DE98324C - - Google Patents

Description

IMPERIAL

The purpose of the invention is for the evaporation of liquids which absorb the heat To process the heat supplied to the surfaces in the same time in which it is generated by the heat emitting, so that the former can continuously absorb new heat, so neither to be increased need, still oversaturate.

To achieve this purpose, a vessel is inserted into the new device of plates, disks, helically wound sheet metal, etc., which are connected to the heat emitting Face as intimately and as closely as possible in contact, i.e. one with it form a metallic whole and thereby enlarge them considerably, into many small cells, those that are connected to one another are disassembled, and those that have arisen in this way large areas used for the complete utilization of the fire gases, in spite of the large amount in itself smaller external dimensions of the vessel.

In the illustrated embodiments of the inventive concept identified above, the vessel used for heating is shown in FIGS. 1 and 2 as a tube A , the cells of which are formed by inserted thin plates α with good thermal conductivity, the edge b of which is turned inside out. This edge, which widens slightly conically, has the diameter of the clear width of the tube remainder, so that the plates not only go into tube A like a gauge, but have to be pressed tightly, i.e. through their surface contact with the heat-emitting surface B. Form a whole and thereby make it considerably larger than the heat-absorbing surface C. In practice, they have their temperature and are able to transfer the received heat immediately to the innermost part of the fluid that envelops the cells. These plates also act in such a way that they compensate for temperature differences due to increased circulation by absorbing and releasing heat inside. This circulation takes place not only as a whole, but also in the individual cells.

For evaporation purposes, the plates are opened up so tightly that the free end of the edge b always touches the neighboring plate, so that the height of the edges b enables the distance of the plates a from one another to be precisely determined and thus the entire interior of the The tube A is divided into capillary cells at a correspondingly small height of the edges b , so that the fluid enters them by adhesion, and the formation of the spheroidal state becomes impossible when heated. At the ends of the pipe A or on the connecting pieces which combine several such pipes into an operational boiler, devices are attached, e.g. B. the screw e, which press the edges b together, so as to ensure the intimate contact of the plates both under themselves and with the pipes in all cases. For cleaning purposes, the plates can be removed from the pipe after removing this screw.

One or more holes or channels cd are arranged in order to give the liquid access to the cells and the vapor formed to be able to withdraw freely therefrom. The main connection opening c is best located in the middle of the plate a, because this is where the heat supplied from the periphery is given off. So no line material is lost through the opening, and "because here the vapor has the most free outlet. The smallest holes d, which are located on the circumference of the plate α , give the liquid a sufficient connection and prevent the vapor that may form there from sticking blown in. As shown in the embodiment of Figure 3 is visible., the plates can also be arranged around a tube, and then forms the remaining free space c the exhaust path for the steam.

If there is liquid in the vessel A which is to be evaporated, the outer surface C first absorbs the heat supplied to it and immediately releases it through the surface B, the adjoining edges b and the plates α to the liquid in the cells. An extraordinarily lively circulation arises in them, and, depending on the amount of heat supplied, vaporization occurs immediately. The steam enters the channel formed by the holes c and goes into the steam collector, thus making room for the liquid, so that new can enter. But since this again requires new heat for its evaporation, the heat supplied to the surface C is immediately processed again, and this process continues uninterrupted, so that overheating of the heat-absorbing surface C is impossible. As a result of this the spheroidal state never occurs, even with the greatest supply of heat; but the same can be achieved by creating capillary cells by measuring them. The liquid that is entrained during evaporation is deposited again on the next plates or falls back into the cells and is held there by adhesion until it has absorbed enough heat to convert into vapor form.

Wet steam in the cells is also dried quickly and completely and even enters the steam collector when it is overheated. The superheater is protected from glowing as a result of the rapid heat emission. As an essential advantage · result from the new Vertheilungsart in many together ^one adjacent cells due to the aufserordentlichen heat processing capability very compact cameras. As a result of the lively circulation of the liquid in the cells and the rapid evaporation, the scale that forms does not find time to deposit in solid form, but is carried away as a fine powder by the steam and settles in the form of a sludge in the steam collector, from which it can be easily removed.

The following advantage is also obtained with steam generators. By the low The supply of superheated water has minimized the risk of explosion. Nevertheless, there is the possibility of storing large amounts of heat, if enough metal masses are used, which give no dead weight here.

Claims (3)

Patent claims: 1. A device for the evaporation of liquids, characterized in that dafs in the immediate connection to the heated walls of a vessel enclosing them, independent narrow cells for Absorption of the liquid are arranged one above the other, which through a common Channel or several of them are connected to each other in such a way that, when vapors are generated, these are connected can be discharged immediately through the channel. 2. A device according to claim ι, in which the cells are inserted into tubes Plates are formed, with good heat transfer at the same time by arranging edges on the inserts secured and the distance between the cells is determined. 3. In devices according to claim 2, the conical shape of the deposits to the Purpose to generate a powerful vortex through the action of the nozzle. 1 sheet of drawings.