, liquid evaporates again and drying of the product begins.

The thermal energy can pass through the product to be dried different heating elements are supplied. The energy supply can with conventional contact or convection drying for example by means of heating elements that are powered by steam, Hot water, thermal oil or hot air / vapors or others Way to be heated. From the nature of this drying process  it follows that the drying speed and the The quality of the final result is a determining factor influencing heat conductivity of the product to be dried. The thermal conductivity capability is the quotient of the heat flow and the product of flow area and temperature gradient; as physika In terms of size, it wears the unit W / (mK). It indicates how the heat flow caused by a temperature gradient in a body decreases, having great thermal conductivity means that the temperature spreads well in the body. For example, a product has a low thermal conductivity it is difficult to heat it evenly. Accordingly, it dries worse and slower. With pasty Products can also, regardless of the properties visually the thermal conductivity, the problem still occur that the product dries unevenly, making it difficult is to provide uniform drying over the layer thickness len.

The object of the invention is a drying device and a drying process for a quick and even Drying of dielectric lossy products create without overheating them.

The task is solved in that the product to be dried by at least one microwave radiator and at least one Heating element is heated. The one from the microwave radiator outgoing radiation spreads as an electromagnetic wave out. The microwave range is generally with frequencies between about 300 MHz and about 300 GHz. To the high-frequency part of the spectrum, the infrared closes radiation. When exposed to microwaves on a dielek tric lossy substance in the substance in ther mixed energy converted, whereby the substance is heated. The The way in which the radiation heats up depends on this on the depth of penetration of radiation into the body, the propor tional to the wavelength, and the absorption capacity of the Body. Water, for example, has a high absorption capacity for microwaves, so that a damp body in the  Area of penetration by which microwaves are heated. If the dumping height of the product is less than the penetration depth of microwaves, the heating in the product core also takes place not lumpy or homogeneous product accumulations, for example wise for powdery or granular accumulations Products, because the moisture density and therefore the absorbed energy is greatest. According to the invention this property becomes a body inside heat, used in the products to be dried. The of The Pro heats up radiation emitted by the microwave radiator products from the core, while the heat from is brought in from the surface. By working together Microwave heater and heating element can be too dry product can be introduced particularly effectively. In particular, this also applies to products with a low one Thermal conductivity, because by heating the core and upper surface of the product for transporting the heat introduced the drying process plays a subordinate role.

Compared to a conventional drying process, the works exclusively with a microwave radiator the method according to the invention is fast and uniform drying of the product. Even a body with good thermal conductivity is achieved by the combination of Microwave heater and heating element in an advantageous manner evenly heated. Because during the drying process ver prevents the heating element from losing too much heat Surface of the product to be dried, which causes drying is prevented. Also a removal of the steam from the Surface is supported by the heating element, which means that Drying is accelerated.

The removal of the steam from the product is still an issue amplified that by the action of microwaves outgoing radiation emits the temperature inside the In any case, during the entire drying process then higher than on his upper heated by the heating element area is kept when the dumping height is less than that  Microwave penetration depth. With the combination of micro Wave emitter and heating element becomes an inside out temperature gradient in the product to be dried built up. Along this temperature gradient there is moisture transport from the product to be dried to the surface where it is evaporated and transported away. Important to the interaction of microwave radiator and heating element, that premature drying of the surface is avoided. By increasing the surface temperature through the heating element the surface remains permeable to moisture, so that effective moisture wicking from the inside out can take place. Also ver. Inside the product steamed moisture can so easily through the surface of the Product to be dried to the outside, for example as a porous structure is preserved or the formation of a film closing the surface is avoided. It becomes a compared to conventional drying process achieved significantly higher drying speed.

The product is expediently dried during drying process lying on a conveyor element on the microwaves spotlight and passed the heating element. By use tion of a conveyor element, it is possible to use the heating element and to arrange the microwave radiator stationary. The Förderele ment can be, for example, as a conveyor belt or as one rotating disc or annular disc.

To support the drying process, it is advantageous to the product of the action of the heating element and the microwave lenstrahlers in a pressure vessel in which a negative pressure rules to suspend. With the vacuum, the outlet of the moisture vapor from the product to be dried fold. The negative pressure in the pressure vessel is due to this connected vacuum pumps. On the surface of the too Drying product can use the moisture vapor at negative pressure or easier to exit and be removed in a vacuum. The negative pressure thus supports the effect of the outside directed temperature gradient, which is achieved by using  Microwave emitter and heating element is generated. Is too here particularly advantageous that even with a fast Drying at a lower temperature than conventional process can be worked and so the product ge is spared. It is therefore possible, for. B. thermosensitive Plastic parts quickly and easily at low temperatures drying.

It is special for the automation of product manufacture it is advantageous that the drying process is continuous can expire. The continuous process flow is through the short drying time for the product is possible. A continuous The process can be carried out together with the manufacturer development process run automatically and directly connect this.

The object underlying the invention is also achieved by the aforementioned device solved, in which at least one Heizel ement and at least one microwave radiator for heating the product to be dried are provided. By using it both at least one heating element and at least one Microwave emitter can, as already described above ben, the product particularly quickly, gently and evenly be dried. With such a device, the drying products, especially products with a low Thermal conductivity, heated from the inside and outside, so that the existing moisture quickly escapes and is carried away becomes.

For handling the products in a pre according to the invention direction, it is particularly advantageous if a conveyor element for transport between a drop point and a removal place is provided. The material to be dried is on this filed. In the presence of such a conveyor element can Microwave heater and heating element with the device ver be bound, the product to be dried by their Area of effect from the point of delivery to the point of withdrawal is transported.  

