RU2379544C1 - Wind solar power generation plant - Google Patents

Abstract

FIELD: engines and pumps.

SUBSTANCE: proposed plant comprises rotor formed by vertical shaft with blades arranged on its outer surface that feature radial size increasing along the rotor height. Rotor blades are arranged along spiral line so that the end of every subsequent blade on rotor upper level overlaps the start of every previous blade on rotor lower level. Rotor lower part can rotate in truncated-cone funnel aligned with solar flat collector smaller diametre. Said collector represents two strong polymer films, transparent upper film and black lower film with larger radial diametre in horizontal plane compared with rotor height. Solar energy collector can be mounted in desert location, or slat pond or the like. Proposed plant allows using repeated wind lower speeds, e.g. v=2 to 6 m/s to operate it almost continuous mode to increase wind power capacity factor and windmill operation interval in windless but sunny periods.

EFFECT: simplified design and higher efficiency.

2 cl, 2 dwg

Description

The invention relates to the field of wind energy and can be used for stable operation of wind turbines at moderate wind speeds.

Known wind power installation with a rotor containing a vertical shaft with blades on its outer surface, which are made with increasing radial size along the height of the rotor, while the rotor blades are mounted in spirals so that the end of each subsequent blade at the upper level of the rotor overlaps the beginning of the previous blade on the lower the rotor level, and the outer surface of the rotor shaft has a cylindrical or conical shape with the top of the cone located at the lower level of the rotor (RU No. 2293211, F03D 5/00, 02/10/2007), in total STI essential features adopted for the closest analogue of the invention.

With all its advantages, during a period of calm, a wind power installation with the described rotor will have a zero coefficient of performance (COP).

The aim of the proposed technical solution is to increase the efficiency of a wind turbine with a rotor design of the prototype type due to the use of solar heat, thereby smoothing out the effect of cyclical wind energy.

The technical result, which consists in increasing the efficiency of using renewable energy in rotors oriented vertically at moderate wind speeds, is provided in a wind power installation containing a rotor formed by a vertical shaft with blades on the outer surface, made with an increasing radial size along the height of the rotor, the rotor blades are installed on spirals so that the end of each subsequent blade at the upper level of the rotor overlaps the beginning of the previous blade at the lower level outside the rotor, and the lower part of the rotor is mounted for rotation in a truncated-conical socket, conjugated, at least in smaller diameter, with a flat solar energy collector, which is two durable polymer films - a transparent upper and black lower larger radial in the horizontal plane in comparison with the height of the rotor. The solar energy collector can be mounted in a desert area, including sandy or marshy, or located in a natural or artificially created salt pond.

Figure 1 shows a variant of the rotor of a wind turbine installation, top view. Figure 2 shows a wind turbine installation (without an electric generator), General view.

A wind turbine installation comprises a rotor 1, formed by a vertical shaft 2 with blades on the outer surface, made with increasing radial size along the height of the rotor 1, when the blades of the rotor 1 are mounted in spirals so that the end of each subsequent blade at the upper level of the rotor 1 overlaps the beginning of the previous blade on the lower level of the rotor 1. In this case, the lower part of the rotor 1 is mounted for rotation in a truncated conical socket 3, which may not be continuous, but in the form of a guiding apparatus conjugated, of at least the smaller of the diameters of a flat solar collector, which is a two solid polymeric film - transparent top 4 and bottom black 5 - large (compared to the height of the rotor 1) radical size in the horizontal plane. In this case, a flat collector of solar energy can be mounted in a desert area (including sandy, swampy ...) or can be located in a natural or artificially created salt pond.

Wind turbine installation of the proposed design works as follows.

The wind flow, striking the blades of the rotor 1, appropriately oriented towards the incoming flow, transfers the kinetic energy to the blades, thereby causing the rotor 1 of the wind power installation to rotate and the shaft 2 to which the blades are attached. In addition, inside the cone of the rotor 1 and truncated-conical socket 3, coupled with a flat collector of solar energy, a swirling wind flow is formed, which according to the law of continuity of the flow increases the total kinetic energy, as well as the power and efficiency of the wind turbine. The effect is significantly enhanced by solar heating of constantly renewed air in the region between two strong polymer films - transparent upper 4 and black lower 5 - of a large (in comparison with the height of the rotor 1) radial size, which form a flat collector of solar energy.

Thus, making fuller use of the range of low but most repeating wind speeds v = 2-6 m / s, it is possible to ensure the operation of the wind power installation in a mode close to continuous, thereby increasing not only the coefficient of utilization of wind energy, but also the working time of the wind turbine, for example, when sunny but almost calm weather prevails.

Claims (2)

1. Wind turbine installation containing a rotor formed by a vertical shaft with blades on the outer surface, made with increasing radial size along the height of the rotor, the rotor blades are mounted in spirals so that the end of each subsequent blade at the upper level of the rotor overlaps the beginning of the previous blade at the lower level of the rotor characterized in that the lower part of the rotor is mounted for rotation in a truncated conical socket, conjugated at least by a smaller diameter with a flat shaft a solar energy lecturer, which is two durable polymer films - a transparent upper and black lower one of a larger radial size in the horizontal plane in comparison with the height of the rotor. 2. Wind turbine installation according to claim 1, characterized in that the solar energy collector can be mounted in a desert area, including sandy or swampy, or located in a natural or artificially created salt pond.

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