CZ303080B6 - Small hydroelectric power plant with screw-type rotor - Google Patents

Abstract

In the present invention, there is disclosed a small hydroelectric power plant provided with a screw-type rotor (1) being disposed within a skew trough (2) with a headwater channel (3) and a water outlet passage. Said headwater channel (3) has, at least in the region of the connection to the trough (2), the form of a confuser (5) while said water outlet passage has, at least in the region of the connection to the trough (2), the form of a diffuser (6).

Description

Small hydropower plant with screw rotor

Technical field

The invention relates to the field of hydraulic machines and devices for converting water energy into mechanical energy (water turbines, hydraulic motors), the working element of which is a single or multi-bolt screw rotating in an inclined cylindrical trough. The screw threads are made of sheet metal and have the shape of a screw surface.

BACKGROUND OF THE INVENTION

Screw Pump devices are well known. The use of the screw pump was intended for irrigation at least 15 times. Modern screw pumps were initially produced in large dimensions for dewatering polders and later for the transport of heavily polluted wastewater in wastewater treatment plants.

Some of the solutions of the small-scale hydroelectric power plant with a screw-water motor in the Eurozone over the past decade have not respected the fact that the inlet unit and the output part are integral parts of the machine.

DE 41 39 134 describes a screw water motor for transforming energy. The water motor consists of a screw which is mounted in the trough. The geometry of the water inlet to the screw channel as well as the water outlet is not designed to respect the optimum conditions for the conversion of water energy to mechanical energy. The solution also describes the modification of the inlet part of the screw machine by reducing and bypassing the water supply for small flows.

DE 195 07 149 discloses a collapsible, compact screw-type water motor, which forms a compact unit with a drive and a supply tank. The water supply to the tank is from a fixed channel or from a pipe. The position of the tilting unit can be adjusted to the height of the upper water level at the inlet of the Screw Water Motor and at the bottom at the water outlet of the machine. The disadvantage of this design is the complicated liquid inlet into the screw water motor. The mechanism of tilting the unit or its attachment to the foundation is not solved. Handling the aggregate worsens the conditions of the steady flow of water at the inlet and outlet.

DE 103 48 533 discloses a small hydroelectric power plant in which the working elements of the water motor are open troughs which perform vertical reciprocating linear movement in an annular space formed by concentric cylinders. A vertical screw is located in the cavity of the smaller cylinder as part of the conversion of the reciprocating linear movement of the troughs into a rotary movement transmitting mechanical energy to the power generator. However, the screw in the present solution is not in contact with the working fluid and the mechanism is not kinematic described.

US 2004027020 discloses a solution in which the rotor of a screw water motor is encapsulated and provided with external permanent magnets. The rotor is also housed in a tube with internal magnets, which, when the tube is a stator, can serve as a stator of a DC generator. If the tube is rotatable, the device can serve as an electromagnetic coupling of the dynamo or alternator. The device is designed for small power sources in laboratories and for the transport of dangerous liquids.

The published application CZ 1990-4806 relates to a floating hydroelectric power plant with a screw water motor, which is placed on a vessel anchored on a weir.

-1 CZ 303080 B6

SUMMARY OF THE INVENTION

Disadvantages of the above-described devices are overcome by a small hydroelectric power plant with a screw rotor according to the invention, which consists in a complex optimal construction, including a suitable modification of the inlet and outlet components. The rigidity of the rotor is guaranteed by the robust dimension of the support pipe of the screw blades. The optimum geometry of the screw working space guarantees high swallowing and hence the performance of the screw water motor.

Increasing the speed of the screw machine from the value usual for screw pumps dictated by the absence of spraying of the pumped liquid guarantees a high efficiency in the screw motor according to the invention. The efficiency of the screw water motor according to the invention is large and decreases very slowly over a wide flow range. The inlet channel to the screw motor is straight, tapering and smoothly without sharp transitions, following the circular channel profile. This guarantees minimal loss of liquid drop and thus high machine efficiency.

The outlet channel according to the invention continuously follows the sewer, is formed by an inclined trough and bends the flow of liquid into the desired outlet direction. The channel wall extension angle is not more than 15 °; this channel is gradually expanding, thus reducing the output speed without swirls, waves and unwanted losses. The screw motor conceived according to the invention can be overfilled for a short time and operated at flow rates greater than nominally up to 20% without changing the efficiency of the machine.

Said shortcomings in the geometry of the inlet of a small hydropower plant with a screw motor, ie water withdrawal from a watercourse, reservoir or process technology channel, eg in sewage treatment plants, water conduction through a feed channel terminated with a suitable confusor transition to the screw motor inlet. The geometry of the outlet object at the water outlet of the screw water motor is adjusted by a hydraulically suitable transition smoothly connected to the circular water outlet of the water motor. The transition fitting has widening flanks and a bottom sloping in the direction of the machine rotor slope, and continues as a drainage channel without sharp bends, the mouth of which flows into the watercourse or sewer system tangentially downstream.

The aim of the proposed solution of small hydropower plants with a screw motor according to the invention is such an arrangement of inlet and outlet object, which ensures conversion of hydraulic energy of water to mechanical energy with minimal hydraulic losses, absence of secondary vortices at inlet. efficiency of transformation of water energy to mechanical energy, reliability and long life of the device.

