DE102010013199A1 - Power generator powered by wave energy and power generation process by water waves - Google Patents

Abstract

Since the movement of the water in the sea is very energetic, especially where the waves are very high and therefore also very strong, and most of the energy is due to the change in height, between the waves on the surface and those below the surface, it would make sense to use this difference in wave buoyancy energy to gain electrical energy. The present invention, in contrast to the existing ones, takes advantage of the difference in the buoyancy of the rising water near the water surface and the low dynamic buoyancy of the water far below the water surface through the use of, for example, long tubular structures containing operational elements that are placed vertically in the water . As a result, the water level inside the tube remains almost the same as the tube moves up and down in the same way as the water, due to the fact that air-tight containers are attached to the top of the tube. If a solid body floating in the water is placed inside the tubular container, a relative movement of the body and the surrounding tubular container arises, which can be used for a controlled energy production.

Description

I. known:

There are already many inventions that are based on energy production by water, in particular its movement. The existing ideas about energy production by the movement of the sea water derive their energy either from its vertical or horizontal movement at the surface, cf. DE-A-4338103 ; US-A-4,110,630 ; WO-A-02/103881 ; CN201099347Y ,

II. Object of the invention:

Since the movement of water in the sea is very energetic, especially where the waves are very high and therefore very strong, and most of the energy at the altitude change, between the waves on the surface and those below the surface, it would make sense this Use difference of wave buoyancy energy to gain electrical energy. The present invention therefore utilizes this vertical movement of the water in a different, much more effective manner than previous inventions. The design is also very cost effective and quite robust, so the production is very worthwhile and the maintenance costs are minimal, almost zero.

III. New:

The present invention, unlike the existing ones, utilizes the difference in buoyancy force of the rising water near the water surface and the low dynamic buoyancy of the water far below the water surface through the use of, for example, long tubular operative elements containing structures placed vertically in the water , As a result, the water level inside the tube remains almost the same as the tube moves up and down the same way as the water by attaching air-cooled containers to the top of the tube. If a solid body floating in the water is placed inside the tubular container, there is a relative movement of it and of the surrounding tubular container, which can be used for a controlled generation of energy.

The wave energy can be modeled so that an incoming wave tip is able to convey a certain mass of water per unit area up to a certain height. The descending body of water is then able to deliver mechanical energy through its weight. An estimate of the maximum deliverable energy per unit area (A) (ie per 1 m ² ) can be obtained by taking the period (T) of the incoming wave peaks (T = 1 / f where f represents the frequency) the average height difference (DH) between peak and valley of the wave and the density (d) of the water taken into account.

For DH = 1 m (ie at approximately one meter high waves), T = 30 s (ie a wave peak occurs every 30 seconds), d = 1000 kgr / m ³ , g = 9,81 m / sec ² is obtained every 30 Seconds per square meter a maximum mechanical energy E = 1000 × 1 × 9.81 J = 9810 J, which can be exploited.

The usable power corresponds to 9810/30 watts / m ² , ie an order of magnitude of 300 watts per m ² .

The aim of the invention is to exploit the wave energy so available in maximum manner. Various methods and corresponding devices are described below and defined in claims 1, 2, 9 and 10. The basic idea of the invention is that the mass and expansion of the inertial elements of the plant into the depth of the water are such that a high proportion of the available wave energy per square meter for converting into useful energy, in particular for electrical energy, efficient exploits. We make use of the physical fact that the wave energy makes itself felt only to a certain depth in the water, as diagrammatically in the water and , Reference mark 2 , is pictured.

