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| WIND POWER GENERATOR THERMAL POWER PLANT-WPGTPP |
| Wind power generator thermal power plant (WPGTPP) comprises a furnace, a channel to supply solid fuel, air ducts, a fuel nozzle, an overn, an ashpit, an ashbin, an ashremoving channel, chimney flues, the furnace has a shape of a hopper from a heat conducting thin-walled body, |
| Publishing date: January 26, 2012 |
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| IN-CHANNEL RIVER PLANT. |
| Invention relates to damless river plant usually built on flat-terrain waterabundant rives, a narrow valleys, on mountain rivers as well as in vigorous sea and ocean streams. The in-channel hydroelectric power station comprises water intake with a garbage arrester screen, penstock, hydraulic turbine and suck-out pipe. |
| Publishing date: March 26, 2009 |
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| SELF-CONTAINED THERMAL POWER SUPPLY INSTALLATION. |
| Proposed self-contained thermal power supply installation has an electric generator, first and second heat exchangers joined into a single heat utiliser of exhaust gases, joined to an exhaust gas pipe. Inside the top part of the housing of each heat utiliser there is a sparger, joined through a pipe and a
pump to the bottom part of the housing of each utiliser, which is a reservoir for intermediate heat carrier. |
| Publishing date: March 25, 2009 |
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| GEOTHERMAL POWER PLANT |
| SUBSTANCE: invention refers to heat engineering, and namely to geothermal power plants producing electric energy based on using the heat of geothermal sources. In a geothermal power plant with circuit of heat carrier which includes gas separator, and waste heat exchangers of gas-turbine plant exit gas heat, which are connected with a well, and heat exchangers installed in condensate feed path of steam-turbine circuit, the organic fuel combustion products after gas turbine enter immediately the direct-contact heat exchanger installed on gas separator discharge thermal water piping. Thermal water mixture together with organic fuel combustion products moves through heat exchangers installed in condensate feed path of steam-turbine plant.
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| Publishing date: March 11, 2009 |
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| THERMAL POWER STATION |
| FIELD: heat power engineering; thermal power stations.
EFFECT: no adverse effect on environment, improved economy of thermal power station. 1 dwg |
| Publishing date: May 25, 2004 |
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| WIND HEAT GENERATOR |
| FIELD: wind power engineering.
EFFECT: improved efficiency of wind heat generator. 3 cl, 5 dwg |
| Publishing date: September 2, 2003 |
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| COLD PRODUCING METHOD |
| FIELD: designing of gas refrigeration machines with valve type control of flow of working fluid operating with use of reverse thermodynamic cycle, possibly designing of simple machines reliable in operation.
EFFECT: enhanced percentage cold production factor due to increased quantity of heat taken off after compression of working fluid in compressor at increased temperature at inlet of compressor and due to additionally cooling it after refrigerator until temperature lower than that of environment. 2 dwg |
| Publishing date: August 26, 2003 |
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| HEAT RECOVERING UNIT |
| FIELD: heat engineering, possibly recovering exhaust gases of boiler aggregates.
EFFECT: enhanced quality of heated water, gas turbulization, increased time period between repairing operations of heat exchangers. 2 cl, 1 dwg |
| Publishing date: August 26, 2003 |
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| PLANT FOR RECOVERYING EXPANSION ENERGY OF NATURAL GAS |
| FIELD: systems for lowering high pressure of natural gas, for example in wells or in main pipelines until pressure value necessary for consumer use.
EFFECT: enhanced recovery degree of cold created at lowering gas pressure, production of large amounts of energy and cold, enhanced efficiency of plant. 3 cl, 3 dwg |
| Publishing date: August 5, 2003 |
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| WIND-DRIVEN ELECTRIC PLANT |
| FIELD: wind power engineering.
EFFECT: increased efficiency of conversion of wind flow energy into useful electric energy. 2 cl, 1 dwg |
| Publishing date: July 22, 2003 |
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| METHOD FOR PRODUCING STATIC ELECTRICITY |
| FIELD: electromechanical engineering.
EFFECT: enhanced capacity of static electricity production process. 1 dwg |
| Publishing date: July 8, 2003 |
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| SOLAR PHOTOELECTRIC MODULE AND ITS MANUFACTURING PROCESS |
| FIELD: solar photoelectric modules for power generation.
EFFECT: enhanced service life and solar energy conversion efficiency of module due to use of its heat part. 9 cl, 6 dwg |
| Publishing date: July 1, 2003 |
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| SOLAR ABSORBER |
| FIELD: solar engineering for heating and hot-water supply systems using solar collectors.
