The present invention relates to an arrangement for enhancing conditions of vari- ous types in a coastal area as defined in the preamble of claim 1 and a method for enhancing conditions of various types in a coastal area as defined in the preamble of claim 14.

In prior art technology wave energy apparatuses are usually not used for other tasks than only capturing wave energy and converting it into other type of energy. Patent publications US7131269 B2, EP16231 101 B1 and WO 007125156 A1 are good examples of the solutions of this kind. Wave energy apparatuses are also used for desalination of seawater. Patent publications AU2010366071 B2 and US7023104 B2 are examples of the solutions of this kind. Whereas a control and driving arrangement of a wave energy apparatus is presented in the US patent No US9279408 B2, and a tidal adjustment is presented in the US patent No. US9109570 B2. If other tasks in the coastal area are needed to be done separate apparatuses for these purposes are usually used. US patent publication No. US4691661 presents a self-adjusting artificial breakwater for artificial harbors. The artificial breakwater of the US patent comprises a group of extensible and flexible bags of which a major part is to be submerged below the surface of the sea. Each bag is anchored to the bottom of the sea and filled mostly with water and partly by air, whereby at least a part of the air filled portion extends above the surface of the sea. When deployed the bag takes the form of a wedge in its cross section. A disadvantage of this solution is that it can be used only for one purpose. It does not work, for example, as a wave energy capturing and converting apparatus. US patent publication No. US2015/0091304 A1 presents an energy-capturing floating breakwater. The solution of the US publication comprises a frame with an up and down moving asymmetrical floating body that is coupled to a permanent magnet linear generator that serves as a power take off system. In addition to convert wave energy to electric energy the apparatus is mentioned to serve as a breakwater. A problem with this solution is that it is not equipped to serve other than in the two tasks mentioned above.

The arrangement according to the invention is suited very well for instance to be used in connection with reciprocating panels or flaps or essentially plate-like wing elements, later called shorter only as flaps. The flaps are hinged with their lower edge to make a reciprocating movement caused by wave energy or tidal energy of seawater. The wave energy or tidal energy collected is further converted with a conversion unit for instance to electric energy, fresh water, pressure or hydrogen. For the sake of simplicity, only the term wave energy is later mentioned when both the wave energy and the tidal energy of seawater are meant.

The object of the present invention is to eliminate the drawbacks of the prior art technology described above and to achieve an arrangement, which in addition to the conversion tasks mentioned above is equipped with various accessory equipments to make the arrangement act in various tasks for enhancing condi- tions of various types in a coastal area. In that case the arrangement is equipped to work as a breakwater, an artificial reef by providing holes, pockets and/or hollow areas for sea animals and sea plants to use, a pump to transfer pure water from the deeper water area to shallower water area, a mechanism to transform waves of an irregular form into waves of a regular form and to dampen the load of waves towards the shore and surroundings, an apparatus to provide waves for surfing, an apparatus to reduce or remove the concentration of PCB in the bottom of the surrounding water area, a mechanism to produce pressurized hydrogen and/or oxygen, an apparatus to produce a warning signal to warn an object moving near the arrangement either under or above the water surface, to provide a substrate for marine growth. The arrangement for enhancing conditions of various types in a coastal area is characterized by what is presented in the charac- terization part of claim 1 , and the method for enhancing conditions of various types in a coastal area is characterized by what is presented in the characterization part of claim 14. Other embodiments of the invention are characterized by what is presented in the other claims.

5

In order to achieve the objectives of the present invention, the present invention provides an arrangement for enhancing conditions of various types in a coastal area comprising one or more actuating mechanisms capturing energy from waves and/or tide and converting captured energy to another form of energy. Ali o ternatively the arrangement of the present invention uses the captured energy for desalination to produce unsalted water. The actuating mechanism used in the arrangement comprises at least a base, on which a reciprocating flap is installed. Preferably the reciprocating flap is installed on the base by the help of at least a pivot shaft. Advantageously at least one actuating mechanism of the arrange- 15 ment is arranged to make an impact on the water area surrounding the arrangement.

The arrangement according to the invention has a number of advantages. One of the advantages is that the same arrangement with appropriate accessory equip- 20 ments can act in various tasks for enhancing conditions of various types in a coastal area. In addition to produce electric energy or fresh water the same arrangement can act as a breakwater; can protect the neighboring beach from erosion or at least may minimize beach erosion; can act as artificial reef for sea animals and sea plants; can act as a pump for pumping pure water from deeper ar-

25 eas to the shoreline or pumping water into fountains for entertainment use; can act as a wave transformer by making waves smoother, weaker and more regular, and by changing the direction of travel of the waves; can act as wave producer for surfing in the beach area; can act as PCB remover; can act as a producer of pressurized hydrogen and/or oxygen; can act as a bioflap or biopanel having a

30 substrate for marine growth; and also can comprise various warning systems, for example to give a warning signal if a sea animal, swimmer, surfer, boat or ship is coming too close to the reciprocating flaps. The appropriate accessory equipments are easy to install and are not expensive. In some cases they make the arrangement even more economical. For, instance when the flap is arranged to act as a biopanel the basic structure of the reciprocating flap can be lighter and cheaper because the renewable marine growth forms automatically and continually a part of the flap.

