The present invention relates to a method as defined in the preamble of claim 1 for installing and servicing an apparatus recovering the kinetic energy of water and an apparatus as defined in the preamble of claim 6 for recovering the kinetic energy of water.
The apparatus according to the invention is suited very well for instance for an apparatus for recovering wave energy or tidal energy of seawater. The recovered energy is further converted for instance to electric energy and/or fresh water. In the following only the apparatus for recovering wave energy is dealt with a more precise way.
In the wave energy recovery solutions according to the prior art each recovery unit is usually situated separately on its own base on the bottom of the water basin, such as the bottom of sea. The base for each recovery unit has been made ready on the sea bottom before the installation of the recovery unit. The manufacture of that kind of the base at the sea bottom is slow, requires a lot of preparations, contains a lot of expensive diving labor, and needs a lot of various fixtures. In addition in order to install the recovery unit onto the said base heavy vessel and crane fixtures are required. However, that kind of heavy fixtures is usually not easily available for just the time it is needed. For that reason the prior art solutions suffer from extensive installation costs and a slow installation work. In addition one problem is the inconvenience involved with the maintenance or servicing. The maintenance work requires also a lot of preparation work and heavy vessel and crane fixtures in order to lift the recovery unit onto the surface of the water and to perform the service needed. Also after the service works the same heavy fixtures are needed again. This is slow and makes the service works very expensive.
The object of the present invention is to eliminate the drawbacks described above and to achieve an inexpensive, easy and a fast method for installing and servicing an apparatus recovering the kinetic energy of water. Likewise the object of the present invention is to achieve an apparatus for recovering the kinetic energy of water. The method of the invention is characterized by what is presented in the characterization part of claim 1, and the apparatus of the invention is characterized by what is presented in the characterization part of claim 6. Other embodiments of the invention are characterized by what is presented in the other claims.
The solution of the invention has the advantage that by using the solution for instance the apparatus for recovering wave energy of seawater can be installed and serviced more easily, faster and with smaller costs than with solutions according to prior art. In the solution according to the invention the heavy vessels with big cranes are not needed, but the apparatus can be installed and lifted for servicing or repairing by the help of small fixtures, for example by the help of a small trawler. Likewise the preparation work for the installation and servicing or repairing is much faster and easier in the solution according to the invention. One advantage is also the fact that in easy cases the servicing or repairing can be made at sea, only by lifting the apparatus onto the surface of the water and making the work on the surface. The lifting of the apparatus takes only about one hour. After the servicing or repairing the apparatus is descended back onto to the sea bottom. In addition one advantage is that because the body of the apparatus is made of concrete it does not rust. One advantage is also the fact that a heavy concrete body protects the components of the apparatus from water and external elements of danger. A further advantage is that thanks to the modular structure separate apparatuses are easy to couple together for a big power plant, and the servicing can be made for instance so that a new or newly serviced apparatus module is brought to the production site at the sea and the old one is replaced with the new one and is towed to the dockyard for servicing or repairing. The exchange of the apparatus module is fast to do and does not require heavy fixtures.
One more advantage is that it is easy to integrate various measuring instruments into the body of the apparatus module.
In the following, the invention will be described in detail by the aid of an example by referring to the attached simplified and diagrammatic drawings, wherein
The apparatus module 1 comprises at least a body 2 that functions as a base, two or more onto the body 2 attached recovery units 3 for recovering wave energy, collecting means 3c (shown in
Each recovery unit 3 comprises at least a plate like wing element 3a that is hinged at its lower edge onto the body 2 of the apparatus module 1, and the recovering means 3b of the wave energy. The wing element 3a is arranged to make reciprocating motion caused by the kinetic energy of the waves, and the recovered energy is either saved into the energy storages situated in the body 2 or transferred through the collecting means 3c and cable 4 to the use of the next unit that can be for instance a collecting station situated on shore. The fresh water produced by the apparatus module 1 can be stored in containers situated in the body 2 of the apparatus module 1, and delivered time to time for further use.
In
The apparatus module 1 according to the invention is intended to be descended into its production site onto the sea bottom 12 at the area situated in a so-called intermediate water area of the water basin. The intermediate water area refers here to the same area as in the WO publication No. WO2004097212, i.e. to the water basin area, generally ocean area in the depth range of the so-called breaker-line and shallow waters, extending to the wavelength of 0.5. In the intermediate water area the relation of the water depth to the principally prevailing wavelengths is between ½- 1/20.
At the beginning of the installation the apparatus module 1 pre-assembled in the dockyard or onshore is towed floating and the wing elements 3a of the recovery units 3 turned down to a transporting position to the installation site that is marked with buoys that support the free ends of the anchor chains 10 that are anchored at the sea bottom 12. The towing can be done with a small trawler or boat. There are for instance one or two anchor chains 10 for each end of the apparatus module 1.
When the apparatus module 1 is floating above its production site it is fastened with its both ends into the free ends of the anchor chains 10 and the chains 10 are tightened. The descending of the apparatus module 1 from the surface 11 onto the sea bottom 12 can be done in many various ways, but the main idea is to keep the apparatus module 1 steady at the sea bottom 12 by the help of its own mass and the mass of the water filled into the compartments 2a and 2c, and making the apparatus module 1 floating by the help of gas, such like air that is blown to the compartments 2a and 2c to replace the water.
One way to descend the apparatus module 1 onto the sea bottom 12 is to open the filling valves 7 for water and to stretch the apparatus module 1 towards the sea bottom 12 with the anchor chains 10. During the stretching water runs into the compartments 2a and 2c and the apparatus module 1 begins to descend more and more easily towards the sea bottom 12.
Another way is shown in
Alternatively the servicing can be made also on the production site when the body 2 is floating on the surface of the water, if the tasks required make it possible. In addition it can be done so that when the trawler 13 comes to fetch the apparatus module 1 for servicing it brings at the same time a new or a newly serviced apparatus module 1 that is installed to replace the apparatus module 1 that has been lifted up for the service or repairing. In this way the operation of the wave energy power plant consisting of a plurality of apparatus modules 1 suffers extremely little during the service break of an apparatus module 1.
It is obvious to the person skilled in the art that the invention is not restricted to the example described above but that it may be varied within the scope of the claims presented below. Thus, for example, the method according to the invention can have steps that differ from the steps mentioned above, or the steps can be in a different order.
It is also obvious to the person skilled in the art that the apparatus module can differ from the apparatus module described above. The apparatus module may have a different number of wave energy recovery units than is presented in the example above. For instance the number of wave energy recovery units can be 2, 4, 5 or 6 or even more.
In addition it is obvious to the person skilled in the art that the apparatus module can be also made for recovering tidal energy, and the apparatus module can be sunk also into a deeper water than a so called intermediate water.