Likewise, discrete sensors and switchgear of individual turbine units are similarly linked with the system controller(s), as are other electrically operable components aboard the platform (that is, other than those used only at surface, or those contained in and entirely managed by a payload assemblies). The energy-conversion payload device further incorporates local sensors (such as for rotational speed, amperage produced, etc.), enabling discrete diagnostic evaluation via the platform control system(s), with the local electrical enclosure (or enclosures) containing any adjunct discrete electronic components.
- Carlos López Cubas – 7 julio, 2020
- Abdomen infraumbilical en pacientes portadoras de DIU
- Por el sistema nervioso autónomo, lo que le confiere el control último de sus funciones
- The system of claim 4, wherein the sensor system is connected to the foil members
For maintenance, installation, and other pragmatic reasons, each turbine payload assembly is, in the preferred embodiment, intended to contain a local electrical enclosure, located beneath or above the region identified by 1205. Such an enclosure facilitates the purposes of electrical connection of the generator device to on-board cabling, and the containment of local (i.e., unit-specific) and remotely operable switchgear that permits the unit to be selectively engaged with or disengaged from the platform’s power buss. FIG. 16 is a exemplary schematic diagram of functional interaction between major elements of the invention, in an application wherein hydroelectric power generation is intended for the support of local undersea operations (e.g., in support of mining or military purposes in the vicinity of the platform). U.S. Pat. No. 3,293,867 (Dean, 1966) presents a means of reestablishing mechanical contact with an undersea wellhead, and indeed involves a buoyant platform with powered take-up winches.
Dolor Muscular Antebrazo
U.S. Pat. No. 4,278,362 (Scherrer, 1981) is designed to repeatedly retrieve and re-deploy a submarine device by tethered and buoyant means; it relies, however, on a specialized receptacle on the ocean floor to receive the submergible object, and a seabed position of device operations. The tension members involved for both mooring lines and cable buoy tether, and the means of securing such to the ocean floor 103, involve technologies standard for the offshore oil industry, and the depiction of these features in the presented drawings should not be construed as being limiting of the actual products or approaches selected for the purpose. Even so, the signal link through cable 110 and tether 112 may still be available (perhaps enabled via comparatively miniscule signal power being transmitted from shore), thus providing means for shore personnel to perform essential diagnostic verification of said cables and also of both primary and standby communications between the cable management buoy 113 and said shore facility.
Dolores Musculares Piernas
Once connected to the platform, cables are “dragged” down with the platform, and (by action of the ocean current) trail freely behind it, arcing down to their associated anchors and junctions on the seabed. A critical feature for emergency surfacing of the platform is also contained within manifold 706, being a remotely actuatable valve that permits motor 706, and thus drum 703, to freely rotate. Energizing the traction drum is a motor 704, which transmits torque to said drum via a belt or roller chain 705. Alternate forms of such torque transmission may be readily acknowledged, and the proving out of such underscores the benefit of modularity for the overall invention, with this separable winch assembly being but another example. With the idler arm being eccentrically engaged with corresponding surfaces of the main shaft 702, the capturing flanges of wheel 710 are extended away from the periphery of traction drum 703 by means of the arm being raised.
Tipos De Dolor Pdf
7C looking from aft, but with the assembly’s idler arm raised. U.S. Pat. No. Dolor de rodilla al estirar la pierna . 4,557,697 (Kontar et al., 1985) has similar purposes; but the invention relies entirely on variable buoyancy for depth control. Note also that the platform can be adjusted for these purposes to any angle between zero and ninety degrees (relative to the horizontal plane), and that-in the case of a very severe subsurface current or turbulence event-be brought to a most protective attitude of horizontal (in addition to an increase of depth). FIG. 6A presents a perspective isometric view of the preferred embodiment of the platform assembly without any payload (e.g., without electrical generating devices), showing its primary structural and functional members. The same can be said of any submarine “power plant” directly deposited on the seabed, in a deeper-water application. FIG. 14 presents the platform in the same application of FIG.
