DE2826343A1 - Heat exchanger for gases, pref. for air - is folded from ribbed aluminium or plastics strip with staggered flow paths - Google Patents

Abstract

The compact heat exchanger has several plates made e.g. of aluminium or plastics. These are arranged into a plate cluster with parallel plates, and have pressed out parallel for forming flow passages for the gases. The hot gas flows through every other intermediate space between the plates. The cold gas which is to be heated flows through intermediate flow paths. Optimum efficiency is ensured in this heat exchanger at low pressure loss. The plates are made initially from strip material by folding. The ribs (4) of each plate are parallel to each other but staggered. The strip is folded so that the ribs of one plate form flow paths (5) with the adjacent plate.

Description

DIPL-ING. HORST ROSE DIPf ..- iNG. PETER KOSEL

3353 Bad Ganderehelm, ¹⁵ ^. 1978

P.O. Box 129

Hohenhöfen 5

Telephone: (05382) 2842

Telegram address: Siedpatent Badgandersheim

Rederiaktiebolaget Nordstjernan Our file no. 2928/1

Patent application dated June 15, 1978

Rederiaktiebolaget Nordstjernan 3, Stureplan, Stockholm Sweden

Heat exchanger for gases, preferably for air.

The invention relates to a heat exchanger for gases, preferably for Air, in which the gases are passed through thin slits or passages between plates. The invention particularly relates to a heat exchanger with a number of plates in particular

in
Aluminum or plastic arranged in a bundle of plates essentially parallel to one another and provided with essentially parallel ribs pushed out of the plates so that they separate passages for the gases in which warm gas, which is supposed to give off heat, passes through every other space between the plates and cold gas, which is to absorb heat, flows through the other interspaces, and with means for generating the gas flow through these interspaces.

It is known to convert a bundle of plates into a so-called plate heat exchanger zpconnect. In such a construction, normal -

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Bank account: Norddeutsche Landesbank, Bad Gandershelm branch, account no. 22,118,970 Poetscheckkonto: Hannover 66715 970

wisely uses the cross-flow or counter-flow principle, i.e. that the Heat absorbing gas is driven through the heat exchanger in the transverse direction or in the opposite direction to the gas, which gives off its heat. One gas flows in every other passage between the plates and the other gas flows in the other passages. A counterflow heat exchanger brings it is more efficient than other types of heat exchangers.

In addition to achieving a high degree of efficiency, it is also desirable the greatest possible amount of heat within a small size or volume of the heat exchanger and preferably with a minimal consumption of material and at the lowest possible cost. These demands are not easy to reconcile. A small overall volume is obtained by reducing the distance between the plates and at the same time a satisfactory heat transfer is achieved. In contrast, however, the reduced plate spacing results in a higher gas flow resistance and consequently a higher pressure drop.

The object of the invention is to provide a heat exchanger for gases of the initially to create mentioned type, in which despite the low overall height or in spite of small construction volume an optimal efficiency with low pressure loss is achieved.

This object is achieved according to the invention in that the plates are summarized in a starting piece in the form of a band, which has the ribs on each plate in the output piece, which

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Ribs parallel to each other but in opposite directions for each plate Direction are formed and that the plate bundle through

plates
Folding adjacent one on top of the other is made so that the ribs of one plate with the adjacent plate form the passages.

A further embodiment of the invention can be that the Plates in the bundle form a small angle to one another so that the passage area of the longer passages is greater than that of the shorter passages.

The heat exchanger for gases according to the invention is easy to manufacture and with him the problems mentioned above are solved by means of a number of factors which interact with one another in such a way that in the heat exchanger according to the invention optimal properties can be achieved. According to the invention, the plates can be made of plastic or aluminum, which preferably have a thickness of 0.2 to 0.6 mm. They have parallel ribs that are pushed out of the plates, which ribs guide the gas flows distributed over the plate surface, as well as spacing elements for the passages between the Form plates. The passage can preferably be 1-2 mm. In addition, the gas velocity between the plates should be a value such that a laminar gas flow can be maintained consists.

