ES2390438B1 - EXPLOSION INHIBITOR DEVICE - Google Patents

Abstract

Wave suppressor device. # The invention provides a wave suppressor device for fluid conduits. # The device comprises at least one structure (1) consisting of a packing of at least one panel (2), each panel (2) having a plurality of openings (4), with the periphery of the openings (4) forming walls (5) projecting transversely to the panel.

Description

WAVE SUPPRESSOR DEVICE

D E S C R 1 P TION

5

OBJECT AND TECHNICAL FIELD OF THE INVENTION

The present invention relates to devices for

10

suppress, reduce or dissipate all types of waves, such as

mechanical, calorific, sound or electromagnetic,

around or inside bodies such as ducts and

fluid deposits (liquids or gases).

The invention especially relates to ducts and

fifteen

deposits of flammable fluids (liquids or gases) or

explosives, such as fuels and LPG gases ("Liquid

Petroleum Gas ", liquefied petroleum gases), including

varnishes, paints f solvents f derived products

organic and inorganic, alcohols, ethanol, toluene,

2 o

ethers f petrol f déseles, military fuels,

aviation fuels, bio-fuels, hydrogen, etc.

The invention is conceived in particular, but without

limitation, to detect or delay the ignition,

combustion, deflagration, detonation or explosion of a

25

flammable or explosive fluid confined in a duct or

Deposit .

The term "conduit" includes herein

descriptive the concepts of "driving", "t ubo",

"pipe", "pipe" and in general any means of

30

confinement of a fluid through which the fluid can

move . Also herein, the term

"deposit" includes the concepts of "container", "tank",

"bottle", "container" and in general any means of

confinement of a fluid in which the fluid can be stored. The invention is particularly conceived, but not limited, for use in delivery systems of

5 fuel from gas stations and refueling stations, such as discharge, suction and fuel vent pipes. Likewise, the invention is intended for application to any type of deposit and duct, such as for example aircraft and aircraft deposits.

10 ships, pipelines, gas pipelines, etc. The invention is also intended for application as a cover or coating as a suppressor device for waves emitted from outside or from inside any bodies, including heat emitting bodies.

15 BACKGROUND OF THE INVENTION

Multiple forms of filling masses consisting of three-dimensional structures of metal with high thermal conductivity, such as aluminum, are known in the state of the art. These filling masses are inserted into the tank with the function of suppressing or delaying explosions confined therein of flammable or explosive fluids, so that the metal structures act in a manner that prevents local overheating of the fluid by providing rapid diffusion of heat by thermal conduction through the walls of the structure in contact with the fluid. In addition, in the event of ignition occurring at a hot spot in the tank,

30 the rate of advance of combustion is reduced mechanically by the walls of the structure itself, which prevents the expansion of combustion. Additionally, metal structures allow suppressing electrostatic ignition by Faraday effect.

Traditionally, the structures are configured by means of a compact packing or grouping of multiple layers or panels, usually of expanded metal. For the packing of the panels of the structure,

5 have developed various techniques in general to avoid the effects of caking and delamination between the layers. This is important when the deposit is susceptible to vibrations or movements, taking into account that the deformation of the structure,

10 caking or delamination between layers can lead to losses in conductivity properties. Examples of mentioned structures suppressing structures confined in tanks can be found in patent documents: ES-2259509, U8-5000336, wo

15 0071798, U5-4925053, E5-2319067, WQ-8504128, EP-0256239, U54566589, EP-0003657 and U5-4149649. Fuel tanks installed in gas stations and refueling stations commonly do not have protection because they are buried and therefore

20 away from hot spots or risk of ignition. However, the discharge, suction and vent pipes of the tank are exposed to the risk of ignition as they are connected to the outside. Even if the underground fuel tanks have the

25 mentioned protection, said discharge, suction and vent pipes continue to present a risk of ignition. Also, deposits of vehicles, aircraft, ships, tankers, etc. an explosion suppression device such as the one applied to deposits

30 can be expensive or unfeasible resulting in reduced protection. It would therefore be desirable to have a wave or explosion suppression device suitable for application to the discharge, suction and vent pipes, or

application to any type of deposit and conduit, such as for example deposits of vehicles, aircraft and ships, oil pipelines, gas pipelines, etc.

The present invention addresses the technical problem of

5 provide an explosion suppression system, and in general waves, suitable for application in fluid conduits.

