ES1070065U - Unit of desalation and pumping of marine water (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Sea water desalination and pumping unit, characterized in that it comprises one or more submersible deep-osmosis units at great depth, consisting of steel tubes with semi-permeable membranes inside and anchored on the seabed so that desalination can take place. The own marine pressure, which have pre-filters, tubes for the elimination of the brine, lead weights, anchors for the fixation to the marine bottom, and steel cables connected to a platform or floating buoy for control and maintenance, being those mentioned reverse osmosis units connected directly by pipes to one or more submersible tanks to which the desalinated water passes and these are connected by pipes to a water pump that pumps water from the tanks to maintain the pressure difference between the tanks and the units of osmosis. (Machine-translation by Google Translate, not legally binding)

Description

Desalination and water pumping unit Marine.

This utility model refers to the desalination and pumping of seawater.

There are several systems to desalinate water, such as evaporation, freezing, electro dialysis, or through semipermeable membranes, one of the most used is the process of reverse osmosis, which consists of pumping water and passing it on through semipermeable membranes installed inside a Tube at great pressure and get pure water. With this procedure the cost derived from the consumption of electrical energy to make run the pumps, makes the price per liter of desalinated water is very high in addition to the problems derived for the resulting brine treatment.

There are systems that raise seawater up to a height of 600 meters at night when electricity it is cheaper, making it descend during the day for its desalination through reverse osmosis units with the possibility of generating electricity. There are projects to perform reverse osmosis treatment inside wells or old mines.

The purpose of this utility model is refers to desalination and pumping of seawater and can use the system described in P200600014, "System for harvesting of the force of gravity, "as a water pump that has been desalted through reverse osmosis units submerged in the sea at a depth of at least 600 meters, taking advantage of its own  pressure to which they are subjected, so that the process of Reverse osmosis filtration is performed. Osmosis units inverse they are connected to a tank to which the water passes desalted, which has a tube connected to the pump that will absorb the water in the tank to create a constant difference between the pressure to which the reverse osmosis units are subjected and the internal pressure of the tank where the water will be stored desalinated, so that the flow of seawater from Reverse osmosis units to the inside of the tank.

An advantage offered by this invention is that it does not it would need electricity for its operation, since the system for harnessing the force of gravity in its use as a pump works by the action of weights, so desalination and pumping of water could be done in places where electricity could not be accessed both on land and on land on floating platforms. Another serious advantage, that with this invention could be pumped desalinated water obtaining energy electric through the insertion of a cloudy one that triggers a generator located in the ejection tubes of each cylinder hydraulic since desalination is caused by pressure underwater Another advantage is that when the units are submerged reverse osmosis, the resulting brine would be dissolved in the sea through tubes at a convenient distance from the units of Inverse osmosis. The pumping can work through the weight that exercise parked vehicles that would be installed on the lateral platforms as described in the utility model "System for harnessing the force of gravity a through car parks ".

For a brief explanation of the figures we have figure 1, which explains a desalination and pumping unit of seawater through reverse osmosis units submerged to a depth of at least 600 meters with deposit for desalinated water storage also submerged and connected by tubes to a water pump installed on the surface, and the Figure 2 shows a desalination and seawater pumping unit which has a floating platform that houses deposits Floats for desalinated water storage.

For a detailed explanation of this utility model as a non-limiting example we will refer to figure 1, which comprises a system for use of the force of gravity (1), to be used as a water pump which integrates a high support point at a certain height in which can pivot an elongated element, which are hinged paths side platforms attached to each end, on which a movable weight exerts its force, said side platforms each act on a hydraulic cylinder that can absorb and expel fluids through circuits independent.