EFFECT: enhanced service life of solar absorber and its operating efficiency using simple procedures. 2 cl, 4 dwg |
| Publishing date: March 4, 2003 |
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| LIFE-SUPPORT AND SURVIVAL COMPLEX USING SOLAR ENERGY |
| FIELD: construction industry, specifically, equipment converting solar energy to electric energy.
EFFECT: provision for normal living conditions in areas of increased energy loads caused by external effects. 2 cl, 1 dwg_. |
| Publishing date: February 4, 2003 |
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| SOLID BODY POTENTIAL ENERGY ACCUMULATOR |
| FIELD: power generation.
EFFECT: increased efficiency. 1 dwg |
| Publishing date: February 4, 2003 |
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| DEVICE FOR UTILIZATION OF DRIVE STREAM |
| FIELD: conversion of river stream energy into electrical energy.
EFFECT: possibility of obtaining electric energy from moment of installation of first unit increasing productivity as dam erection continues. 3 cl, 2 dwg |
| Publishing date: November 5, 2002 |
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| METHOD OF HEAT ENERGY TO MECHANICAL ENERGY CONVERSION |
| FIELD: heat power industry.
EFFECT: higher efficiency. 2 cl, 2 dwg |
| Publishing date: November 5, 2002 |
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| METHOD FOR REDUCING POWER LOSS IN LOW-VOLTAGE LINES |
| FIELD: power engineering.
EFFECT: reduced power loss at municipal transformer substations; enhanced service life of transformers. 3 dwg |
| Publishing date: April 2, 2002 |
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| CARROUSEL SOLAR-AND-WIND ELECTRIC GENERATING PLANT |
| FIELD: solar-and-wind power engineering.
EFFECT: reduced power intensity, increased generating capacity. 2 cl, 3 dwg |
| Publishing date: October 24, 2001 |
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| METHOD OF OPERATING THERMAL POWER STATION |
| FIELD: heat power engineering; thermal power stations.
EFFECT: improved economy and reliability. 1 dwg |
| Publishing date: October 10, 2001 |
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| OFF-LINE POWER SUPPLY |
| FIELD: electrical and power engineering; power supplies for corrosion-preventive devices of oil and gas pipelines, navigation and light beacons, weather stations, monitoring and burglar alarm devices, and the like.
EFFECT: reduced fuel consumption and transport charges, enhanced efficiency of power unit. 4 dwg |
| Publishing date: August 29, 2001 |
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| WINDMILL GENERATOR |
| FIELD: wind-power engineering; units designed for battery charging and power supply.
EFFECT: reduced size, weight, and cost of unit, enlarged operating range of wind velocities. 3 cl, 4 dwg |
| Publishing date: July 3, 2001 |
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| WINDWHEEL |
| FIELD: wind-power engineering; wind-energy-to- mechanical-work conversion.
EFFECT: reduced metal input and enlarged functional capabilities of windwheel. |
| Publishing date: May 30, 2001 |
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| MULTIPURPOSE SOLAR BATTERY |
| FIELD: cooled-module solar batteries using photoelectric converters. |
| Publishing date: April 25, 2001 |
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| BOTTOM POWER STATION |
| FIELD: conversion of river current energy to electrical energy. SUBSTANCE: power station has four-rope flexible shafts of different length; they are made in form of parabola with similar number of hydraulic turbines mounted on it by means of sliding suspension. |
| Publishing date: April 4, 2001 |
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| THE WIND INSTALLATION VERA |
| This invention relates to the wind power, namely, to the environment-friendly wind farms with a closed air circulation. The newly-developed wind installation includes a tower, a wind engine with a vertical rotation axis, a generator and ejecting systems connected to the internal cavity of the tower and directed to the vanes of the wind engine. The technical outcome – the increase in the reliability of the wind installation and in the wind power usage ratio – is reached through the application of a one-deck wind engine rotated by two airflows. The first airflow enters through cones in the tower upper part, while the second airflow incomes through vertical ejectors. The newly-developed wind installation has external and internal air accumulators, the 2nd and the 3rd generators, a machine hall and a well. The 1st and the 2nd generators are installed inside the tower and are connected to the wind engine through an electromagnetic speed reducer, while the 3rd generator is connected with a drive through an electromagnetic coupling. The 1st and the 2nd generators are started up through the reducer, while the 3rd generator is started up through the electromagnetic coupling. There are 2 pages of the patent formula and 3 figures.
This invention relates to the wind power, namely, to the environment-friendly wind farms with a closed air circulation.