In general, it would be desirable to have a wave suppressor device that allows its application not only to 10 ducts but to any bodies, so as to provide suppression of waves emitted from outside or from inside the bodies, including emitting bodies of hot. Considering all of the above in relation to the state of the

15 known technique, the present invention tries to provide a solution to the technical problem indicated and presenting improvements.

DESCRIPTION OF THE INVENTION

In order to solve the technical signal problem and achieve improvements in known explosion suppression devices, the proposed invention provides the technical characteristics and effects described in

25 continuation. A first embodiment of the wave suppressor device of the invention is intended to be installed in a fluid conduit. The device is characterized in that it comprises a structure fixed to the duct and that

30 e x tends along a section of said duct. The structure is constituted by a packing of panels having a plurality of openings, in which the periphery of the openings forms walls that project transversely to the respective panels. In this way the

device allows to stop the expansion of waves in the fluid. Thus, the walls of the structure offer a mechanical barrier that prevents the increase in the speed of expansion of the waves and therefore the pressure on the

5 duct walls.

In particular, the device allows to suppress explosions in the event that the fluid is flammable or explosive, preventing the increase in the combustion rate, slowing the spread of combustion from

10 hot spots By "structure" is meant any means disposed within a conduit that allows the passage of fluid from the conduit therethrough. The structure of the device can be extended by completely or partially filling the duct section, but

15 always being in contact with the inner surface thereof. By "packing" is meant a grouping of panels connected to each other.

Preferably, the structure of the device of the invention is made of thermally conductive material, so that the device additionally allows heat to be rapidly evacuated by thermal conduction. Due to the thermal conductivity of the structure material, the activation energy necessary for the endothermic reaction of a combustion combustion of the fluid dissipates rapidly, evacuating along the structure and the conduit. In this way, the invention provides a retention barrier to the advance of deflagration, thermal wave or flame along conduits as well as inhibition of the beginning of the combustion reaction in

30 accident case. The structure can be chemically inert to the passage of the fluid, not altering its chemical properties. Another important aspect of the invention results from another technical effect that it provides, based on the fact that the

The presence of the structure in the duct allows the dynamic properties of the fluid to be modified as may be required. In particular, the invention contemplates that the structure can provide an increase in the fluid flow rate with respect to the fluid flow rate in the conduit under the same conditions but without the presence of the device. The increase in flow is caused by the effect of depression in the region of the structure by decreasing the apparent area of the section of the duct therein, in a manner equivalent to a narrowing of the convergent-divergent duct or nozzle. This effect of increasing the flow of the fluid is especially useful when the device of the invention is applied to fuel loading / unloading pipes from tanks since it leads to a

l

15 decrease in their filling time, a decrease that can be considerable in the case of high capacity deposits, such as gas station deposits. In these cases the device can be placed in the loading / unloading pipeline of the depotitol conforming

20 for a sleeve coupled to the pipe. The device, once installed as a sleeve in the loading / unloading pipe, guarantees the inaccessibility of waves, in particular of any flame or fire, which eliminates the risk of explosion.

Additionally, it is also contemplated that the structure generates some turbulence in the flow of the fluid through it, which contributes to provide an additional or alternative heat dissipation effect. It can also be used as a shock absorber

30 of Ram, which can be especially beneficial in ducts of tanks with fluid that can move, such as fuel tanks for vehicles, aircraft and ships.

Particularly, the device of the invention is also applicable to tank vent pipes, which has the utility of reducing evaporation of vapors from the tank, due to its own

5 rapid cooling capacity of the structure of the device, which returns the vapors to the tank in liquid phase, allowing to protect the environment and save the product of the tank, for example fuel.

Conventionally, discharge pipes, suction

10 and venting are the only means of communication to the outside of the tanks, such as in the case of underground fuel tanks of the gas stations, so the incorporation of the device of the invention in such pipes means a reduction in the risk of ignition of

15 meaningfully and effectively. It is estimated that the device of the invention applied to gas stations and refueling stations allows to reach a safety level of ten raised to six (106). Another additional application of the device of the

The invention described relates to LPG tank safety valves, considering that the structure of the device can facilitate the discharge of fluid by the valve in case of overpressure opening in the tank. In short, the incorporation of the device from l to

The invention in explosive fluid conduits allows the risk of explosion to be eliminated directly or in a chain along the conduit, creating a thermal break that prevents the spread of combustion. Preferably, the structure of the device is of