Detailed invention:

(Fig. 1)

The invention relates to a method for generating energy by the use of wave energy, characterized in that an elongated hollow body ( 1 ) whose average mass density is less than the mass density of a liquid ( 2 ) in which it is to be used, in particular of the water, so that the body ( 1 ) in the liquid ( 2 ) occupies almost the vertical orientation and a shorter part ( 3 ) of the body ( 1 ) outside the surface of the liquid ( 2 ) and the remaining longer part ( 4 ) of the body ( 1 ) into the liquid ( 2 ), the length of the hollow body ( 1 ) is chosen such that its lower end ( 5 ), which is in the liquid ( 2 immersed, as far as the surface of the liquid is removed, that the liquid immediately around this end has a small proportion of the wave energy which is present along the surface of the liquid ( 2 ) is transmitted in the moving state of the latter.

To achieve this goal should be the length of the elongated body 1 or the elongated structure 7 ( and ) at least 60 cm, preferably 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 m long, depending on the strength of the waves where the device is intended to be used. For waters where exceptionally high waves occur, this length can be even greater, z. B. 15, 20, 30 meters or more.

It is also inside the hollow body ( 1 ) a device ( 6 ) in the form of a floating body ( 6 ' ), and has an average mass density which is slightly less than the density of the liquid in which it floats, and thus linearly along the hollow body ( 1 ) can slide when the hollow body ( 1 ) alternately rises and falls by the wave energy, whereas the float ( 6 ' ) due to its inertia and its hydrostatic, ie functional interaction exclusively with deeper layers of the liquid in which the body ( 1 ), from the wave motion of the liquid ( 2 ) is little influenced.

Preferably, the total mass of the float ( 6 ' ) as high as possible, so that its inertial capacity is maximized and its mass is a high percentage of the liquid mass, which is within the geometric dimensions of the body ( 1 ) is equivalent.

The hollow body ( 1 ) becomes functional with the float ( 6 ' ), so that due to the pronounced relative movement between the body ( 1 ), whose mass is kept relatively low and its empty volume ( 1' ) is sufficiently high that the body ( 1 ) a high hydrostatic buoyancy of the liquid ( 2 ) and the float ( 6 ' ) which has a high inertial force, a large amount of useful energy is supplied by a strong physical coupling between the inertial body and at the same time as a device ( 6 ) functioning floats ( 6 ' ) and the body moved by the wave buoyancy ( 1 ), which has a complementary device ( 8th ), is manufactured by technical means, which is designed to provide useful energy when the device ( 6 ) and the complementary device ( 8th ) in relative motion.

(Fig. 2)

Alternatively, the invention also uses the method for generating energy by using wave energy, which is characterized in that a buoy functioning body ( 1 ) with high hydrostatic buoyancy, when placed on a water surface, on an elongated structure ( 7 ) is connected in such a way that, due to the gravitational effect, it assumes a nearly vertical orientation within the water by itself when said body ( 1 ) rests floating on the water surface.

According to the method, a, preferably elongated, float ( 6 ' ) whose average mass density is slightly less than the bulk density of the water and which is designed to extend along the elongate structure (FIG. 7 ) of the body ( 1 ), especially when the body ( 1 ) together with the elongated structure ( 7 ) is set in alternating motion by the action of water surface waves in nearly vertical direction, whereas the elongate float ( 6 ' ) due to its inertia and its extent to deep areas of the water, where the wave buoyancy energy has greatly decreased, the wave motion of the water is not like the body ( 1 ) follows.

The float ( 6 ' ) has such a high total gas mass, that the wave energy of the water per unit area of the water surface can be optimally utilized.

The float ( 6 ' ) has a device ( 6 ), which has a strong physical coupling to a complementary device ( 8th ) with the elongated structure ( 7 ), so that by the relative movement of the elongated structure ( 7 ), which experiences a very weak buoyancy by the deeper water waves, and the float ( 6 ' ) due to its firm connection with the body ( 1 ) and despite its strong physical coupling with the complementary device ( 8th ) experiences only minimal movement, useful energy through the mechanism comprising the device ( 6 ) and the complementary device ( 8th ) is delivered free.

The invention also relates to corresponding devices which are adapted to carry out the above-mentioned method. Diagram representations of such device are in the to shown.