In a training that is particularly favorable for automation The device is the conveyor element as a conveyor belt trained, with microwave emitter and heating element (s) are arranged along the conveyor belt. In such a pre The product to be dried is directed towards the point of delivery brought on the conveyor belt and lying on it on the Microwave emitter and past the heating element to the Ent take place led. It should be noted that the funding tied up from both for exposure to microwaves as well also suitable for the supply of heat by the heating element Material exists.

In a particularly economical and inexpensive way constituting embodiment of the device according to the invention can have multiple microwave heaters and multiple heating elements be arranged alternately along the conveyor belt.

With the use of a contact heater as a heating element a particularly effective heating of the surface of the drying product can be achieved.

In a preferred embodiment of the device Distance between two successive microwave radiators chosen such that the product during the supply of heat through the heating element to a temperature inside it points, which is higher than on its surface. By a this effect is caused by the spacing of the microwaves spotlight their number is minimized in the device. This lowers costs and ensures high efficiency the device. In the time between two successive The heating caused by the microwave radiators cools down Temperature in the core of the product decreases, together with the escaping liquid a proportion of that contained in the core the amount of heat is dissipated. At the same time the tempera ture of the surface increased by the heating element. Before that Surface temperature is the value of the temperature in the core enough, the product is again the radiation of the microwave exposed to increase the temperature in the core.  

The microwave radiator and the heating element are in one Pressure vessel in which a vacuum is created by pumping can, arranged. The vacuum supports drying operation in the manner already described.

An advantageous embodiment is shown in the drawing described.

The figure shows a section of a belt dryer 1 . The section shown can be arranged, for example, in a vacuum chamber (not shown), so that in the section presented there is a negative pressure, for example of a few mbar. On the conveyor belt marked with 2 , the material to be dried is transported from left to right.

As an alternative to the conveyor belt shown, others can also be used Types of conveyor elements are used. For example can also use ring or spiral conveyor elements become. The geometry of the pressure vessel and conveyor element can be coordinated so that the Space in the pressure tank for the opti product to be dried is exploited.

Along the conveyor belt 2 , three microwaves 3 are arranged at a distance from one another in the section shown. The microwave radiator 3 are directed with their radiation cone 4 on the conveyor belt 2 .

Microwave emitters with a wide frequency spectrum can be used. Heating elements 5 are arranged between the microwave radiators 3 . In the exemplary embodiment shown, the heating elements are only arranged between the microwave radiators, but they can also be provided in the region of the microwave radiators for action on the product to be dried. The distance 6 between the microwave beams is selected so that the temperature profile shown below occurs in the product to be dried. If the product is exposed to the microwaves, the temperature in the core rises. If the product is outside the radiation cone, the temperature in the core cools down due to the removed moisture and the radiated heat. In this area, the heating element acts on the product to be dried and increases the temperature on the surface. Before the temperature on the surface rises higher than in the core, the product to be dried has entered the radiation cone of the subsequent microwave emitter. With this arrangement, the advantageous effect of the invention of uniform heating of the product to be dried is achieved with a simultaneous reduction in the number of microwave radiators. With the aforementioned dimensioning of the distance 6 it is achieved that an outward temperature gradient is present in the material to be dried during the entire drying process.

The heating elements 5 can be designed, for example, as conventional hot water or steam heating. The Heizel ement here has lines (not shown) through which the heating medium, for. B. hot water, steam or thermal oil is performed. The heating elements 5 shown can be interconnected. The heating elements can also be electrically heated if necessary.

Reference list

1

Belt dryer

2nd

Conveyor belt

3rd

Microwave oven

4th

Radiation cone

5

Heating element

6

distance

Claims (12)

1. A method for drying products, in particular products with a low thermal conductivity, characterized in that the product to be dried is heated under vacuum by at least one microwave radiator ( 3 ) and at least one heating element ( 5 ). 2. The method according to claim 1, characterized in that the temperature inside the product during the drying process is kept higher than on its heated by the heating element ( 5 ) by the action of the radiation emanating from the radiation ( 3 ). 3. The method according to claim 1 or 2, characterized in that the product lying on a conveying element ( 2 ) lying past the Mi microwave radiator ( 3 ) and the heating element ( 5 ). 4. The method according to claim 3, characterized in that the entire width transversely to the conveying direction of the product is essentially irradiated by the microwave radiator ( 3 ). 5. The method according to any one of claims 1 to 4, characterized in that the microwave radiator ( 3 ) and the Heizele element ( 5 ) act alternately one after the other on an area of the product. 6. The method according to any one of claims 1 to 5, characterized ge indicates that the process is ongoing. 7. Device for drying products, in particular products with a low thermal conductivity, characterized in that at least one heating element ( 5 ) and at least one microwave radiator ( 3 ) are provided for heating the product to be dried and microwave radiators ( 3 ) and Heating element ( 5 ) are arranged in a pressure vessel in which a vacuum can be generated by pumping. 8. The device according to claim 7, characterized in that a conveying element ( 2 ) for transport between a task and a removal point is provided on which the material to be dried is stored. 9. The device according to claim 8, characterized in that the conveyor element is designed as a conveyor belt ( 2 ) and along the conveyor belt of the microwave radiator and the heating element ( 5 ) are arranged for the products to be dried. 10. The device according to claim 9, characterized in that a plurality of microwave radiators ( 3 ) and a plurality of heating elements are alternately arranged along the conveyor belt ( 2 ). 11. The device according to claim 10, characterized in that the heating element ( 5 ) is designed as a contact heater. 12. The apparatus of claim 10 or 11, characterized in that the distance ( 6 ) between two successive microwave radiators is chosen so that the product has a temperature in its interior during the supply of heat by the heating element ( 5 ), which is higher than its surface is.