30 metallic material (including alloys). Advantageously, being the structure of electrical conductive material, it prevents static electricity by Faraday effect, which can cause both electrostatic ignition (in case the fluid in the conduit is flammable or explosive) and

corrosion. The concentration of static electricity may be due, for example, to the use of GSM and G3 high frequency mobile telephony. The structure may in principle be any metal (or alloy) depending on the application, such as; aluminum, magnesium, copper, gold, titanium, chrome, silver, stainless steel. Preferably the selected metal should have high thermal conductivity, such as aluminum and copper. It is also contemplated that the metallic material of the structure be combined with others

10 materials Materials suitable for the application for which its use is intended are known in the art. The panels of the structure can be constituted in multiple ways, such as honeycomb panels, plate laminates, corrugated sheets, stamped sheets,

15 etc Very preferably each panel of the structure is obtained from an expanded metal sheet. Expanded metal sheets are obtained from perforated solid metal sheets that are uniformly stretched to create structures with diamond-shaped openings or

20 other polygonal shapes. The expanded and perforated sheet as well as panels suitable for the structure of the device of the invention are manufactured in a known manner.

The structure is constituted by packing the different panels to be inserted in the duct. For this, the panels can be arranged, for example: rolled up, folded overlapping each other, etc. The panels can, for example, be superposed longitudinally, that is to say in planes parallel to the axis of the duct, or transversely, that is in planes perpendicular to the e of the duct. 30 Also, the winding of panels can be spiral or circular. The stacking can be configured with a single bent panel (for example in zigzag) or rolled up (for example spirally or circularly). Additionally, the different forms of packaging can be combined with each other.

In one example corrugated panels can be alternated with flat panels to form the structure of the device of the invention.

In structures formed with sheet panels

5 drilled and expanded, the openings are preferably introduced with random irregularity to improve the caking resistance of the structure. The irregularity can also occur in other ways, for example with openings that are shaped like polygons with

10 different number of sides, or with polygonal openings with different length of the sides. In this way, it is not possible to align the polygonal openings of adjacent or opposite panels and fit into each other, thus avoiding the caking problem and thereby increasing the

15 compressive strength of the structure. The packing of the structure can be complemented by means of joining between the panels that integrate it in a known manner, for example by adhesive bonding.

Finally, the structure may include conventional fixing means thereof to the inner surface of the duct. For this purpose, an adhesive and / or butt fixation can be used. The butt fixation may comprise projections or reliefs on the inner surface of the

25 conduit in correspondence with the structure so that the structure is retained in position in the conduit. A second embodiment of wave suppressor device of the invention is intended to be installed in a cover or the like of any bodies, including

30 heat emitting bodies, such as human body, vehicles, aircraft, ships, buildings, etc. Similar to the embodiment described above, the device of this embodiment comprises at least one structure fixed to the cover and constituted by a

panel packing. Each panel is constituted by a plurality of openings, in which the periphery of the openings form walls that project transversely to said panel. The space between the roof and each structure is occupied by air or a filling material; so that the device allows to stop the expansion of waves between the body and the exterior of the body and cover.

The concept of "waves" includes waves of any kind such as sound and thermal and electromagnetic sound mechanics (including RADAR).

For the purposes of this report, the concept of "cover" includes the concepts of "lining", "insulation" "covering", "clothing", "thermal blanket", "protective helmet", "boots", "gloves", etc. The cover can be fixed to the body or be removable from it. Optionally, the structure of the device may be confined to the cover.

The filling material can be any, preferably it can be chosen in a way that contributes to the function of sound, thermal or electromagnetic wave isolation. Examples of fillers are; Cellulose, plaster, plaster, plastic, fibers.

Similar to the above-described embodiment of the device of the invention for fluid conduits, the structure of the embodiment applied to covers can be selected from thermal conductive material, so that the device allows heat to be evacuated between the body and the exterior of body and cover quickly by thermal conduction. Also, the structure can be made of metallic material, providing electromagnetic insulation between the body and the outside of the body and covered by Faraday effect.

The panels of the structure may consist of sheets of metal and expanded. Preferably, the openings

of the panels of each structure are irregular, so that it can reduce or prevent caking between facing panels of said structure.

Some applications of the wave suppressor device of the invention are described below.