(Fig. 3 and Fig. 4)

By inserting a box as a float ( 6 ' ) with a slightly lower density than that of water ( 2 ), the z. On fixed rails (not shown in the figures) on the inner walls of the tubular structure or tube ( 1 . 3 . 4 ) can slide up and down so that when the tubular structure ( 1 . 3 . 4 ) is raised by a shaft, this box ( 6 ' ) because of the low buoyancy of the undulations below the surface, together with the water ( 2 ) is not distended within the tube, so there is a relative movement between box and tube due to the low buoyancy of the shafts at the tube end ( 5 ), thus the box ( 6 ' ) leaves almost in the same place.

Now, for example, you can use magnets ( 6 ) and coils ( 8th ) into the system. The magnets ( 6 ) are on the box ( 6 ' ) and the coils ( 8th ) on the inner walls of the tube ( 1 ) attached. Their relative movement generates an alternating current in the coils, which is dissipated by means of cable lines. The cable conduits may be brought together in the form of manifolds and from the device according to the invention sideways through a hole drilled in the pipe, through the opening above the hollow body ( 1 ) or be derived by its lower end, according to conventional technical knowledge.

Referring to the , are the hollow elements ( 1' ) by means of a stable framework ( 1'' ) with the float ( 6 ' ) connected. A structure ( 7 ) consists of an elongated solid, which is preferably formed as a hollow cylindrical body. The average density of the structure ( 7 ) is chosen just below the density of the water, its mass and length are chosen sufficiently high, so that the structure ( 7 ) is sufficiently heavy, and sufficiently deep, penetrates into areas of the water body where the wave energy is weak, and accordingly the structure ( 7 ) acts as a quasi-immobile inertial body when the body ( 1 ) experiences the wave motion. Thus, even in this case, a relative movement between the device ( 6 ) and the complementary device ( 8th ) in the is shown diagrammatically.

Alternatively, instead of a box with permanent magnets attached, you can use a block of electromagnets that have an analogous function to the box's permanent magnets.

The devices ( 6 ) and the complementary devices ( 8th ) (see. to ) can be used individually or as groups in the respective elongated bodies (regardless of their specific embodiments) ( 1 ) or structures ( 7 ) to be built in. In such a case, the so-called elongated bodies ( 1 ) and structures ( 7 ) have a considerable cross section and be designed as vessel-like structures with a sufficiently large depth. Analogously, individual modules can consist of elongate elements ( 3 . 4 ) bound together appear as separate groups surrounded by hollow vessels acting as a buoy. The cross sections of the hollow, elongated body ( 1 . 3 . 4 ) and structures ( 7 ) may be of any shape, in particular rectangular, oval or round.

In order to increase the efficiency of the magnetic systems described above, a series of independent coils ( ) desirable. The period between the distances of adjacent coils corresponds to the period with which the orientation of the magnetic field lines caused by adjacent magnetic elements of the device ( 6 ) alternate ( ). In the the coils are displayed as if they are parallel to the device ( 6 ) which generate the alternating magnetic field lines shown in this figure. In this case, the floating body ( 6 ' ) at a speed v parallel to the flat plane of the coils. The present invention also includes the case where, according to the general knowledge of those skilled in the art, the coils are orthogonal to the direction of movement of the float (FIG. 6 ' ), as shown diagrammatically in is pictured. Also in this case, the magnets are on the float ( 6 ' ) oriented such that a rapidly changing magnetic flux is generated by the coils as the float ( 6 ' ) glides past them ( ).

(Fig. 5 ', Fig. 6')

Another way of electrical energy through the relative position change between pipe ( 1 . 3 . 4 ) and floats ( 6 ' ) with device ( 6 ) is through an electromechanical system. You can for example Dynamos ( 9 ) (Power generators) as a device ( 6 ) are attached to the inner pipe walls, the rotatable components of which are aligned in the specific location where the float ( 6 ) relative to the tube ( 1 . 3 . 4 ) glides past, so when the float ( 6 ' ) moves the dynamos during this movement ( 9 ), which in turn produce the electrical energy.

