RU9023U1 - COMBINED GEOTHERMAL INSTALLATION - Google Patents

Abstract

A combined geothermal installation comprising a block-modular separator, a turbogenerator, a main circuit heat exchanger, a heat exchanger, a turbogenerator and an air-condenser installation with additional circuit fans, characterized in that the fans are located above the upper levels of the air condenser sections, and the units and modules of the installation located under a light gable roof, while these blocks and modules are mounted at a mark above zero.

Description

KOMSIIROVASH {AY GEOTHERMAL INSTALLATION

The utility model relates to the field of energy engineering, and more specifically, to devices for generating electricity using the energy of a geothermal source.

Known combined geothermal installations, containing the main circuit, with a geothermal working fluid, including a separator, turbo-)

a heatsink, a condenser and an additional circuit with a Sh1zkoyusha1cyl1 working fluid, including an evaporator, a heater, a turbogenerator and an air codenser (see, for example, the RF terminal at PM No. 97117046/20 according to class ROSV 7/00; pol. resol. 22.12o97g .).

The disadvantage of the known devices should include the low efficiency of the air condenser when operating in the atmosphere in snowy conditions;

and ice load,

Closest to the proposed technical solution for technical

essence and achieved f |) effect is a combined geothermal |

installation containing executed in block-modular design separately)

turbogenerator, main cycle heat exchanger, heat exchanger, turbogen- I

a radiator and a condensing unit with auxiliary fans (low-boiling circuit (see, for example, KfffntcficftKC Jlnan uvtht., Israel, 1997). |

The disadvantages of the described installation include the insufficient efficiency of the air-condensing installation and the ability to service the installation as a whole in climatic conditions characterized by

The objective of the utility model is to eliminate these shortcomings and, while increasing the ability to service the power plant as a whole, to increase the efficiency of the air-condensing installation.

The problem is solved due to the fact that in the well-known energy-fixing, containing polished in a block-modular design

a radiator, a turbogenerator, a heat exchanger of the main cycle, a heat exchanger, -

a generator and an air-condenser unit with fans of an additional circuit, according to the proposed utility model, the fans are located above the upper level of the air condenser sections, and the blocks and modules of the combined installation are located under a light gable roof, while these blocks and modules are mounted at a mark above the zero level.

The solution to this problem is really possible, because the placement of fans above the upper level of the sections in combination with the presence of a gable roof allows the most rational organization of the flow of cooling air through air condensers, which increases their efficiency. In addition, the installation of modules and blocks at a level above zero allows you to increase the possibility of their maintenance in snowy

ice load, while the height of the mounting mark may vary I for different climatic zones. ;;

The drawing schematically shows the proposed device, where figure 1 shows the top of the airway, and figure 2 is a cross section aa. |;

The installation contains a separator 2 mounted on a frame I at a level above the zero level, a main cycle turbine generator 3 and a heat exchanger 4, an additional cycle turbine generator 5 and an air-condenser installation with sections 6 and fans 7. All blocks and modules are located under j (er gable roof 8.

When working in the installation, a geothermal conversion cycle is implemented

ii

the energy of the steam-converting mixture into electric energy according to a two-circuit scheme similar to the prototype and containing smallpox copters working on a water-waterless clam and an additional circuit with a low working fluid, for example, atomic fuel. The effective operation of the auxiliary circuit largely depends on the operation of sections 6 of the air-condensing unit, in which the main heat exchange of the working fluid with the surrounding medium is activated. The proposed design provides the direction of movement of the cooling air (shown by arrows in Fig. 2) through sections 6 to the roof 8 ii ventilators 7, in which optimal ventilation is organized: heat transfer of sections 8, operation mode for fans 7 is provided, which is not accompanied by ice formation on their blades. In addition, frame I and roof 8 allow Mr. K-jij 5K3Hio} K.HOijTb servicing modules and LOCOB in the layer: ;;,: 1oG: meteorological conditions

Claims (1)

A combined geothermal installation comprising a block-modular separator, a turbogenerator, a main circuit heat exchanger, a heat exchanger, a turbogenerator and an air-condenser installation with additional circuit fans, characterized in that the fans are located above the upper levels of the air condenser sections, and the units and modules of the installation located under a light gable roof, while these blocks and modules are mounted at a mark above zero.