Plates that are made of plastic or at least mainly made of plastic or aluminum are easy to process and correspondingly cheap. The good thermal conductivity of aluminum is well known. But in the same way is the thermal conductivity of plastic good enough; this is especially the case when the

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Plates can be made comparatively thin and yet stiff, which is due to the presence of the ribs. Another advantage of using the plates made of plastic is that this material is comparatively resistant against vapors, weak acids and alkalis, which can be present in the exhaust air from kitchens, for example. A Another advantage of plastic is that its mechanical properties are favorable, as are its elasticity and elongation properties within the temperature range from minus 30 degrees to plus 30 degrees C. There is a lower limit of 0.1 mm for the Thickness of the plates to achieve the required rigidity and the Thickness should not be greater than 1 mm, according to the requirements of good heat transfer. Preferably the thickness should do not exceed 0.6 mm. The length of the plates or at least the length of the gas passage between the plates is determined by the "amounts of heat, which are to be transferred, the number of plates and the selected gas velocity are determined. This means that a larger number of plates can be used in a given volume or that a shorter plate length can be used.

One of the tasks of being pushed out or bulging out of the plate Ribs consists in distributing the gas flows evenly between the plates, thereby preventing a major part of a gas flow from taking the shortest path from inlet to outlet takes between the plates.

Another role of the ribs is to add rigidity to the panels to lend. The thinner the panels, the more ribs are required to keep the panels from relying on an existing pressure drop bent outwards or inwards. The pressure drop during the gas flow or the gas passes between the

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Plates is a function of the distance between the plates, the length the passages and the gas velocity. With a distance between the plates of 1 mm and a passage length of 1 mm, the Pressure drop on the order of 5-10 mm water column at gas velocities that result in laminar flow. The distance In these cases approx. 30 mm can be selected between the ribs with a plate thickness of 0.5 mm.

A third role of the ribs is to keep the distance between the To determine plates. From a general point of view, the distance should be as small as possible because it creates many plates can be arranged within a given construction volume and because a high heat transfer can be achieved as a result. One However, the lower limit for this distance is 1 mm, since if the distance is smaller than this value, there is a risk that the passages will become or clog passages with dirt and capillary effects for moisture appear. An upper limit for the distance between the plates can be set at 5 mm, since the efficiency is at distances greater than this limit becomes unrealistically low. The distance between the plates should preferably be between 1 to 2 mm. The heat transfer value is inversely related to the distance between the plates. An increase in the distance from 1 mm to 2 mm produces half the heat transfer value.

The last condition that is in a heat exchanger according to the invention must be met, consists in that the gas flow between the plates is laminar. This condition is determined on the basis of the fact that a low pressure drop is sought due to the fact that the plastic material is a comparatively weak material, as well as and in particular due to the fact that a high

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Heat transfer value can be achieved with a laminar flow. The condition for the laminar flow can be defined by Reynolds number R. can be determined in what

R _e = ν d / v)
in the

ν = the speed of the flow medium d 3 is the equivalent diameter of double in the case of parallel plates

is as large as the distance between the plates V = the kinematic viscosity

are.

If R is less than about 1.500, then the flow is laminar.

^e 2

For air and other gases, V = 0.05 cm / s and the condition for Laminar flow is then:

ν. d <? 75

The directions of flow of the two gases should be opposite between run along the plates, this way the best efficiency is achieved. If you use a heat exchanger according to the invention is constructed according to the conditions outlined above, an "efficiency of 80% - 90%" can be obtained. Such heat exchanger can be used optimally in houses or other settlements

can be used to utilize the amount of heat in the outflowing air and to supply this amount of heat to the incoming fresh air. The heat exchanger can be designed to be very compact and require little space.