Water is desalted through one or more reverse osmosis units (2), submerged to a depth of at minus 600 meters, connected to a tank (3), which has a tube (4) to be able to pump the water contained inside until the surface and keep the pressure difference between the inside of the tank and the pressure to which the units of reverse osmosis, the aforementioned reservoir is connected to the system to the use of the force of gravity (1), in its form of use in which it has independent circuits for Pumping of fluids. Reverse osmosis units (2), consist in stainless steel structures in the form of a hollow cylinder anchored to the seabed that have a series inside of semipermeable membranes equipped with prefilters so that it produce seawater filtration at a pressure of 60 atmospheres, the pressure to which the units of osmosis to be submerged 600 meters. Desalinated water pass into a tank (3), and exit through the tube output (4), to the system for the use of force of gravity (1), specifically up to the absorption tubes of each cylinder, where it will be absorbed when the cylinder corresponding elevate its plunger passing into said cylinder and that will be ejected when the plunger begins to descend by their corresponding ejection tubes. The system includes of one or more cylinders connected to each side platform such and as explained in P200600014 so that when the cylinders that they are powered by the weight of one of the platforms laterals will expel desalinated water, the other cylinders located under the other side platform and whose pistons will be raising, they will begin to absorb water that has been desalted previously by reverse osmosis units submerged in the sea at 600 meters, so the system for the use of the force of gravity will only have to perform the function of absorb and pump to its destination the water found in the inside the tank, so that desalination is carried out by the pressure difference inside and outside the tank, providing the system of the corresponding unidirectional valves located in the absorption and expulsion tubes.

To explain at least one embodiment of the utility model as a non-limiting example we we will refer to figure 2, in which the operation is detailed of a seawater desalination and pumping unit, which comprises of a pumping system (1), with a support point raised to a height of 10 meters on which a metallic pivoting element built with steel beams 100 meters long and 20 meters wide it can pivot, at each end of said pivoting element the lateral surfaces of 50 meters wide by 50 meters long each, which can maintain their horizontal position while being displaced vertically by the action of a series of weights transported by heavy trucks that travel from one to another lateral surface alternately, using the element pivoting center as a lifting ramp, and acting each of the lateral surfaces on hydraulic cylinders that they have independent absorption and expulsion tubes equipped of unidirectional valves, valves to regulate the pressure and the flow as well as valves to open or close the circuits.

The invention is characterized in that it comprises a series of reverse osmosis units (2), submerged at 600 meters deep in the sea, where the process will take place of reverse osmosis by the pressure they are at submitted, passing the water to the inside of a tube (4) capable of resisting high pressures, from which it will be pumped constantly inside floating tanks (3). The system comprises a floating platform (5), to house water storage tanks and to perform the different tasks of control and maintenance of the units. The reverse osmosis units will have a series of prefilters to remove algae or other materials. They also have weights of  lead to keep them submerged, as well as a system of anchor consisting of anchors and steel cables.

For pumping, the weight as explained in P200600014, will be located on the lateral platform that occupies the point dead superior, at that time the valve will open to open the circuit with which the platform will begin to descend, acting on the corresponding hydraulic cylinder that will expel the water which has previously been absorbed from floating deposits, to be pumped to its destination, before going through a turbine that moves a generator conveniently placed in the ejection tube of said hydraulic cylinder, at the same time the other lateral surface will begin its ascent, acting over the corresponding hydraulic cylinder that will absorb water desalted through the corresponding absorption tube, to be ejected when the platform goes down acting on the corresponding hydraulic cylinder, and so on.

Claims (4)

1. Marine water desalination and pumping unit, characterized in that it comprises one or more deep-seated reverse osmosis units consisting of steel tubes with semipermeable membranes inside and anchored in the seabed so that desalination can occur by the sea pressure itself, which have prefilters, brine removal tubes, lead weights, anchors for fixing to the seabed, and steel cables connected to a floating platform or buoy for control and maintenance, being those mentioned reverse osmosis units directly connected by tubes to one or more submersible tanks to which desalinated water passes and these connected by tubes to a water pump that pumps water from the tanks to maintain the pressure difference between the tanks and the units of osmosis. 2. Seawater desalination and pumping unit according to claim 1, characterized in that as a water pump the system can be used to take advantage of the force of gravity in its use as a fluid pump 3. Desalination and pumping unit of seawater, according to claims 1 and 2, characterized in that the fluid ejection tubes of the system for the use of the force of gravity in its use as a water pump have one or more turbines-generator . 4. Seawater desalination and pumping unit according to claim 1, characterized in that the water desalinated through the submerged osmosis units can be pumped from inside the tanks by any conventional pumping form.