JP2019078149A - Full-scale hydraulic power generation method using seawater - Google Patents

Abstract

To solve the problem of conventional hydraulic power generation in which an amount of water supplied from nature is not constant over a year in (regulating reservoir type and water reservoir type) power generation where a power source for inflow power generation base supply and a power source for (pumping type, regulating reservoir type and water reservoir type) power generation peak supply are divided as individual power sources, and the pumping type power generation is a facility that pumps up water to an upper pond (regulating reservoir) using a pump turbine with power that is surplus at night and uses the water in daytime.SOLUTION: Hydraulic power generation is performed using sea water close to infinite, a power source for inflow power generation base supply and a power source for pumping type power generation peak supply are combined, which changes the power generation to power generation for base supply and increases a ratio of the hydraulic power generation by the power generation combination, and can convert a nuclear power generation furnace into a waste furnace. The hydraulic power generation which can solve CO, natural environment, air pollution and fuel cost and is safe is the best method for preventing global warming.SELECTED DRAWING: Figure 1

Description

The present invention is a method for performing full-scale hydroelectric power generation using nearly infinite seawater

In the past, hydroelectric power generation was used separately for the inflow-type power generation base supply and for (water-reserved, adjustment-type, reservoir-type) power generation peak supply.

There has been a problem that the amount of water supplied from nature is not constant throughout the year for peak supply (regulating pond type, reservoir type).

Pumped storage power generation was not a facility for generating new power, but was a facility for utilizing the surplus power at night in the daytime (peak time).

As mentioned above, peak power generation has drawbacks.

Problems that the invention is trying to solve

The present invention has been made in view of these points, and its object is to change peak power generation to base power generation to increase the combination ratio of hydroelectric power supplies.

A dam will be created between the sea and the land to supply a drop-in power generation base. The inflowing seawater is pumped up to the upper pond (regulating reservoir) built on land. We will use the head of the upper pond (regulating pond) and the inside of the dam to supply pumped storage-type power generation peaks. By combining the base supply and the peak supply, insufficient points can be improved and full-scale hydroelectric power can be changed for continuous stable and continuous base supply.

Deep sea and land (a cliff, a cliff) are the best forms because an effective head can be taken.

The nuclear power plant will be decommissioned and the ruins will be built around it. The building will be dismantled and reused as a part of the bridge, and insufficiently replenished with earth and sand, and waterproofed to make it an upper pond (regulating pond) to make it a pumped storage power plant.

Power transmission equipment can be used, there is no problem in using sea level, and the problems of CO ₂ problem, natural environment, air pollution and fuel cost can be solved.

Safe hydropower is the best way to prevent global warming.

The scope of the present invention is not limited to the above, but can be applied to rivers, canals, lakes, ponds, docks and the like.

The present invention is a method of performing full-scale hydroelectric power generation using seawater close to infinity

In the past, hydroelectric power generation was based on the inflow-type generation base supply and (water-reserved type, adjustment reservoir type, reservoir type) for generation of peak power supplies and separately for individual.

There is a problem that the amount of water supplied from nature is not constant throughout the year for the peak supply (regulating pond type, reservoir type).

Pumped storage power generation was not a facility for generating new power, but was a facility for utilizing the surplus power at night in the daytime (peak time).

As mentioned above, peak power generation has drawbacks.

Problems that the invention is trying to solve

The present invention has been made in view of these points, and its object is to change peak power generation to base power generation to increase the combination ratio of hydroelectric power supplies.

A dam will be created between the sea and the land to supply a drop-in power generation base. The inflowing seawater is pumped up to the upper pond (regulating reservoir) built on land. We will use the head of the upper pond (regulating pond) and the inside of the dam to supply pumped storage-type power generation peaks. By combining the base supply and the peak supply, insufficient points can be improved and full-scale hydroelectric power can be changed for continuous stable and continuous base supply.

Deep sea and land (a cliff, a cliff) are the best forms because an effective head can be taken.

The nuclear power plant will be decommissioned and the ruins will be built around it. The building will be dismantled and reused as part of the bridge, and the shortfall will be replenished with earth and sand, and waterproof construction will be carried out to make it an upper pond (regulating pond), and it will be a pumping power plant.

Power transmission equipment can be used, there is no problem with sea level use, and the problems of CO problem, natural environment, air pollution and fuel cost can be solved.

Safe hydropower is the best way to prevent global warming.

The scope of the present invention is not limited to the above, but can be applied to rivers, canals, lakes, ponds, docks and the like.

Left side view The upper pond on land, the lower pond inside the dam, and the sea outside the dam. Front view It is a figure showing the upper pond and the lower pond seen from the sea side.

Claims (3)

A dam will be created between the sea and the land to supply a drop-in power generation base. Pump the seawater that flows into the inside of the dam with the pump dedicated to pumping with the electromotive force to the upper pond (regulating reservoir) built on land. We will use the difference between the upper pond (regulating pond) and the inner side of the dam to supply pumped storage-type power generation peaks. The amount of water in the upper pond (regulating pond) can be adjusted by the pump-turbine by combining it with the inflow power generation. Since the adjustment of water volume inside the dam and in the pond can be adjusted by preparing a bypass that returns the falling water for power generation from the upper pond (regulating pond) to the sea outside the dam, stable supply can be continued continuously. The power source combination ratio of hydroelectric power is increased, and it becomes possible to decommission nuclear power generation. The land of the deep sea and (the cliff, cliff) is the best form because the effective head can be taken. The nuclear power plant will be decommissioned and the land on the ruins will be built around it. The building will be dismantled and reused as part of the bridge for waterproofing work, and will be used as an upper pond (regulating reservoir) to create a pumping hydropower plant. There is no problem in using power transmission facilities and using sea level, and hydropower that can solve all of CO ₂ , air pollution, natural environment and fuel cost is the best way to prevent global warming. When combined with the inflow power generation of claim 1, it becomes more efficient. The scope of the present invention is not limited to the above, and can be applied to rivers, canals, lakes, ponds, docks and the like.

Images