RU2489073C1 - Liquid heating method and device for its implementation - Google Patents

Abstract

FIELD: personal use articles.

SUBSTANCE: invention relates to heat engineering and to methods for heating liquid under industrial and domestic conditions. The liquid heating method is as follows: into the vessel one preliminarily places a device consisting of a plate in the shape of the vessel bottom, with replaceable vertical central and peripheral flat-bottomed rods mounted thereon. Liquid is poured into the vessel to cover the rods top butt-ends. After the liquid has been heated to a specific temperature or to the boiling point, the heat source is switched off. The liquid heating device consists of a plate in the shape of the vessel bottom, with replaceable vertical central and peripheral flat-bottomed rods mounted thereon. The rods upper ends are manufactured in the shape of an upset conic frustrum, the lower base whereof has a diameter equal to that of the rod. The free ends of the bottom butt-ends are positioned within the same plane with the plate bottom surface. The plate and the rods material has heat conductance in excess of that of the vessel material and possesses disinfecting properties. The plate and the rods surfaces roughness value is less than that of the vessel inner surface.

EFFECT: heating process performance increase.

2 cl, 15 dwg

Description

The invention relates to methods for heating liquids, both in industrial and in domestic conditions, for example, for heating water, milk or other liquids.

A known method [1, p. 31] of heating or boiling a liquid, which consists in the fact that liquid is poured into a tank with an expanded bottom, and the tank, in turn, is installed above a heat source, for example, above a flame of a gas burner or above a heat source from an electric current (electric stove). The container has the shape of a truncated cone, in which the diameter of the bottom is larger than the diameter of the neck through which liquid is poured into the container. The positive side of this method is that heat is supplied to the heated fluid through a large area, which slightly increases the productivity of the heating process, for example, compared with the first method. This method does not fundamentally solve the issue of increasing the productivity of the heating process of the liquid, both in terms of reducing the duration of heating and saving energy.

The closest in technical essence to the present invention is a method [1, p. 3] of heating a liquid when the liquid is poured into a container of constant diameter with a flat bottom, and the container, in turn, is installed above a heat source, for example, above a flame of a gas burner or above heat source from electric current (electric stove). The disadvantage of this method is also the long duration of heating or boiling the liquid, since heat is supplied to the liquid from only one side (usually from the bottom) and in a limited area. As a result of this phenomenon, a lot of time and energy of a heat source are spent on heating or boiling a unit volume of a liquid.

Thus, a drawback of existing methods for heating a liquid in a tank installed above a heat source is the duration of the process and the large expenditure of energy for heating a unit volume of the liquid. The reason for this is the supply of heat from one side, from below, from the side of the flat bottom and through a limited area. The site is limited, as a rule, by the area of the flat bottom of the tank.

The aim of the invention is to reduce the duration of heating or boiling a unit volume of liquid, and as a result, saving time and energy supplied for heating or boiling a liquid. The source of energy can be domestic gas, electricity or any other source.

The essence of the invention lies in the fact that a flat plate with replaceable central and peripheral cylindrical rods is pre-installed on the surface of the inner bottom of the tank. Then, liquid is added to the container, which must be heated. The capacity, in turn, is installed above the heat source. The upper ends of the cylindrical rods, having the shape of an inverted truncated cone, should be below the upper level of the liquid, that is, covered with liquid. The plate and cylindrical rods have a thermal conductivity greater than the thermal conductivity of the bottom material of the tank, firstly, secondly, they must be made of a disinfectant material, for example silver, if the liquid is not brought to a boil during heating. If the liquid is brought to a boil during heating, then the plate and rods can be made of material with only high thermal conductivity than the thermal conductivity of the container material. When heating milk and dairy and other products used for food purposes, the plate and rods must be made of disinfectant material. Heat from the source is first transferred to the bottom of the tank, then to the plate. Heat is transferred from the plate to the rods and from the rods to the liquid. That is, volumetric heating of the liquid occurs, and not surface heating. That is, in known heating methods, heat is distributed sequentially from the bottom surface of the bottom of the tank upward, into the interior of the liquid volume. When applying the proposed method, heat is simultaneously distributed from the lower surface of the bottom of the tank to the inside and, in addition to this, is immediately supplied to the inside and the upper layers of the liquid volume.

Thus, in the proposed method, heat from the source is supplied to the liquid being heated not only through the bottom of the container, limited in area, but also through the rods inward and to the upper layers of the liquid volume, which accelerates the process of heating the liquid in comparison with the known methods. The shape of the plate depends on the shape of the bottom of the container, for example, if the bottom of the container has a rectangular shape, then the plate must have a rectangular shape, if it is round, then the plate must have a round shape, if the other is arbitrary, then the plate must have a different - arbitrary shape. In another way, the shape of the plate should copy the shape of the bottom of the container. This is due to the fact that it is necessary to cover the largest possible area and volume of the tank with the help of rods. The minimum number of rods may be equal to one, and the maximum number is proportional to the area of the bottom of the tank. The rods on the plate are installed with the possibility of their subsequent removal, for example on the thread, that is, if necessary, you can adjust the number of rods on the plate. The rods are mounted on the plate in through threaded holes so that after they are wrapped, their ends are flush with the bottom plane of the plate. This allows the rods to directly contact the bottom of the tank, and through it with a heat source. What else increases the efficiency of the rods in terms of heat transfer to the internal volume of the liquid. The manufacture of the upper ends of the rods in the form of an inverted truncated cone allows you to increase the contact area of the upper layers of the liquid with the surface of the rod and thereby accelerate the heating process. The roughness of the surfaces of the plate and the rods is less important than the roughness of the inner surface of the tank, which increases the rate of heat transfer from the surface of the plate and the rods of the liquid.