A first application relates to a heat exchanger, arranged for example in a solar panel. The exchanger comprises a heat transfer fluid conduit,

in

whose inside be has he device according be he has

described

in the first realization

A

second application be refer to a tower from

water cooling The wave suppressor device as described in the first embodiment is disposed confined in the tower. The cooling tower comprises an inlet or several air inlets from the bottom and one or several hot water inlets to be cooled from the top of the tower. For the cooling of the hot water, it was dropped through the device of the invention into a cold water storage tank arranged at the base of the tower. The structure of the device has a high thermal conductivity, so that it allows cooling the descending water through the tower mixing with the rising air.

A third application refers to a chimney of water vapor filtration with contaminated or contaminated products. The chimney comprises a wave suppressor device described in accordance with the first embodiment of the invention, confined in the chimney. At the bottom of the chimney, one or more inlets of the contaminant or contaminated water vapor are arranged. Filtering occurs when the suppressor device passes through the rising water vapor, so that the device allows cooling the water vapor that, when cooled, falls by gravity in the state

liquid dragging contaminated or contaminated products countercurrently. Ultimately, as described above, the present invention provides a suppressor device for

5 waves with various useful applications, both in fluid conduits, as well as in body covers. In addition, the device of the invention as shown in the description below is simple and easy to install, which implies a reduced cost and maintenance, presenting

10 additional technical advantages.

BRIEF DESCRIPTION OF THE DRAWINGS

To complement the explanation of the invention and with

In order to help a better understanding of its technical characteristics, reference is made in the rest of this specification to the accompanying drawings, in which, as a practical non-limiting example, some examples of embodiment of the invention.

In said drawings: Figure 1 shows a first embodiment of the invention in which a structure inserted in a fluid conduit can be seen. Figure 2 illustrates a portion of structure panel

25 formed with a sheet of metal and expanded. This figure shows the openings and transverse walls of the panel. Figures 3a and 3b illustrate the method of obtaining an expanded and perforated metal panel with

30 irregular polygonal openings. Figure 3a shows a sheet of metal prior to stretching to form the expanded and perforated metal sheet with irregular openings shown in Figure 3b.

Figure 4 shows a cross-sectional view of a first embodiment of the structure of the device inserted in the fluid conduit. In this exemplary embodiment, the structure is constituted by longitudinal overlapping of panels.

Figure 5 shows a cross-sectional view of a second embodiment of the structure of the device inserted in the fluid conduit. In this exemplary embodiment, the structure is constituted by longitudinal overlap of a zigzag bent panel.

Figure 6 shows a cross-sectional view of a third embodiment of the structure of the device inserted in the fluid conduit. In this exemplary embodiment, the structure is constituted by spiral winding of a zigzag bent panel.

Figure 7 shows a cross-sectional view of a fourth embodiment of the structure of the device inserted in the fluid conduit. In this exemplary embodiment, the structure is constituted by circular winding of two panels filling the duct section only partially.

The

Figure 8 illustrates a realization from the invention

applied

to helmets , garments from wear, gloves Y Similar .

The

Figure 9 illustrates a realization from the invention

applied

to a exchanger hot .

The

Figure 10 illustrates a realization from the invention

applied

to a tower from refrigeration

The

Figure eleven illustrates a realization from the invention

applied

to a chimney of filtered out .

The references used in the Figures are the following:

1: structure

2: panel

3: blade

4: opening

5: transverse wall

6: stretch direction

10: duct

11: flow direction

20: garment

21: helmet

30: solar panel

31: heat transfer liquid inlet

32: heat transfer fluid outlet

40: cooling tower

41: hot water inlet

42: air inlet

43: cold water outlet

44: falling water

45: rising air

50: Pollutant water vapor filtering chimney

or contaminated

51:

entrance of steam pollutant or contaminated

52:

departure from steam no pollutant or not contaminated

53:

departure from Water pollutant or contaminated

54:

plant from treatment from Water pollutant or

contaminated

55:

Deposit from pick up from Water pollutant or

contaminated

DETAILED DESCRIPTION OF AN EMBODIMENT

A first embodiment of the invention will now be described in detail with reference to Figures 1 to 7.

Figure 1 shows a perspective view of an example of the embodiment of the device according to the invention comprising a metal structure (1) wound and inserted inside a conduit (10) of

5 flammable or explosive fluid. The duct is shown sectioned in the section in which the structure (1) extends in contact with the inner surface of the duct

(10) The fixing of the structure (1) to the inner surface of the duct (10) can be done in a way

10, for example, by adhesive or by stop of an element projected from the interior surface of the conduit into the interior thereof (not shown). With reference 11 the direction of the fluid flow in the conduit through the structure (1) is indicated.