The small screw rotor hydropower plant according to the invention has a screw rotor which is mounted in an inclined trough with a water inlet channel and a water outlet channel. The principle of the present solution is that the water inlet duct is at least in the region of the connection to the trough a confusor and the water outlet duct is at least in the region of the connection to the trough a diffuser. An advantageous feature of the invention is that the confuser has rounded walls.

Another advantageous feature is that the confusor is cone-shaped or pyramid-shaped.

A further essence of the present solution is that the water outlet channel has a bottom which smoothly connects the edge of the trough with the outlet channel.

The water outlet channel or diffuser is tangentially connected to the outlet channel.

The feed channel has bends rounded such that the corners and corners have a radius equal to at least twice the width of the feed channel.

- 2 GB 303080 B6

The edge of the water inlet channel is provided with a semi-circular profile collar.

BRIEF DESCRIPTION OF THE DRAWINGS

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an overall view of the present invention; FIGS. 2, 3 and 4 illustrate various configurations of the confusor. Figures 5, 6 and 7 show variants of the transition of the screw rotor channel and the diffuser. Figure 8 shows an embodiment of the shape of the supply channel. Figure 9 shows a supply channel provided with a semi-circular cross-sectional collar.

DETAILED DESCRIPTION OF THE INVENTION

The screw rotor 1 is located in the inclined trough 2 with minimal play. The water inlet into the working space of the screw rotor 7 is configured as a confuser 5. A part of the screw rotor 1 extends into the confuser 5, connected to the inlet duct 3. The shape of the confuser 5 ensures minimal energy loss of the geodetic gradient being processed. The water outlet of the screw rotor 1 is oriented in the direction of the axis of the screw rotor I as the outlet channel or the water outlet. diffuser 6 with low angle of extension. This minimizes swirls and waves causing energy loss.

The supply channel confuser 5 has rounded walls in cross section.

The feed channel confuser 5 has the shape of a cone or a pyramid.

Water outlet channel resp. the diffuser 6 has a bottom 7 which continuously connects the edge of the trough 2 with the outlet channel 8.

Water outlet channel resp. the diffuser 6 is tangentially connected to the outlet channel 8

The feed channel 3 has bends rounded such that the corners 9 and corners 10 have a radius equal to at least twice the width of the feed channel 3.

The edge of the water inlet channel 3 is provided with a collar H of a semicircular profile.

The water enters the small hydroelectric power plant building through a direct inlet channel of, for example, a rectangular cross section. This inlet duct 3 tapers through the confuser 5. The water moves downward into the widening diffuser 6 by rotating the screw rotor 1, and subsequently into the outlet duct 8 and into the outlet.

The water level in the supply fluctuates, depending on the variable hydrological conditions during operation, from the maximum value through the optimum value up to the minimum value at the height of the inlet channel threshold. The water level in the outlet duct 3 is determined by the optimum operating conditions. At higher, but especially lower values, the efficiency of a small hydroelectric power plant decreases very little.

The screw rotor 1 is mounted in a concrete slope trough 2 with a precisely defined amount of clearance between the slope trough 2 and the screw rotor L The concrete slope trough 2 is armored with a steel plate which is embedded and anchored in the concrete substructure, which is done by special assembly.

Pouring water from the blades of the rotating screw rotor I over the edge of the semi-cylindrical bevel 2 is prevented by a cover strip which is attached to the filling concrete on the plunging side of the screw rotor blades L

-3 GB 303080 B6

Industrial applicability

The solution of the present invention can be used on smaller water sources to convert water energy into mechanical energy. The present solution in a simple and economical way ensures optimal arrangement of the inlet and outlet object, which ensures the conversion of hydraulic energy of water to mechanical energy with minimum hydraulic losses, absence of secondary vortices at the inlet, formation of back vortices at the machine outlet. This ensures high efficiency of transformation of water energy to mechanical energy, reliability and long life of the device. Another suitable application of the present solution may be utilization in waste water treatment plants.

Claims (8)

PATENT CLAIMS A small hydroelectric power plant with a screw rotor (1), which is arranged in an inclined trough (2) with a water supply channel (3) and a water outlet channel, characterized in that the water supply channel (3) has at least in the region of connection to the chute (2) has the shape of a confusor (5) and the outlet water channel has the shape of a diffuser (6) at least in the region of the connection to the chute (2). Small hydroelectric power plant according to claim rounded wall. Small hydroelectric power plant according to claim cone shape. Small hydroelectric power plant according to claim pyramid shape. characterized in that the confusor (5) has the fact that the confusor (5) has the feature that the confusor (5) has A small hydroelectric power plant according to any one of the preceding claims, characterized in that the water outlet channel has a bottom (7) which continuously connects the edge of the trough (2) with the outlet channel (8). Small hydroelectric power plant according to any one of the preceding claims, characterized in that the water outlet channel is tangentially connected to the outlet channel (8). Small hydroelectric power plant according to any one of the preceding claims, characterized in that the supply channel (3) has bends rounded such that the corners (9) and the corners (10) have a radius equal to at least twice the width of the supply channel (3). Small hydroelectric power plant according to any one of the preceding claims, characterized in that the edge of the water inlet to the supply duct (3) is provided with a collar (11) of a semicircular profile.