The driving of the dynamos can take place via frictional force ( ), wherein elongate friction counterparts ( 9 ' ) on the inner walls of the hollow body ( 1 . 3 . 4 ) are mounted. Alternatively, one could provide the components with gears that interact with tooth-bearing linear counterparts, those that construct the dynamo-rotating components with gears (FIGS. 9 '' ) and the floating body ( 6 ' ), so that when it moves, the gears ( 9 '' ) which causes the dynamo rotating component to rotate, thereby generating electrical energy.

Alternatively one could use the dynamo rotary components, which in the the complementary device 8th with gears ( 9 '' ) interacting with a toothed linear device ( 6 ) stand. So, when the float ( 6 ' ), the Dynamos experience a rotation.

It is understood that the above-described designs with dynamos (current generators) also in the system in which the elongated structures ( 7 ) can be used, as shown in the . will be shown. As it is from the . . . It is irrelevant whether the dynamos on the moving bodies ( 1 . 3 . 4 ) or on the inert floats ( 6 ' ), or structures ( 7 ) are mounted. Nevertheless, it is preferred to use the dynamos on the sluggish elements (floats ( 6 ' ), Structures ( 7 )) due to their high mass.

All of these types of constructions allow the length of the elongate hollow structures to be made arbitrarily long, provided that it is long enough to overcome the reach of the shaft in depth and the size of the air-filled containers is such that the hollow structure coincides rapidly with Ascending ascending water, so as to achieve a reasonably strong relative movement to generate as much electrical energy.

Use of an inert liquid medium ( 2 ' ) within the devices:

According to a particular embodiment of the invention, the functional components of the device may be located within an internal lubricating and anti-corrosive fluid which is non-conductive. Such a medium may be an oil having a density lower than that of the water and additionally being biocompatible, biodegradable and immiscible with water. This embodiment of the invention, for example, by the use of a sliding and laterally sealing partition ( 10 ), as stated in clearly explained. Alternatively, you can the hollow body ( 1 ) at its lower end with a flexible end element ( 11 ) sealing and within the device the inert liquid ( 2 ' ) take up ( ). The function of the devices in the and Shown are analogous to that of the device in shown as the final element ( 10 ) periodically along the hollow body ( 1 . 3 . 4 ) and the terminating element ( 11 ) can stretch and contract alternately.

The materials used for the final element ( 11 ), the partition ( 10 ) and the structural elements of the device z. B. of the hollow body ( 1 . 3 . 4 ) and the float ( 6 ' ) may be selected from materials known to those skilled in the art to provide structural integrity, corrosion resistance and electrical insulation.

Embodiment:

The underlying concept of the invention was by means of a small Experimentelen plant, as shown in the is shown tested. As a floating body ( 6 ' ) a box was used 27 cm long, 5.5 cm wide and 3 cm deep with four button magnets per broadside of the box. The button magnets had a diameter of 3 cm and consisted of commercially available round magnets used for school boards. The box with the magnets weighed 420 gr. The body ( 1 ) was constructed from a 60 cm long piece of 11 cm diameter plastic tubing. At the top of the tube were two plastic tubes each containing 600 ml of empty volume ( 1' ) attached. Along the inner walls of the plastic pipe, two aluminum rails were screwed along diametrically opposite sides along the pipe. Small boxes were attached in pairs on the narrow sides of the box so that the box could slide along the rails. Two cylindrical coils with a diameter of about 2 cm and with 200 turns each inside the tube were mounted per side, transverse to the position of the rails. The coil spacing was 6 cm and corresponded to the distance between two adjacent button magnets. The magnets could slide past the respective coils at a distance of about 5 mm. The delivered electricity energy was by means of in the converted circuit converted into direct current. The energy could either be used directly to illuminate the imaged LED or stored in the main capacitor (C = 1 mF) connected in parallel to the LED. The time required to charge the capacitor circuit of the circuit shown up to 2 V and the calculation of the energy stored in it, we could determine the average power of the system, it was 0.250 mW. This power corresponds to a power of about 25 mW / m ² . We calculated that with a sufficiently more compact arrangement of the necessary physical components with sufficiently stronger magnets or electromagnets, larger number of turns of the coils and enlargement of the system at depth, it would be possible to obtain outputs of 25 to 50 W / m ² or even more. The system was tested during a periodic movement of the float ( 6 ' ) of 10 sec.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 4338103 A [0001]
• US 4110630 A [0001]
• WO 02/103881 A [0001]
• CN 201099347 [0001]

