RU2117183C1 - Environmentally oriented electrodynamic plant - Google Patents

Abstract

FIELD: power engineering. SUBSTANCE: plant has power-driven fan 3 used to dissipate gaseous state of material (dynamic jet) at the same time forming jet steps and using effect of wake by turbine 4 which can take flows up to sonic velocities without reducing aerodynamic properties at angles up to 45 deg. Turbine mass is enlarged many times; total area of turbine blades is much larger than that of fan blades. Gravitational coupling of vertically arranged plant is as follows: fan-vertical flow-turbine; this provides for uniform distribution of flow and reduction of thrusts on each bearing. EFFECT: improved efficiency and reduced resistivity and heating temperature. 1 dwg

Description

 The invention relates to the field of energy, and in particular to the design of an electrodynamic installation.

 The horizontal layout of rotating units existing in power plants, the mechanical transfer of power to the output shaft through a belt, cardan, chain, etc. systems, as well as in gas turbine engines, the supply of direct dynamic flow force to the turbine limits the possibility of increasing the efficiency (efficiency) of the plants and does not allow constructive use of the existing in nature mechanism of electromagnetic and gravitational interconnection of planets and the sun in a closed cycle, which includes constantly qualitative transformations matter and the emergence of new states through a dynamic flow.

 A known turbine containing a spheroidal sleeve with blades mounted on it and mounted on an axis with bearings with the possibility of forming vertical and horizontal blades mounted at negative angles and with the possibility of concentration of the dynamic flow force (see RU, patent 2063540, class F 03 D 1/06, 1996, Fig. 1) and the wind turbine "environmental protection" (SOS), allowing the total power of several turbines to transmit over the shoulder to the axis of the generator (see RU, patent 2067691, class F 03 D 3/00, 1996 , Fig. 1).

 The closest analogue (prototype) is an electrodynamic installation, including an energy carrier, a dynamic flow supply pipe, a turbine, an axis, a generator arranged together on one axis (see FR, application 2465897, class F 03 D 3/00, 1981).

 The aim of the invention is to increase efficiency and expand the functionality of plants operating on the energy of wind, water, steam, sun, the creation of perpetual power plants (wind farms) with autonomy and independence from the planet’s energy resources.

 The essence of the invention lies in the scattering of a dynamic flow by an electric fan having a step and a steep step, and then its inverse concentration on the turbine with a vertical layout.

 In FIG. 1 shows a General view of the layout of the electrodynamic installation in the housing; in FIG. 2 - structural diagram of the system, where 1 is the control unit, 2 is the discharge resistance, 3 is the inverter, 4 is the battery.

 To achieve this goal, the design of the electrodynamic installation in FIG. 1 is a cylindrical-shaped housing 1 with a dynamic flow inlet and outlet, fastening units 2, on which a fan 3 in the lower part and a turbine 4 on the axis 5 with a generator 6 in the upper part are vertically mounted. The housing 1 assembly is mounted on the base 7.

 The fan 3 is turned on, the turbine 4 is rotated on the axis 5 with the generator 6 and the operating mode is switched on from rechargeable batteries, the concentrated electric energy of which passes through the scattering process through the electric motor and the dynamic flow created by the fan blades 3, with a constant speed from the bottom up and the formation of with pitch and twist.

 Turbine 4 with electrodynamic capabilities of perceiving the effect of a tangled jet concentrates the energy of the flow coming from below and due to the many times larger area of the blades and mass, with the same diametrical dimensions, acquires the physical properties of the flywheel and significantly increases the torque on axis 5 of generator 6, while maintaining revolutions equal to revolutions a fan.

 In this case, the generator 6 generates more electricity than is spent on the closed-loop process. Excess energy is used to recharge batteries and to consumers.

Claims (1)

 An electrodynamic installation including an energy carrier, a dynamic flow supply pipe, a turbine, an axis, a generator arranged together on the same axis, characterized in that the electric fan forming a dynamic flow step, the turbine on the axis with the generator are arranged vertically on attachment points in a cylindrical body with the possibility the impact of the jet from the bottom up on the turbine, capable of perceiving and concentrating the flow force on the blades.

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