In addition to a simple production of a plate bundle which is produced or obtained in this way, achieves a further advantage due to the fact that a dense Wall along the bundle is obtained and thereby sealing problems

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these places should be avoided.

Based on the drawing, in which schematically an embodiment of the Invention is illustrated, the invention will be explained and described in more detail.

It shows:

1 shows a heat exchanger bundle according to the invention from above,

Fig. 2 is a partial section of two plates that are on top of each other

are in order

3 shows a starting piece for forming a heat exchanger

bundle, and

ever
4a and 4b show a perspective illustration on a reduced scale,

in which it is shown how a heat exchanger bundle is formed from the starting piece according to FIG.

Fig. 1 shows a bundle of plates, 1, from the side. To be heated Fresh air or another gas to be heated is supplied at A and flows off at B. The air used or another gas which heats releases, is fed in at C and discharged at D. The gas flow will generated by suitable means, for example by fans on the Suction or pressure side.

Fig. 2 shows in cross-section two adjacent plates 2, 3 with ribs between the ribs 4 passages or channels 5 are formed.

The deflection of the gas flows at the ends of the plates will not necessarily take place as shown in FIG. The redirection of the

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Passages can be made, for example, along an ^8- quarter of a circle or in some other way. The deflection can also take place only at one end of the plate and with inflow on the right-hand side or with outflow of the gases at the other end.

To achieve the same pressure drop in the passages, whereby equal gas velocities are generated, the passages have the same length. In embodiments where the passages are not the same length, a corrective measure or Correction factor for the pressure drop can be used. This can be done in that the plates are not parallel, but inclined slightly arranged in relation to each other so that the passage cross-section increases slightly with longer passages, based on the shorter passages. The passages can be designed in the same way so that the passage width is smaller in an adapted manner for shorter passages is to maintain the same pressure drop in all ports.

Fig. 3 shows a starting piece for forming a heat exchanger bundle, which is to be arranged in a heat exchanger according to the invention. The panels are connected to each other and form a long, wide band 6. The ribs 4 are similar on all panels and the ribs on every other plate extend in one direction and on the other plates in the opposite direction Direction. The heat exchanger bundle is formed by the Fold panels along the dash-dotted line, as can be seen from Fig. 4a, and the finished bundle is shown in Fig. 4d shown. The manufacture of the heat exchanger bundle is very simple and another advantage is that automatically one closed wall 8 achieved in the bundle along its long sides

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which avoids sealing problems at these points. The passages in this embodiment have different lengths and, as mentioned above, a correction factor is achieved by that the plates are inclined to one another at a small angle, so that the passage cross-section of the longer passages is somewhat larger or rises in relation to the shorter passages. This inclination, which is so adapted that one can see the same Pressure drop achieved in all passages can be seen from Fig. 4d.

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Claims (2)

Claims / 1.1 heat exchanger with a number of plates in particular Aluminum or plastic, which is essentially in a plate bundle are arranged parallel to each other and are provided with substantially parallel, pressed out of the plates ribs so that they Separate passages for the gases, in which warm gas, which should give off heat, through every other space between the Plates and cold gas, which is supposed to absorb heat, flows through the other spaces, and with means for generating the Gas flow through these interspaces, characterized in that the plates in a starting piece in the form of a band (6) are summarized, which the ribs (4) on each plate in Has output piece, which ribs are formed parallel to each other, but running in opposite directions for each plate and that the plate bundle by folding together adjacent plates -2- 809881/0913 Bank account: Norddeutsche Landesbank, Bad Gandershelm branch, account no. 22.118.970 Postal checking account: Hannover 66715 is made one above the other so that the ribs (4) with a plate the adjacent plate form the passages (5). 2. Heat exchanger for gases according to claim 1, characterized in that that the plates in the bundle form a small angle to one another, so that the passage cross-section of the longer passages (5) is larger than that of the shorter ones. 809881/0913