Claims (10)

Method for obtaining energy by using the wave energy, characterized in that an elongated hollow body ( 1 ) whose average mass density is less than the mass density of a liquid ( 2 ) in which it is to be used, in particular of the water, is introduced into it, so that the body ( 1 ) in the liquid ( 2 ) occupies almost the vertical orientation and a shorter part ( 3 ) of the body ( 1 ) outside the surface of the liquid ( 2 ) and the remaining longer part ( 4 ) of the body ( 1 ) into the liquid ( 2 ), the length of the hollow body ( 1 ) is chosen such that its lower end ( 5 ), which is in the liquid ( 2 immersed, as far as the surface of the liquid is removed, that the liquid immediately around this end has a small fraction of the wave energy which is present along the surface of the liquid ( 2 ) is transmitted in the moving state of the latter, and that a device ( 6 ) in the form of a floating body ( 6 ' ) located inside the hollow body ( 1 ) has an average mass density which is slightly less than the density of the liquid in which it floats, and linear along the hollow body ( 1 ) can slide as the hollow body ( 1 ) alternately rises and falls by the wave energy whereas the float ( 6 ' ) due to its inertia and its hydrostatic, functional interaction exclusively with deeper layers of the liquid in which the body ( 1 ), from the wave motion of the liquid ( 2 ) and that the total mass of the float ( 6 ' ) is kept as high as possible, so that its inertial capacity is maximized and its mass is a high percentage of the liquid masses that are within the geometric dimensions of the body ( 1 ), and that the hollow body ( 1 ) functionally with the float ( 6 ' ) is coupled, so that due to the pronounced relative movement between the body ( 1 ), whose mass is kept relatively low and its empty volume ( 1' ) is sufficiently high that the body ( 1 ) a high hydrostatic buoyancy of the liquid ( 2 ) and the float ( 6 ' ) which has a high inertial force, a large amount of useful energy is supplied by a strong physical coupling between the inertial body and at the same time as a device ( 6 ) functioning floats ( 6 ' ) and the body moved by the wave buoyancy ( 1 ) via a complementary device ( 8th ) is manufactured by technical means, which is designed to provide useful energy when the device ( 6 ) and the complementary device ( 8th ) are set in relative motion to each other. Method for generating energy by using wave energy, characterized in that a body functioning as a buoy ( 1 ) with high hydrostatic buoyancy when placed on a water surface, on an elongate structure ( 7 ) is connected in such a way that by gravitational action it assumes a nearly vertical orientation within the water by itself as the said body ( 1 ) rests floating on the water surface, and that, preferably also elongated, floats ( 6 ' ) whose average mass density is slightly less than the mass density of the water and which is designed to extend along the elongated structure ( 7 ) of the body ( 1 ) can slide especially if the body ( 1 ) together with the elongated structure ( 7 ) is set in alternating motion by the action of water surface waves in nearly vertical direction, whereas the elongate float ( 6 ' ) due to its inertia and its extent to deep areas of the water, where the wave energy has strongly decreased, the wave motion of the water does not like the body ( 1 ) and that the float ( 6 ' ) has such a high total mass that the wave energy of the water per unit area of the water surface can be optimally utilized, and that the float ( 6 ' ) via a device ( 6 ) which has a strong physical coupling to a complementary device ( 8th ) with the elongated structure ( 7 ), so that by the relative movement of the body ( 1 ), which experiences a strong buoyancy through the water waves, and the float ( 6 ' ) due to its inertia and high mass and despite its strong physical coupling with the complementary device ( 8th ) experiences only minimal