WO2010053461A2

WO2010053461A2 - Power plant that operates with perpendicular air current

Info

Publication number: WO2010053461A2
Application number: PCT/TR2008/000147
Authority: WO
Inventors: Nuri Sineklioglu; Ertugrul Kurban
Original assignee: Nuri Sineklioglu; Ertugrul Kurban
Priority date: 2008-11-10
Filing date: 2008-12-26
Publication date: 2010-05-14
Also published as: TR201103649T1; WO2010053461A3; MA32881B1; ZA201103367B; MD20110045A2

Abstract

This invention is related to power plant (1) that supply energy production with perpendicular air current and features to include a minimum plinth (5) part that making air intake (3) by controlled, minimum one squinch part (6) that directed by the air and/or supplied air intake on the plinth (5) part, minimum one or two towers are related to the squinch part (6), minimum one alternator (10) that obtaining electricity with current of air which is passing from towers (7) in question.

Description

DESCRIPTION

POWER PLANT THAT OPERATES WITH PERPENDICULAR AIR CURRENT

Technological Field

Present invention is deal with power plants that obtains energy, like barrages, fuels that essential fosil, wind energy, sea/wave energy.

Especially; this invention is deal with a new power plants easy installation and low investment costs and a new powerplant that benefits from natural energy sources, obtains with perpendicular air current and alternating current with more than one alternator.

Known Condition of the Technology

Nowadays; lots of methods are using for obtaining energy. Electricity is obtaining with hydroelectric power plant that builded in barrages. But it is open that the sources of water is finishing and needing particular quantity of water for obtaining necessary energy.

Power plants are exhausting the natural sources quickly in prqducting of energy with fuels that essential fossil (petrol/coal/natural gas,etc). Problems are consisting wherefore the negative effects to environment.

The stations dependent on the wave action is not suitable for related to irregular product hours. It is necessary that building the related energy production stations where the same force of wave always consists.

It is provided that easiness of usig nature gas. The faults are becoming in the wind plants having a propeller. Because of these and containing expensive costs; it is betraying risky situations in the energy production.

Raw material costs in the nature gas power plants are inexpensive on the international market price like 340 $/ton. But when we use it for producting energy, it is very expensive systems because of the installation costs, operation costs, upkeep costs, plant lifetime and using highwater. Nitrogen oxside that lets out to the air in producting energy, take disaster of environment into account.

When it is considered the positive/negative directions in the known energy product methods, it is gone to searching a new energy production method.

Because of that, wind generators that achieve to obtaining electrical energy from wind energy coming up to the forefront in the newest energy production method. But there are some negatives like no to installation wind power plants to everywhere that we want, upkeep time and long life time of plant.

Otherwise, Carbondioxide, Sulphuric acide and Nitrogen oxsides which open a road to global warming because of the fuels that essential fossil, oscillation (emission) quantities are high during production. And it is a very important reason that increase the pollution of environment.

For example;

1.754 million ton CO2, 11.26 ton SO2, 6.5 million ton Nitrogen oxsides are letting out to atmosphere for producing 1.653 million KwH electrical energy with coal. 180 million ton CO2, 1 million ton SO2, 0.61 million tone Nitrogen oxsides are letting out to atmosphere for producing 268 million KwH electrical energy with nature gas.

55 million ton CO2, 345 million ton SO2, 0.1 million ton Nitrogen oxsides are letting out to atmosphere for producing 56 million KwH electrical energy with petrol.

Zero CO2, zero SO2, zero Nitrogen oxsides are letting out to atmosphere for producing 3 million KwH electrical energy.

The datas that given above show us; fuels that essential fossil affect human health directly and they keep on the effects of soil/water/plant, irritations by foods, cancer, respiratory diseases, skin diseases etc.