Dolor Sordo Costado Derecho
This latter mode of communication requires signal transfer between the cable buoy 113 and the platform 101 by means of either conductors partnered with or integral to tether 112, and/or underwater wireless transmission via acoustic transponders TP. Metamizol para dolor muscular . The retention and behavior of the cable management buoy 113 is much the same as for the mooring line buoys. FIG. 11 portrays the mooring line buoy 105, the major elements of such having been prior discussed within the context of FIG. Components 601, 602, and 605 are, as has been discussed under FIG. As a backup to this primary means of air supply, volumes 602 may be designated as “high pressure” tanks, as described under FIG.
6. Alternatively or additionally, a series of auxiliary tanks 803 are portrayed, slung under the equipment area in the platform’s bow. Being in nature a backup supply of reserve air (that is, their contents only being needed in the event of primary power supply or air compressor failure), their utilization always means that the surfacing of the platform has been decided upon. Note also that all the above “threading” procedures may be additionally facilitated by specialized equipment aboard other surface vessel(s) involved in deployment of the platform (or the reverse procedures). Conversely, should a more static deployment be empirically demonstrated, an inseparable and specialized version of the present invention (perhaps as exemplified in FIG.
Dolor Muscular Cadera
In the preferred application of the hydroelectric generation of electrical energy for shore-based consumption, such a plurality would comprise an array of such platforms and deployment sites, and (with a single shore-based monitoring, control and distribution facility) a composite power plant in their totality. Connectors across their pressure boundary are therefore designed and rated for such use, in view of maximum operational depth for the application. In comparison, the present invention is designed for unidirectional current flow (or practically so), has no such concrete tie to the ocean floor, is suspended at a selectable operating depth (which will often not be optimal near the seafloor), and is designed explicitly for the surfacing of motive components for maintenance.
The invention presented herein may be of inseparable construction.
With the direction of current flow being left-to-right in the figure, and the buoyancy of platform 101 and buoys 105 in mind, the behavior of the mooring lines 104 is self-evident within the two dimensions of this figure. For the sake of mechanical simplicity, the mooring line (in the preferred embodiment) consist of a chain, in the region of tractive engagement. But for purposes of simplicity in manufacture, the preferred embodiment incorporates such a upper/lower tank configuration, due to the fact that commercially available pressure vessel components are more readily available for round cross-sectional volumes than for obround. 6B; but until that configuration is empirically discovered, flexibility (and modularity in construction) is of evident benefit. The invention presented herein may be of inseparable construction. 1980) builds upon the idea of a practical submarine power plant, incorporating an array of tethered turbines being suspended between ocean floor and surface. Pat. No. 4,205,943 (Vauthier, 1980); U.S.
Tipos De Dolor Crónico
Pat. No. 1,396,609 (Weisenborn, 1921); U.S. Diazepam para dolor muscular . Pat. No. 4,524,285 (Rauch, 1985); U.S. Pat. No. 2,379,324 (Topalov, 1945); U.S. Other surface (or near-surface) inventions have been patented involving specifically turbine (as opposed to, e.g., paddlewheel means) inventions for power generation: U.S. The invention is remotely operated and monitored, flexibly configurable, potentially large in scale, and equipped with redundant means of communication and control, thus providing a composite “power plant” that is practical for the requirements of current-driven energy-conversion devices emplaced in the subsea water column.
Near-surface operation is implicit in the mode of its structural presentation; even so, like Hultman, human safety issues and code requirements in regards to human-occupied pressure vessel design are brought to bear. Even so, the present invention accommodates the replacement of such assemblies, as that state of the art evolves. However, it should be evident that, especially with greater ocean floor depths, these down-stops might be incorporated into a larger framework 209 that further maintains dimensional separation between said down-stops. Upon the platform are mounted one or more payload devices that convert the kinetic energy of ocean current to a transmissible or transportable form. If deployed in quantity in a deep ocean environment, such factors could be seen as problematic. Into a site so prepared is towed the submersible platform, which is then set amidst and up-current of the buoys involved, and engaged and deployed as described in the foregoing.
16 and 17, showing the subsea site prepared to accept the submersible platform. FIG. 6A represents a perspective isometric view of the submersible platform 101 in a preferred embodiment, absent of payload devices (e.g., hydroelectric turbines) and with a focus on structure and generic functionality of the submersible platform as such. The transverse members may furthermore serve as either passive (permanently sealed) or active (ballast tank) components of the overall buoyancy systems of the platform. 13A to 18, comprise functional schematic diagrams of major systems involved in the present invention, with FIGS.