movement, useful energy through the mechanism comprising the device ( 6 ) and the complementary device ( 8th ) is delivered free. Method according to one of claims 1 or 2, wherein the device ( 6 ) and the complementary device ( 8th ) each have a system of permanent magnets or electromagnets on the one hand and a system of inductively coupled coils on the other hand, so that by the relative movement of the body ( 1 ) and the float ( 6 ' ) creates a strong physical coupling in the form of the generation of strong electric fields within the coils and of magnetic fields around them and thus electrical power is supplied at the ends of the coil wires. Method according to claim 1, wherein the device ( 6 ) a system of rotating power generators ( 9 ), which on the inner walls of the hollow body ( 1 ) or on the float ( 6 ' ) are mechanically coupled such that by the relative movement of the body ( 1 ) and the float ( 6 ' ) the mentioned power generators ( 9 ) are set in rotary motion and provide electrical power. Method according to one of claims 1, 3 or 4, wherein below the float ( 6 ' ) inside the hollow body ( 1 ) and transversely to its elongated axis a sliding liquid partition wall ( 10 ) located laterally around the inner periphery of the hollow body ( 1 ) liquid-sealing effect and a corrosion-inhibiting acting both as a lubricant ( 2 ' ), which above the liquid partition ( 10 ) and within the hollow body ( 1 ), from the water ( 2 ), which extends below the liquid partition ( 10 ) and around the hollow body ( 1 ), it being preferred that the liquid ( 2 ' ) has a lower density than water, is biocompatible and degradable and immiscible with water. Method according to one of claims 1, 3 or 4, wherein at the lower end of the hollow body ( 1 ) a sufficiently sized and flexible end element ( 11 ) is attached sealingly, so that above the end elements ( 11 ) and within the hollow body ( 1 ) a corrosion-protecting both acting as a lubricant liquid ( 2 ' ) filled by the body ( 1 ) enclosing water is separated, wherein the flexible closing element ( 11 ) stretches as the body ( 1 ) rises under wave action and contracts again as the body ( 1 ) moves gravitationally downwards. Method according to one of claims 2 or 3, wherein the float ( 6 ' ) in the form of a hollow solid ( 6 '' ) is formed and optionally with a sliding liquid partition ( 10 ) with the technical characteristics as defined in claim (5) or with a flexible sealing closure element ( 11 ) with the technical characteristics as defined in claim (6), and above the liquid partition ( 10 ) or the final elements ( 11 ) with a liquid ( 2 ' ), which has a lower density than water, is biocompatible and degradable and immiscible with water. Method according to one of claims 1 to 8, wherein the device ( 6 ) and the complementary device ( 8th ) or, conversely, a first system (S1) containing a plurality of coils and a second system (S2) comprising a plurality of permanent magnets or electromagnets such that a coil of the first system is a permanent magnet or electromagnet of the second system in a linear array in order to obtain a high rate of change of the sum of the absolute values of all magnetic fluxes through all the coils at any one time, so that in said relative movement between the device ( 6 ) and the complementary device ( 8th ) From the respective coils, the electrical voltage is detected independently and leads to rectification or phase reversal of the individually obtained voltages, their additive amount to maximize energy production. Apparatus for carrying out the method according to any one of claims 1 and 3 to 6 or 8, comprising all the apparatus elements respectively defined in combination in any of these claims. Apparatus for carrying out the method according to claim 2, comprising all the device elements specified in claim 2 and optionally also those device elements which are additionally defined in at least one of claims 3, 7 or 8.

Images