California Energy Comission inspects the costs of varied energy choices and preparations to the market. Below, costs of four main fuel type are given. Costs Except Taxes ( Cent/KwH )

Nuclear Energy 11.1-14.5

Biomass 5.8-11.6

Hydrolic Power Plants 5.1-11.3

Coal 4.8-5.5

Natural Gas 3.9-5.5

Wind 4.0-6.0

The datas that given above shows that the wind energy is more favored than the other producing techniques. For instance; in the systems with winged/propeller, the tower of a generator (40 meters high ) with 400 Kw/h. Capacity have not any function aside from carrying a couple of propeller/generator which needs to a turning area with 36 meters diameter. A body structure has to be that project according to wind load, at the potential windy area that we observe it minimum one year. It has to take shape according to the form of wind which belows periodic from one way.

As fort he system of winged/ propeller types; the form of wind between 4-150 knot, affects the towr measures, generator brake system, wing form and material. The situations like wing breaking can be appeared. If it is acceptable that is the best choice, the whole efficiency can be taken only 120 days of a year. Other times contain some cases like; waiting wind, waiting cease of storm, reparation of bed system and reparation of wing.

As a result; the investment of 1000 units will be comeback as 350 units. It shows that the cost increase suddenly 3 multiple rate, mathematically. Also, it is a negative situation and it needs to a new development.

Aim of the Invention

If we look at the known condition of the technology, the invention's aim is; developing a new power plant that increase the negatives in the present structuring.

The another aim of the invention is; obtaining confirmed energy production without waiting regular wind.

The another aim of the invention is; reaping a profit from investment and operation costs. The another aim of the invention is; taking away the negatives like; break up of wing, braking system.

The another aim of the invention is; supplying to continue the energy production which is not necessary to stop the system on the fault.

Another aim of the invention is; supplying permanence of the particular air quantities regulation which is constituted on the bottom end and tower.

Another aim of the invention is; supplying a regular energy production with the alternators which is locating on the tower when the current of air controlled at the flor part, is sending to the towers uprightly.

Another aim of the invention is; developing a power plant that making energy production for 365 days/24 hours.

Another aim of the invention is; supplying non-stop electricity generation, many of alternators stand by each other basaltic upholstery, solar system, squinch system, exterior in different colours, glass house, generator.

Another aim of the invention is; obtaining high performance supplying minimum possibility of break down and working with minimum staff.

To come up to the aims that mentioned; a new power plant developed that is not necessary to wind, provided installation in everywhere, obtained energy with alternators from the perpendicular action of the air by only atmospheric differences of the air.

Clarification of the Figures

Figure- 1; It is the technical drawing by an actinal exercising of the invention. Figure-2; It is the technical drawing of cross sectional appearence by an actinal exercising of the invention Figure-3; It is the technical drawing of cross sectional and overhead appearence that emphasized the way of current air on an actinal exercising of the invention.

Clarification of the References

1 Power Plant 11 Sensation Sensor of the current of air

2 Air Outlet 12 Air Control Component

3 Air Intake 13 Air Sensation Sensor

4 Coloured plinth parts 14 Heat Tank 5 Plinth 15 Conditioner

6 Squinch Part 16 Immersion System

7 Tower 17 Collimator

8 Coloured parts of the tower 18 Air Filter

9 Suction Part 19 Maintainer

10 Alternator

Detailed Clarification of the Invention

Our invention is a new powerplant that supply to abtaining continual energy with perpendicular air current.

Figure- 1,2,3 show that there are some parts like; plinth part (5) containing power plant (1), air intake (3) parts, coloured plinth parts on the plinth part (5); squinch part that coming air pass from the air intake (3); second tower (7) that created on the squinch part (6); air outlet (2) with perpendicular air passing from out and in the tower (7).

It is obtaining energy with the alternators that created on the power plant (1) and is not having a stabile magnet bed. Needful air quantity is regulating by air control component (12) with sensation sensor of the current off air (11) that created on the air intake by perpendicular current of air. Coloured parts of the tower (8) on the tower (7), is being used for supplying the current of air from this parts on the solar times. In the same way, coloured plinth parts (4) on the plinth (5) was designed for different air intakes (3) and it is supplying creation of the perpendicular air current. The plinth parts (5) that limited by air intakes (3) of the system, is collapsible automatically as necessity with air control components by perceiving the air current with air sensation sensor. It regulates the air current by determinated stabile value. The enough air current is supplying to suction part (9).