Figure 1 (front view) shows a container for heating the liquid in the form of a rectangular shape, that is, the bottom of the container has a rectangular shape. Figure 2 shows the same rectangular-shaped container, top view.

Figure 3 (front view) shows a tank for heating a liquid of cylindrical shape, that is, the bottom of the tank has a circular shape. Figure 4 shows the same cylindrical shape, top view.

Figure 5 (front view) shows the capacity of another (arbitrary) shape. Figure 6 shows the same capacity of arbitrary shape, top view.

Figure 7 shows the capacity of a cylindrical shape, which has a constant diameter of D ₁ in height. The number 1 indicates the capacity, the number 2 is the heat source located under the bottom of the tank 1. The sign α is the angle of heat coverage of the bottom of the tank.

On Fig shows a container with an increased diameter of the bottom, in which the diameter of the bottom D ₃ > D ₂ . D ₂ - the diameter of the filler neck of the tank 1. The remaining designations are the same as in Fig.7. The letter x indicates the distance from the epicenter of the heat source to the bottom of the tank.

It must be borne in mind that the angle of coverage α depends on the distance - x of the epicenter of the heat source 2 from the bottom of the tank 1. Provided that D ₁ = D ₂ and the same value x, the angle of coverage α of the tank with a bottom of increased diameter D ₃ will be larger, than a container of constant diameter D ₁ , since D ₃ > D ₂ , that is, α ₂ > α ₂ .

Figure 9 (front view) shows a plate with rods, which is installed on the inner surface of the bottom of the container of a rectangular shape. Figure 10 shows the same plate (top view).

11 (front view) shows a plate with rods, which is installed in a cylindrical container of constant diameter. 12 shows the same plate (top view).

On Fig (front view) shows a plate with rods, which is installed in a container of arbitrary shape. On Fig shows the same plate, which (top view).

In figures 9, 10, 11, 12, 13, 14, the following notation is adopted: 2 - plate; 3 - the central rod; 4 - peripheral rods; A and B are the width and length of the rectangular plate 2; D ₄ - the diameter of the plate is round; d ₁ - the diameter of the large base of the conical part of the rods 3 and 4; d is the diameter of the rods; l is the height of the conical part of the rods; S is the thickness of the plate 2.

On Fig (front view) shows a diagram of the method, where the following notation: H - the height of the liquid level; h ₁ - the overlap height of the upper liquid level of the ends of the rods; h is the distance from the upper end of the tank to the upper liquid level.

Heating the liquid using the proposed device is carried out in the following sequence. Previously, the plate 2 of the corresponding shape (the shape depends on the shape of the bottom of the tank and can be any, starting from rectangular, cylindrical and any arbitrary) is installed in the tank 1, as shown in Fig. 15. Liquid is poured into the container to a level of height N. The liquid level should be higher than the upper end of the free end of rods 3 and 4 by the value of h ₁ . The capacity is installed above the heat source 2 (Fig.7 and 8) and the heating process begins. Heating can be carried out to a certain temperature or bring the liquid to a boil, then the heat source is turned off.

The technical effect is achieved by transferring heat into the inside of the tank of the heated fluid through the plate and the rods installed on it. The time of heating the liquid is reduced, that is, the productivity of the heating process is increased and energy is saved for heating a unit volume of the liquid.

Information sources

1. Faye Sweet. The kitchen. Practical tips for designing and decorating your home. Translation from English S. Kormashova. / Publishing House "Christina", 1997, 64 p.

Claims (2)

1. The method of heating the liquid, which consists in the fact that the liquid is pre-poured into a container of constant diameter in height to a certain level, then the container with liquid is placed above the heat source and the liquid is heated, characterized in that a device consisting of a plate is pre-installed in the container having the shape of the bottom of the tank, with removable vertical central and peripheral rods attached to it, then pour liquid into the tank to a level so that it covers the upper ends of the rods and mkost placed above a heat source, after a heating fluid to a predetermined temperature or boiling, the heat source is turned off. 2. A device for heating the liquid, characterized in that it consists of a plate having the shape of the bottom of the tank with removable vertical and central rods fixed to it, the upper ends of the rods being made in the form of an inverted truncated cone, the lower base of which has a diameter equal to the diameter rod, and the free ends of the lower ends are located on the same plane with the bottom surface of the plate, the material of the plate and rods has a thermal conductivity greater than the material of the container and has a disinfectant lining properties, and the surface roughness of the plate and the rods is less important than the roughness of the inner surface of the tank.

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