WO2007080433A1 - Ecological installation comprising a wind turbine, hot water solar heaters and a hydrogen motor - Google Patents

Abstract

The main concept of the ecological station is, first that it combines all three clean energy sources that are so far known to man, i.e. wind, sun and hydrogen combustion, for electricity production, second that its wind generator has new, light and pioneering blades presenting special advantages for electricity production, and third that it rotates and changes the tilt of its solar collectors for better and greater energy collection. The purpose of the station is to use the whole of the electricity it accumulates from the wind generator operation and the solar collectors for the production, through electrolyses, of as much hydrogen as possible and to use the self -produced hydrogen as fuel for its hydrogen generator.

Description

ECOLOGICAL INSTALLATION COMPRISING A WIND TURBINE , HOT WATER SOLAR HEATERS AND A HYDROGEN MOTOR

The Invention refers to a Clean Electricity-Producing Station that at the 05 same time is a Solar water heater than can be used both in residential and professional applications; the waste produced by the operation of the station is clean water.

Similar stations for the production of Electricity are in existence today, however none combines simultaneous use of all three currently known 10 clean sources of energy for Electricity production (wind, sun, hydrogen combustion) and simultaneous production of hot water by Solar Water heater.

The shape of the ecological station for electricity production may vary depending on the installation conditions, the station capacity and the 15 installation site (figures 1 and 2).

The ecological Station producing clean Electricity and hot Water consists of the following five (5) main parts:

1) Vertical-axis wind generator with original and novelcircular, bow- shaped, concentric and catoptric blades (figures 3 and 4 and 5); the

20 reason for using blades of this type is that Work is produced with winds weaker than number three (3) on the Beaufort scale on one part, and that the noise generated by the conventional present-day wind generator blades is eliminated on the other. All the other elements of the wind generator structure are the same as in the currently used industrial wind

25 generators.

2) Solar water heater having a partially or fully rotating circular collecting surface of adjustable tilt of up to 90 degrees; the ratio of rotation to tilt change of the collecting surface represents the gain in energy that we can achieve by taking full advantage of the sun's motion. All the other

30 elements of the Solar Water Heater are the same as the Solar Water Heaters produced currently.

3) Water Electrolyses for Hydrogen and Oxygen production take place either in the simple comnion method or the fast-spark method and they are many and simultaneous, depending on the requirements of the

35 hydrogen motor. The hydrogen gathered at the electrolysis cathodes is used as fuel for the motor, and the oxygen gathered at the electrolysis anodes is either released to the atmosphere offering thus an environmental benefit or is collected and marketed.

4) Hydrogen Motor, used as generator for the production of electricity. 40 This motor may be either a currently existing hydrogen motor such as those already available by large car manufacturers like FORD, BMW, TOYOTA, etc. or any other current, modern, existing Injection petrol engine of any manufacturer, which, through the use of a suitable, existing hydrogen injection system, is converted into a motor capable of running 45 on hydrogen. I..¹ - _ " ' -•_ . : I .^■ r : : v i : ι _{; ;} __>. ;< . c C J .C-C J- ac^ zourc-z UΞZ.Q h oie ϊc∑αon; cha coniiDuraπcn ϊnα the ΞccusnUators ars the same SΞ currently used in ever, operating wind generator today. The individual elements for the construction of the invention (figures 1 and 2) are as follows:

Vertical-axis Wind Generator blades (figures 1 and 2 (I)) The wind generator blades may be either fully circular (figure 3) or cap- like (figure 4) or crown-like (figure 5) with many or less bow-shaped, concentric catoptric blades depending on the site and the Wind. Blades move in a circular manner and are attached directly to the central shaft of the wind generator motor (5).

Solar Water Heater (figures 1 and 2 (2))

The Solar Water Heater tank is a common water heater tank identical with the tanks currently used except that at its center there is the circular empty space (3) from which passes the wind generator motor shaft.

Circular space for the Shaft of the wind generator motor (figures 1 and 2 O))

Controlled water flow for Electrolyses (figures 1 and 2 (4))

Location of the Wind Generator Motor and the wind generator inverter and the collector surface (figures 1 and 2 (5))

Location of the Hydrogen motor inverter (figure 1 and 2 (6))

Electrolyses for hydrogen production and fixed or portable hydrogen storage tank (figures 1 and 2 (7))

Location of the hydrogen Motor (figures 1 and 2 (8)) Wind generator wiring and piping (figures 1 and 2 (9)) Solar Water Heater Resistance (figures 1 and 2 (10))

Rotating collector surface, of an adjustable tilt up to 90°, for the ecological Electricity-producing station and solar Water Heater for hot water (covered with photovoltaic panels and heating cells) (figures 1 and 2 (11)) The outside of the Solar Water Heater of the ecological Electricity- producing station is covered with photovoltaic panels of monocrystalline silicon and vertical heating cell sites and, depending on the location, it is partially or fully rotating with an automatically adjustable tilt, for better collection of solar energy and heating of the heating cells. The ecological Electricity-producing station and, by extension, the solar water heater may be of any size depending on the site and the water heater capacity.

The Electricity produced by the wind generator and the photovoltaic panels is accumulated and used for heating the water of the Solar Water Heater, for rotating and adjusting the tilt of the external cover of the plant when there is sunshine on one hand, and for the water electrolysis and r >_ . _L ' i . . in ^*„ riv ^' . _ i C f -^• _ i >τ c c » i i i _ "Li^" -!^'

Tha ≤lsctricity actually used, if no electricity can be spared from the wind generator and the photovoltaic panels, is the one produced on a 24-hour basis by the hydrogen motor. The height and the diameter of the base of the residential clean Electricity production station vary depending on the size of the solar water heater and the size of the hydrogen motor.

All Digital charging regulators, programmable screens of the charging regulators and the industrial-type accumulators used at the ecological Electricity-producing station and of the wind generator, and the solar collectors and the hydrogen generator (motor), are located outside the Ecological clean Electricity producing Station.

Claims

2CGIΦ32GAI. fTATΞCi! FC ^ tΞ!ΞC7Q"C"77 Fu:ODGi!CTE2v3 A^d2) WOT WATEK SOLAK WATER HEΛ7EK a) The Ecological Station for Electricity Production and Hot Water Solar Water Heater is characterized by the simultaneous, depending on weather conditions, production of electricity generated by its vertical-axis wind generator (1) (3) (5) which uses original circular, bow-shaped and concentric catoptric blades, and by its multiple, solar energy collector surfaces (11) rotating and changing their tilt up to 90° following the sun's movement, and by its hydrogen motor (generator) (8) (6) using the very same fuel produced through electrolyses (4) (7) that it needs for its operation, as well as by 24-hour uninterrupted availability of the hot water it offers (2) (10).

2) The Ecological Station for Electricity Production and Hot Water Solar Water Heater is characterized by the use of three types of blades (circular, cap-shaped, crown) on its vertical-axis wind generator (1) (3) (5), depending on the site where the Ecological Station for Electricity Production and Hot Water Solar Water Heater is being used, for partial or total efficiency of the wind generator.