The structure (1) is obtained by longitudinal winding of metal panels formed with sheets of expanded metal. A portion of metal panel (3) shaped in this way is shown in Figure 2. The panel comprises a plurality of openings (5) and walls (6) that

20 project transversely from the periphery of the openings (5). The procedure for obtaining these panels is known in the art. The metallic material selected is aluminum alloy, for example with the composition set forth in patent application EP-026239. In any

In this case, the material of the structure (3) is chosen identical or similar to the material of the conduit to avoid corrosion due to a cathodic potential difference. In addition, the material used is chemically inert to the organic derivatives of liquid or gaseous fuels.

In a preferred embodiment, the metal panels (3) formed with sheets of metal and expanded comprise openings with irregularities, that is for example openings of different sizes or polygonal openings with different number or length of sides. This is achieved

avoid caking adjacent panels in the structure. This is illustrated in Figures 3a and 3b. Figure 3a represents a metal sheet (4) prior to stretching to form the expanded metal sheet (4) of Figure 3b with irregular openings (5). The arrows referenced with 7 represent the direction of stretch of the sheet. The thickness of the sheets is preferably between approximately 0.01 mm and 0.1 mm and more preferably between 0.02 mm and approximately 0.75 mm. Preferably, the length of the openings in the sheet (4) to be stretched, illustrated in Figure 3a, is approximately between 10 mm and 15 mm, and more preferably between approximately 13 to 15 mm, the width of each rectangular opening being from approximately 0.01 mm to 0.07 mm. The preferable separation between openings s of approximately 2.5 mm to 4.5 mm. Additionally, alternative and complementary embodiments for obtaining sheet metal are found in patent documents ES-2259509, U5-50003336, WO-0071798 and U5-4925053

20 expanded and panels suitable for the present invention as will be understood by the person skilled in the art. Figures 4 to 7 represent different alternative embodiments with various packing configurations of the structure (1) in the conduit (10) of

25 fluid. Figure 4 shows a packing by overlapping panels (2) longitudinally. In Figure S, the panels (2) overlap longitudinally bent in zigzag. In Figure 61 the structure (1) is formed by a single panel (2) spirally wound. And in the Figure

30 7, the structure (1) is constituted by two different panels (2), rolled in a circular and also covering only partially the day of the fluid flow section in the conduit (10).

The device of this embodiment of the invention can be applied to the discharge, venting or aspiration pipes of tanks, for example to gas station tanks and fuel refueling stations in the

5 that the fuel tanks are buried. These pipes are the only means of communication of the fluid with the outside, so that the installation of the device in them guarantees the inaccessibility of any flame or fire, eliminating the risk of explosion.

10 For the device applied to a tank discharge pipe, it has been found that the filling speed is significantly higher with the presence of the device, providing the desired effect of increasing the filling flow rate and therefore decreasing the time of filling.

15 discharge required to fill the tank, which can be critical at gas stations and refueling stations.

With reference to Figure 8, several examples of the second embodiment of the invention are illustrated therein,

20 this is a wave suppressor device for roofs or the like. The figure shows the application of the device to protective helmets, clothing, boots, gloves, etc. Finally, in Figures 9, 10 and 11 are represented

The applications of the device of the invention referred to in the description as first, second and third applications respectively.

Thus, the first application, represented in Figure 9, refers to a heat exchanger arranged in a solar panel (30). The exchanger comprises a conduit

(10) inside which the structure (1) of the device is arranged and through which a heat transfer fluid moves between an inlet (31) and an outlet (32).

A second application, represented in Figure 10, refers to a water cooling tower (40). The wave suppressor device is confined to the tower (40). The tower (40) comprises one or several entrances

5 (42) of air from the bottom and one or several entrances

(41) of hot water to cool from the top of the tower. For cooling the hot water, it is dropped through the structure (1) of the device of the invention, which extends into different sections of the

10 duct of the tower, towards a cold water storage tank (43) arranged at the base of the tank. The structure (1) of the device has a high thermal conductivity, so that it allows cooling the descending water (44) through the tower mixing with the air

15 (45) ascending. A third application, represented in Figure 11, refers to a chimney (50) for filtering water vapor with contaminated or contaminated products. The chimney (50) comprises a wave suppressor device confined in the

20 chimney (50). In the lower part of the chimney (50), one or more inlets (51) of the contaminating or contaminated water vapor are arranged. Filtering occurs when the suppressor device is crossed through the rising steam, so that the device allows cooling the

25 water vapor which, when cooled, falls by gravity in a liquid state, dragging contaminated or contaminated products against the current. From the top of the chimney the steam (52) of filtered water is released, not cont aminant e or not cont aminated. The wastewater (53) that

The contaminant or contaminated products can be processed in a wastewater treatment plant (54), after being treated it can finally be collected in a wastewater tank (55).

