DE1263035B - Air-cooled large heat exchanger with a fan and a large number of heat exchange elements arranged on a circumference - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY

GERMAN

PATENT OFFICE

EDITORIAL

Int. Cl .:

F28d

German KL: 17 f- 5/20

Number: 1263 035

File number: . Sch 379761 a / 17 f

Filing date: November 5, 1965

Opening day: March 14, 1968

The invention relates to an air-cooled large heat exchanger, which consists of a fan and a Large number of coaxially arranged in front of or behind, above or below the fan on a circumference There is heat exchange elements. Such a heat exchanger is shown in Figure 1 on page 10 of the VDI magazine from January 1, 1960 known.

The constant enlargement of the power generation plants as well as the production facilities large chemical industries increasingly require the dissipation of large amounts of heat, in these processes, for reasons of economy, only with a small temperature gradient against the ambient temperature. So you have the incurred with the previous systems Amounts of heat mostly discharged into rivers or, if this is not available at the site of the works stand, discharged via cooling towers sprinkled with water. For biological reasons it is The rivers' ability to absorb heat is limited and in many cases already exhausted. The application of cooling towers sprinkled with water are also limited in that as a result of this associated evaporation, large amounts of process water are lost.

It is known that one solution to the problems discussed above is to use atmospheric air which is available in unlimited quantities to remove large amounts of heat that occur use. However, due to the extremely low specific heat of the air relative to water In such air coolers, very large amounts of air are driven through the cooler. So is in a known embodiment, the proposal has already been made, mostly made of finned tubes to arrange existing heat exchange elements in the form of a roof and the ambient air with the help of a larger number of upstream or downstream To blow axial fans through the heat exchange elements. As a result of However, the relatively high capital and energy costs of the axial fans will reduce the profitability of the Cooler adversely affected.

In this context, the proposal has also already been made, the individual To arrange heat exchange elements in the form of a pent roof and below the same one to arrange the belt fan supplying the cooling air. This construction has, presumably because of the high Construction costs and the susceptibility of the movable folding fan blades required here found no entry into the practice.

Air-cooled large heat exchanger with a fan and a number on a circumference arranged heat exchange elements

Applicant:

Dr.-Ing. Günter Scholl,

7300 Esslingen, Mülbergerstr. 21

Named as inventor:

Dr.-Ing. Günter Scholl, 7300 Esslingen

Finally, it is known to arrange the heat exchange elements on the lower part of a chimney (circular giant chimney) and to ventilate them without a fan due to the buoyancy of the heated air in the chimney. In order to achieve a sufficiently high differential draft, chimneys with a height of 100 meters and more are required. With the current size of the power generation systems and the air volumes to be moved in the order of 100 million m ^s / h, the chimney diameters are in the order of 100 m and more. In addition to the high construction costs of such chimneys, these so-called self-ventilating coolers have the main disadvantage that the cooling capacity depends on the respective external atmospheric conditions.

On the basis of the known embodiment mentioned at the outset, the invention is based on the object to find a design for particularly high air throughput, in which neither a high vent nor numerous individual fans are required and both relatively low construction costs and low operating costs can be achieved.

According to the invention, this object is achieved in that one or more endless fans are used as fans Shovel grids are arranged on one or more circular running rails, which are on guide and Support the drive rollers.

This type of construction according to the invention is not only characterized by relatively simple and therefore cheap components from, but also only requires a relatively low expenditure of effort to deal with the occurring Overcoming friction losses between rails and rollers. While the diameter of the smallest Design of this ring-shaped heat exchanger generally larger than the maximum diameter of axial fans, the largest version can easily be selected so large that inside

809 518/459

half of the ring-shaped heat exchanger is to accommodate the entire power plant. The inventive Heat exchanger can be designed for any performance and is in the Practice is always of interest when the performance of an axial fan is no longer sufficient.