In the following, the invention will be described in detail by the aid of examples by referring to the attached simplified and diagrammatic drawings, wherein

Fig. 1 presents in a simplified top view an arrangement according to the invention, where individual actuating mechanisms are placed in a wanted place and position related to each other and to the neighboring coastal area,

Fig. 2 presents in a simplified oblique top view a actuating mechanism used in the arrangement according to the invention,

Fig. 3 presents in a side view and in a simplified and diagrammatic way a actuating mechanism used in the arrangement according to the invention transforming waves of an irregular form into waves of a regular form and dampening the load of waves towards the shore and surroundings,

Fig. 4 presents in a side view and in a simplified and diagrammatic way a actuating mechanism used in the arrangement according to the invention providing waves for surfing, and

Fig. 5 presents in a front view and in a simplified and diagrammatic way an actuating mechanism used in the arrangement according to the invention, where the reciprocating flap of the apparatus is formed naturally to cover the support frame of the flap. Figure 1 presents in a simplified top view an arrangement according to the invention, where individual actuating mechanisms 1 are placed in a wanted area and in a wanted position related to each other and related to the neighboring coastal area 2. The neighboring coastal area 2 comprises, for example a harbor area 2a and water area 3 to be protected in front of the harbor area 2a. The waves towards the harbor area 2a come mainly from the open sea in the direction of the arrow A. The individual actuating mechanisms 1 are placed, for instance in two rows as presented in figure 1 . In this case the first row of actuating mechanisms 1 is closer to the shoreline and comprises a number of actuating mechanisms 1 placed end to end in a wanted distance from each other. Preferable the row is straight or substantially straight. In particular cases the row also can be curvilin- ear or otherwise non-straight. The second row of actuating mechanisms 1 is farther from the shoreline than the first row and preferably placed behind the first row so that the actuating mechanisms 1 of the second row cover caps between the end of the actuating mechanisms 1 of the first row. Thus, the actuating mechanisms 1 of the first row and the actuating mechanisms 1 of the second row together form a substantially continuous wave breaking wall between the open sea and the shoreline.

The actuating mechanisms 1 are wave energy recovery apparatuses equipped appropriately with various actuating means to perform other tasks in addition to their main task to capture wave energy and to convert it into other forms of energy or to use wave energy for desalination.

The number of rows of the actuating mechanismsl can be different from the two mentioned above. The number of rows can be only one, or three, four five or even more. In addition the placing of the actuating mechanismsl can be different, for instance without any rows the actuating mechanismsl have been placed in various locations adjacent to each other and/or behind each other so that the whole area of the actuating mechanismsl form a substantially continuous wall between the open sea and the shoreline. Figure 2 presents in a simplified oblique top view a actuating mechanism 1 used in the arrangement according to the invention. The actuating mechanism 1 comprises at least a base 4 anchored onto the bottom of the sea, a panel or flap 5 reciprocating about its pivot shaft 5b, and a power-take-off (PTO) unit 8 having a connection mechanism to connect the PTO unit 8 to the pivot shaft 5b of the reciprocating flap 5. The PTO unit 8 is arranged to transfer a reciprocating motion of the flap 5 mechanically to the PTO machinery that can be, for instance, a machinery converting wave energy to electric energy or using wave energy to produce fresh water or hydrogen, etc. The PTO machinery is not presented in the figures. The reciprocating motion or shorter only motion of the flap 5 and pivot shaft 5b is a back and forth rotating motion.