The squinch part is designed specially for throwing out quickly to the tower (7) part of needed air and creating suction. The alternators (10) that is not having a stabile magnet bed supply to working by do not make any trouble. Different coloured parts of the tower (7) was created to supply extra air current on the solar times.

There is no research outlays during installation as per the other systems. It makes building nearest hometown to consumer possible. It has not any costs like energy transport track and standing directly. It supplies energy production with least staff. Nearness to settlements lets down difficulties and costs of attaining. Shortness of the energy transport track minimize annual care and the damage that becomes from natural disasters. It supplies advantage by supplying decrease in the number of Protecting/Operating staff. Sensation sensor of the current of air (11) is setting on the plinth (5) part . Air current is keeping under control with the sensation sensor of the current off air (11) on air outlet (2). Heat tank (14) sets under the tower (7). The conditions of the necessary air current is becoming. Alternators and collimators (17) is located in the tower (7) that sets within and on the air outlet (2) of the tower (7) that sets outward. Thus, energy production is supplying with air pass. Maintainer (19) and air filter (18) is located on the air outlet of the tower. Air current is keeping under control by locating collimators (17) on the air intake (3) at plinth (5) part.

Immersion system (16) is located on the plinth (5) part. There is a conditioner (15) which controls the conditions of the air current is related to the plinth (5) part.

Quantity of production which is close by stabile; is supplying to be periodical and same of the quantities and costs of energy that supplies its selling.

Invention can not be cramped with the representative exercises that given on this section. Alternative structurings realized by competent person on technological field, will signify to infringement of the invention, fundamentally, essential elements in the determinated protecting content on demands.

Claims

1. This invention is related to power plants which supply energy production with perpendicular air current and features to include minimum one plinth (5) part that making air intake (3) by controlled, minimum one squinch part (6) that directed by the air and/or supplied air intake (3) on the pinth (5) part, minimum one or two towers are related to the squinch part, minimum one alternator (10) that obtaining electricity with current of air which is passing from towers (7) in question.

2. Power plant (1) is mentioned in item 1 and features to have a minimum one sensation sensor of the current of air (11) that sense dair intake (3) on the plinth (5) part and/or have a minimum one air sensation sensor (13).

3. Power plant (1) is mentioned in any items of above features to have a minimum air control component (12) that control and regulate the air intake on the plinth (5) part.

4. Power plant (1) is mentioned in any items of above features to have a minimum coloured plinth parts (4) that create varied air currents on the plinth (5) and/or tower parts (5,7), and/or have a minimum coloured parts of the tower (8).

5. Power plant (1) is mentioned in any items of above features to have a minimum alternator (10) that is not having a stabile magnet bed and supply to obtaining energy with perpendicular air current.

6. Power plant (1 ) is mentioned in any items of above features to have a minimum suction part (9) that created on the squinch part (6) in question.

7. This invention is related to power plants (1) which supply energy production with perpendicular air current and related to the methods of the energy production; the alternators (10) obtains energy that operates in the perpendicular air current, which is going out with particular speed by directed air that take controlled to towers (7) from the plinth (5) part that supplies perpendicular air current.

8. Energy production method and power plant (1) is mentioned in item 7 and features to make constant energy production with the alternators (10) by utilization from perpendicular air current.

9. Energy production method and power plant (1) is mentioned in item 7 and features to produce electricity with perpendicular air current over the other alternators (10), plinth (5) parts and towers (7), on upkeep and repair times.

10. Energy production method and power plant (1) is mentioned in item 7 and features to have heat tank (14) that located in the lower part of the tower (7) , a minimum immersion system (16) that located in plinth (5) part, a minimum conditioner (15) that located between tower (7) and plinth (5) part, a minimum collimator (17) that located on the tower (7) ora ir intakes (3), a minimum air filter (18) that located tower (7), air outlet (2) and/or a minimum maintainer (19).