Here, in an embodiment of the invention, the individual heat exchange elements from one A plurality of hollow-vane-like pockets, each with FIG. 3, are the heat exchange elements 1 as in The main part is made of flat pockets S, the ends of which, facing the moving blade grid 7, are as follows are bent so that the air emerging from the blade grille 7 is as smooth as possible and without change their speed between the pockets 8 can flow through. On the air outlet side on the other hand, the outflow ends 12 of the pockets run out at an acute angle and thus cause a diffuser

Flat, corrugated or also sickle-shaped canal expansion in cross-section.

shaped surface. In the event of a negative pressure in the pockets 8

In order to remove the from the circumferential blade grille, the walls thereof are covered by inserted corrugated metal sheets 13

Air outlet supported with high tangential components. If there is overpressure in the pockets 8

speed with to increase the heat transfer analogously through the arrangement of such corrugated sheets

To take advantage of the load, it is also advantageous that a support can be achieved in the air ducts,

the ends facing the blade grate of the case shown in FIG. 4 shown embodiment

Pockets against the direction of rotation of the shovel, the pockets 9 are made of corrugated sheet metal,

lattice are bent at an acute angle. whereby a

Finally, the pressure-resistant training between the pockets can be achieved. The sensitive ones Air ducts either as a result of acute angled blade ends 11 and 12 are used here angular design of the outflow ends of the pockets for the same purpose as in the execution or by subsequently arranged guide vanes Fig. 3.

Expand diffuser-like, so that the high air The Fig. 5 shows an embodiment in which the speed in the heat exchanger in front of the heat exchange element a guide vane-like outlet the air into the atmosphere at least partially 25 formation in the form of sickle-shaped pockets 10

converted into static pressure and thus the energy requirements of the air-cooled large heat exchanger is lowered.

Embodiments of the invention are shown in the drawing. It shows F i g. 1 shows the section of a first embodiment, FIG. 2 the section of a second embodiment,

F i g. 3 to 5 sections of the movable paddle grid and the heat exchange elements.

Fig. 1 shows a section of the first, horizontal Embodiment consisting of a ring of heat exchange elements 1 and serving for cooling a blade grille 2 serving as a fan. Its blades form with the two circular ones Running rails 3 an endless paddle grid that revolves on rollers 4, some of which are driven directly by electric motors 5. The axis of rotation of the system, which for reasons of space is not more is shown in the drawing, is on the left outside the drawing. The heat exchange elements 1 and the rollers 4 carrying the shovel grate 2 are arranged on high supports 6 so that the. Cooling air can flow unhindered in the direction of the arrows into the blade grille 2 and, if the power plant is located, for example, within the large heat exchanger, so easily people and Vehicles have access.

The F i g. 2 shows the section of the second, vertical embodiment, whose axis of rotation is also on the left is outside the drawing. Here, too, the blades of the blade grid 2 form with the circular ones Running rails 3 have an endless ring of blades which revolve or through on the rollers 4 this is led. In this case, too, some of the rollers 4 are driven by the electric motors 5. The direction of flow of the cooling air is as in FIG. 1 indicated by arrows »

The F i g. 3 to 5 show sections of the blade grating rotating in the direction of the arrow indicated 7 with the guide vane-like hollow pockets 8, 9 and 10 of the heat exchange elements 1. According to FIG has and reduced by subsequent guide vanes 14 and the exit speed of the air is converted into static pressure.

Claims (4)

Patent claims: 1. Air-cooled large heat exchanger, consisting of a fan and a large number arranged coaxially, in front of or behind, above or below the fan on a circumference Heat exchange elements, characterized that as a fan one or more endless blade grids (2, 7) on one or more circular rails (3) are arranged, which are on guide and drive rollers (4) prop up. 2. Heat exchanger according to claim 1, characterized in that the heat exchange elements (1) from a large number of pockets (8, 9, 10) with a flat, corrugated or cross-section crescent-shaped surface. 3. Heat exchanger according to claim 1 and 2, characterized in that the vane grille (2, 7) facing ends (11) of the pockets (8, 9, 10) counter to the direction of rotation of the blade grille (2, 7) are bent at an acute angle, 4. Heat exchanger according to claim 1 to 3, characterized in that the air channels located between the pockets (8, 9, 10) expand like a diffuser either as a result of an acute-angled design of the outflow ends (12) of the pockets or by subsequently arranged guide vanes (14). Considered publications: German Auslegeschrift No. 1193 523, 1001696; French Patent Specification No. 918616; 819 621; VDI magazine, dated January 1, 1960, p. 10; Heating — ventilation — building services, from December 1957, p. 316. 1 sheet of drawings 809 518/459 3.68 © Bundesdruckerei Berlin