The reciprocating panel 5 oscillates on the base 4 back and forth with the movement of seawater for recovering kinetic energy like wave energy of seawater. At the production site the base 4 is mounted onto the bottom of the sea. On the base 4 there are at least two or possibly more supporting legs 5a that are fastened onto the base 4 so that at least one supporting leg 5a is situated at each end side of the flap 5. At its upper end each supporting leg 5a supports an essentially horizontal, back and forth rotating pivot shaft 5b on which the flap 5 is mounted at its lower edge so that the flap 5 can make a reciprocating motion along the movement of the seawater, for instance along the movement of waves. The flap 5 and the pivot shaft 5b rotate back and forth together simultaneously and at the same speed of rotation. Besides capturing and converting wave energy the actuating mechanism 1 is preferably arranged to act as an artificial reef serving a substrate for sea plants and serving shelters for sea animals. For that purpose preferably at least the base 4 has been equipped with various spaces 9 such as holes, pockets or cavities for sea plants to adhere to the substrate and for sea animals to hide. Sea plants and sea animals are also called the marine growth. The flap 5 of the actuating mechanism 1 comprises two different parts one above the other when the flap 5 is in upright position. The lowermost part 6 is a primary flap part and the uppermost part 7 is a secondary flap part. The primary flap part 6 can be substantially a plate like element that is covered with a material that prevents water going through. In an advantageous embodiment of the invention the primary flap part 6 comprises a frame covered by sea plants and some sea animals like shells or alike. In this embodiment the covering material is organic and naturally renewable material. The secondary flap part 7 is arranged to be moved telescopically in relation to the primary flap part 6 in order to vary the total height of the flap 5. The actuating mechanism 1 comprises activating means to move the secondary flap part 7 inwards toward the primary flap part 6 and outwards from the primary flap part 6. The outmost part of the secondary flap part 7 is preferably hollow comprising an adjustable amount of gas such as air in order to give sufficiently buoyancy to the flap 5.

Figure 3 presents in a side view and in a simplified and diagrammatic way a actuating mechanism 1 used in the arrangement according to the invention to make such an impact on the water area surrounding the arrangement which impact advantageously transforms waves passing the arrangement. In this task the actuating mechanism 1 and/or a group of appropriately placed actuating mecha- nismsl act as a wave transformer by making large and irregular waves 10 coming from the open sea smoother, weaker and more regular waves 1 1 and/or changing the direction of travel of the waves.

When transforming waves 10 coming from the open sea the upper edge of the flap 5 is advantageously placed onto the surface of the water or preferably somewhat above the surface of the water. When transforming the waves the waves can be dampened, the waves can be made better in their quality to be more suit- more suitable for the shoreline, the waves can be destroyed or their direction of travel can be changed or the waves can be divided into smaller parts.

The impact for transforming waves can be advantageously given, for example by the flap 5 powered by the PTO unit 8 so that the flap 5 resists the wave power in a proper relation and a right timing. The wave can be destroyed advantageously by using the PTO unit 8 and the flap 5 to reflect such a counter phase wave that destroys the coming wave. The coming waves can also be transformed by spring dampening mechanisms installed into the actuating mechanismsl or by a heavy mass or by an appropriate form.

Figure 4 presents in a side view and in a simplified and diagrammatic way a actuating mechanism 1 used in the arrangement according to the invention to provide appropriate waves 12 for surfing. In this task the actuating mechanism 1 and/or a group of appropriately placed actuating mechanismsl act as a wave transformer by giving an impact to make small waves 10 coming from the open sea bigger and better suitable waves 12 for surfing. When transforming smaller waves 10 coming from the open sea into larger waves 12 for surfing the flap 5 is advantageously completely below the surface of the water and is arranged to transform coming waves 10 larger by using the energy from the PTO 8 to reciprocate the flap 5. If the surface of the water is totally calm or almost calm the reciprocating motion of the flap 5 or a group of flaps 5 arouses sufficient waves 12 for surfing. Figure 5 presents in a front view and in a simplified and diagrammatic way a actuating mechanism 1 used in the arrangement according to the invention. In this advantageous embodiment of the invention the primary flap part 6 of the flap 5 comprises a supporting frame covered by sea plants and some sea animals like shells or alike. In this embodiment the covering material is organic and naturally renewable material. In figure 5 the primary flap part 6 is presented without the organic covering material. The primary flap part 6 of the flap 5 is advantageously substantially rectangular with the supporting frame that comprises a strong support structure 14 with horizontal lower and upper beams and vertical side beams. The area between the horizontal and vertical beams comprises advantageously appropriate gripping elements such as a lattice structure 15 or alike and a netlike covering element 16 or alike to make the surfaces of the primary flap part 6 easy for the sea plants and/or sea animals to adhere to the primary flap part 6. In this kind of a bioflap or biopanel appropriate marine growth such as sea plants and/or sea animals form a sufficiently dense wall on the both sides of the primary flap part 6.

The organic portion of the primary flap part 6 is naturally renewable and forms a self-protecting or auto-protecting function for the actuating mechanism 1 . In case of a strong storm, the storm may tear sea plants and/or sea animals apart from the primary flap part 6. In that case the power of the water against the flap 5 diminishes and the protection against the storm is automatically functioning. After the storm new sea plants and/or sea animals adhere to the primary flap part 6 and form new organic walls for the flap 5. It is obvious to the person skilled in the art that the invention is not restricted to the examples described above but that it may be varied within the scope of the claims presented below. Thus, for example, the structure of the arrangement can be different from what is presented.