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| Publishing date: March 20, 2001 |
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| A GEOTHERMAL SYSTEM FOR POWER GENERATION |
| Traditional geothermal systems for power generation are based on the usage of underground heat or water for power generation. The system being patented is intended to capture the Earth’s underground heat and release heat and uses exothermal reactions to transform heat in power (electricity). The system includes a well with a wellhead and a development face, drilled to a sufficient depth. Initial reagents are supplied to the well to initiate their reaction. A device located in the development face seizes the Earth’s underground heat to produce and separate the outcoming products. The first and the second pipelines are provided for transporting the said outcoming products to the wellhead; a device connected with the first and the second pipelines, which uses the said outcoming products to initiate exothermal reactions to generate power (internal combustion turbine connected with a chiller), is also provided.
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| Publishing date: March 20, 2001 |
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| A METHOD AND DEVICE FOR TRANSFORMING SOLAR ENERGY |
| The sense: Heat carrier (water) is heated in pipelines located in a motorway coating and on its shoulders; a thermoelectric generator converts the received heat energy into power energy; the power energy is supplied to electric magnets installed under the motorway coating; thus, an electromagnetic field is formed over the motorway coating; when a vehicle passes through the said electromagnetic field, a current is generated in conductors placed in the vehicle wheels and is then supplied to the electric engine installed on board the vehicle to drive the vehicle. There are 2 pages of Patent formula, 5 figures.
This invention relates to the energy conversion methods, in particular, to the methods of solar energy transformation.
In the known method of solar energy conversion [1], Solar energy is used to heat a heat carrier.
Low efficiency is a disadvantage of the said method.
The aim of this invention is to increase the efficiency.
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| Publishing date: March 20, 2001 |
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| ROTOR OF WINDMILL-ELECTRIC GENERATING PLANT WITH INDEPENDENTLY SECURED BLADES |
| FIELD: plants using energy of air mass for power generation. SUBSTANCE: rotor has blades, flywheels, and shaft; novelty is that each blade is secured on flywheel by means of horizontal flapping hinge enabling its independent deflection from plane of revolution and torque transmission from blade to flywheel and further to shaft. |
| Publishing date: March 2, 2001 |
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| WINDMILL ELECTRIC GENERATING PLANT |
| FIELD: electrical engineering; wind-power engineering.
SUBSTANCE: plant has tower- mounted composite rotor incorporating Savonius windwheel installed on central shaft and at least two airfoil blades hinged to upper and lower crosspieces coupled with central shaft, rigid joints between lower crosspieces and central shaft, rotor speed limiter, central-shaft mounted generator unit with generator kinematically linked with step-up gear, free-wheel expanding clutch, and central shaft that carries brake member... |
| Publishing date: March 2, 2001 |
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| AUTONOMOUS HEATING SYSTEM |
| An autonomous heating system used nowadays comprises one or more local sections (by number of premises to be heated) in which liquid electric heating devices are installed, and a control unit to manage the system.
In the newly-developed design, oil radiators with two heating elements are used as electric heating devices. Each local radiator has a temperature controller and a control unit includes two automatic switches for each local section. One heating element of oil radiators is connected with the first automatic switch installed in this local section through temperature controller. The other heating element of oil radiators is directly connected with the second automatic switch installed in this local section. |
| Publishing date: January 10, 2001 |
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| A DEVICE FOR BURNING FUEL IN A PROCESS FURNACE |
| In the newly-proposed design, the device to control fire extinguishing in a burner is made as a light-guiding cable with an optical outlet signal. The device is equipped with opto-electronic registration unit. The light-guiding cable with an optical outlet signal is installed coaxially with a burner inside it. |
| Publishing date: December 7, 2000 |
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| AC GENERATOR TO SUPPLY POWER TO AUTONOMOUS GEOPHYSICAL FIELD AND NAVIGATION COMPLEXES |
| In the newly-developed device, a stator is made is electric connectors on both sides. One of the sealing units is spring-loaded and can move in axial direction. This sealing device is used as a pressure and thermal expansion compensator for lubrication oil contained in bearing units and in a gap between rotor and stator. |
| Publishing date: December 7, 2000 |
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| TECHNIQUE FOR UNINTERRUPTED SUPPLY OF POWER TO THE CONSUMERS OF AN ELECTRICAL POWER SYSTEM BASED ON REGENERATING POWER SOURCES |
| The technology proposed differs in that it uses,
within the electrical power system, at least one more self-sustained power
source working simultaneously with the first one whereas the accumulation of the
electric power is achieved by the accumulation of the DC aggregate power
produced from the conversion of the power of each simultaneously working primary
regenerating source. |
| Publishing date: September 25, 2000 |
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