It is NOT considered necessary to make this description more extensive so that any expert in the field understands the scope of the invention and the advantages derived therefrom. Particularly, for the manufacture of

5 the various components the manufacturing processes and necessary materials are known in the technical field and fully accessible. In general, the materials, shape, size and arrangement of the elements will be subject to variation as long as this does not imply an alteration to

10 the essentiality of the invention.

Claims (16)

1.-WAVE SUPPRESSOR DEVICE, for a fluid conduit; characterized in that the device comprises at least one structure fixed to the conduit and extending along a section of said conduit; the structure constituted by a packing of at least one panel; each panel having a plurality of openings; the periphery of the openings forming walls that project 10 transversely to said panel; so that the device allows to stop the expansion of waves in the fluid. 2 . - WAVE SUPPRESSOR DEVICE, for a fluid conduit, according to claim 1, characterized in that the structure is made of thermal conductive material; so that The device also allows heat to be evacuated quickly by thermal conduction. 3.- WAVE SUPPRESSOR DEVICE, for a conduit of The fluid according to one of claims 1-2, characterized in that the apparent area of the section of the duct in the structure is reduced relative to the area of the section of the duct outside the structure; so that the device additionally allows to increase the flow rate of 25 fluid with respect to the flow in the duct without device. Four . - WAVE SUPPRESSOR DEVICE, according to one of claims 1 -3; characterized by the at least one 30 structure is made of metallic material; so that it can neutralize a possible electrostatic ignition of the fluid by Faraday effect. 5.-WAVE SUPPRESSOR DEVICE, according to claim 4; characterized in that the at least one panel is constituted by an expanded metal sheet. 6.-WAVE SUPPRESSOR DEVICE, according to claim 5; characterized in that the openings of the panels of each structure are irregular; in a way that reduces or prevents caking between facing panels of said structure. 7.-WAVE SUPPRESSOR DEVICE, for a cover or the like of a body, characterized in that the VIC device comprises at least one structure fixed to the cover and constituted by a packing of at least one panel; each panel having a plurality of openings; the periphery of the openings forming walls that project transversely to said panel; the space between the roof and each structure occupied by air or a filling material; so that the device allows to stop the expansion of waves between the body and the outside of the body and cover.

8.

DEVICE SUPPRESSOR FROM WAVES, according the

claim

7, characterized why the to the less a

structure

is from material driver thermal; from way that

The device allows to evacuate the heat between the body and the exterior of the body and cover quickly by thermal conduction. 9.-WAVE SUPPRESSOR DEVICE, according to one of claims 7-8, characterized in that the at least one structure is made of metallic material; so that the device provides electromagnetic isolation between the body and the outside of the body and covered by Faraday effect. 10.-WAVE SUPPRESSOR DEVICE, according to claim 9; characterized in that the at least one panel is constituted by an expanded metal sheet. 11.-WAVE SUPPRESSOR DEVICE, according to claim 10; characterized in that the openings of the 10 panels of each structure are irregular; in a way that reduces or prevents caking between facing panels of said structure. 12.-HOSE FOR FLUID TANK PIPE, characterized in that the sleeve incorporates a device according to one of claims 1-6. 13.-COVER, characterized in that it incorporates a wave suppressor device according to one of the 20 claims 7-11. 14.-HEAT EXCHANGER, characterized in that it incorporates a wave suppressor device according to one of claims 2-6, for a fluid conduit 25 heat carrier. 15.-WATER REFRIGERATION TOWER, characterized in that it comprises a wave suppressor device according to claim 2 confined in the cooling tower; the cooling tower comprising at least one air inlet from the bottom of the tower and at least one hot water inlet from the top of the tower so that the device allows water cooling descending through the tower mixing with the rising air. 16. -WATER STEAM FILTER FIREPLACE WITH 5 CONTAMINATING OR POLLUTED PRODUCTS, characterized in that it comprises a wave suppressor slide according to claim 2, confined in the filtering chimney, and at least one water vapor inlet from the bottom of the chimney; so that the device allows 10 Cool the water which, when cooled, falls by gravity carried away by contaminating contaminated or contaminated products.