RU187847U1 - Multistage evaporative installation with steam compressors - Google Patents

Abstract

The utility model relates to multi-stage evaporative desalination plants for sea water. The essence of the utility model: saturated steam with a pressure of 0.02 MPa discharged from the annulus of the last stage of a multi-stage evaporator is sequentially compressed in a steam mechanical compressor to a pressure of 0.04 MPa, in a jet steam compressor to a pressure of 0.06 MPa and in a thermal steam compressor, equipped with an electric heater, up to 0.18 MPa and served in the first stage of a multi-stage evaporator. External electric power is used to drive the electric motor of the steam mechanical compressor and to power the electric heater of the thermal steam compressor. Compression of steam in a jet steam compressor is performed using injecting steam with a pressure of 0.18 MPa, compressed in a thermal steam compressor. The use of sequential steam compression in mechanical, jet and thermal compressors reduces the number of stages and the cost of a mechanical compressor and a multi-stage evaporative desalination plant for sea water. 1 ill.

Description

The utility model relates to multi-stage evaporative desalination plants for sea water.

Known desalination plant with multi-stage evaporators, equipped with a mechanical steam compressor for compressing the secondary steam of the last stage of the evaporation unit from 0.16-0.2 MPa to a pressure of 0.3-0.34 MPa. The mechanical compressors are driven by electric motors or by internal combustion engines. (Desalination technologies. Sea and slightly salted water (http://www.wabag.com/wpcontent/uploads/2012/04/WABAG_desalination_ru_2012_rev01_proof.pdf).

A multi-stage evaporator installation with mechanical compression of steam in a steam compressor is known, in which steam from the annulus of the last stage evaporator with a pressure of 0.02 MPa and a temperature of 60 ° C is compressed in a mechanical steam compressor with a pressure increase of 1.6-1.8 and pumped into the in-tube space of the first stage of a multi-stage evaporator; the steam compressor drive is produced from an electric motor powered by electricity from an external electrical network. The source sea water is heated in heat exchangers due to the heat of the distillate and brine of the treated sea water. (Distillation desalination plants "Cascade". Http://www.salut.ru/ViewTopic.php?Id=644). This multi-stage evaporator is adopted as a prototype.

The advantage of the prototype is its independence from an external source of heat supply, the disadvantage of the prototype is the complexity of the design and a large number of stages of a mechanical steam compressor.

The objective of the technical solution is to eliminate the disadvantages of the prototype, reducing the number of stages and the cost of a mechanical steam compressor and evaporative installation.

The problem is solved due to the fact that a multi-stage evaporator installation with steam compressors includes a multi-stage evaporator, a steam mechanical compressor with an electric motor connected to the mains, a steam of secondary saturated steam, a steam pipe of compressed steam, moreover, the installation uses an additional jet steam compressor, a thermal steam compressor equipped with electric heater, steam line of injecting steam, rotary locking valve, control valve; along the compressible steam, a steam mechanical compressor, a steam jet compressor, and a steam thermal compressor are sequentially installed; the housing of the last stage of the multi-stage evaporator is connected by a secondary steam pipeline to the input of the steam mechanical compressor, the output of which is connected by a pipe to the mixing chamber of the jet steam compressor, the output of which is connected through a thermal compressor equipped with an electric heater, to the high pressure steam pipe and to the housing of the first stage of the multi-stage evaporator, to high pressure steam line is also connected to the injection steam line connected to the jet steam nozzle a compressor; the electric motor of the mechanical compressor and the electric heater of the thermal compressor are connected to the electric network, rotary shut-off valves connected to the control device are installed on the high pressure steam pipe and the injection steam pipe.

The essence of the utility model is illustrated by the drawing, which shows a diagram of a multi-stage evaporative installation with steam compressors.

The installation contains: 1 - a multi-stage evaporator, 2 - a mechanical steam compressor, 3 - an electric motor, 4 - an electric line, 5 - a compressed secondary steam pipeline, 6 - a rotary valve, 7 - an injection steam pipeline, 8 - a steam compressor, 9 - a control gate valve, 10 - electric heater of a thermal compressor, 11 - pressure gauge, 12 - the first stage of a multi-stage evaporator.

A multi-stage evaporative installation with steam compressors operates as follows. Secondary saturated steam with a pressure of 0.02 MPa is fed to the input of a mechanical compressor 2 driven by an electric motor 3 supplied with electric power from electric line 4, it is compressed to a pressure of 0.04 MPa and fed into the mixing chamber of the jet steam compressor 8, where it is compressed to 0, 06 MPa using the flow of injection steam supplied to its nozzle from the steam pipe of injection steam 7. The compressed steam therein is fed through a control valve 9 to a thermal steam compressor equipped with an electric heater 10; the compression of steam in a thermal steam compressor to 0.18 MPa is carried out by increasing the temperature and pressure of the steam by heating it with an electric heater 10 supplied with electric energy supplied from the electric line 4. The steam pressure in the thermal steam compressor is measured using a pressure gauge 11. The saturated steam compressed therein fed through a compressed secondary steam pipe 5 through an open rotary valve 6 into the housing of the first stage 12 of a multi-stage evaporator.

The start of the combined steam compressors of the multi-stage evaporator installation 1 is as follows. Close the rotary valve 6 and the control valve 9, start the electric motor 3 and compress the secondary saturated steam from the last stage of the multi-stage evaporator 1 in the mechanical centrifugal compressor 2, supplying electric power to the electric motor 3 from the electric line 4. The electric power is also supplied to the electric heater 10. With it help increase the temperature and steam pressure in the thermal compressor to 0.18 MPa. The steam pressure in it is determined by the pressure gauge 11. The steam compressed in the thermal steam compressor is supplied through the steam line of the injection steam 7 to the nozzle of the jet steam compressor 8 and at the same time the control valve 9, the rotary valve 6 are opened and the required operating mode of the steam compressors is set.

The proposed multi-stage evaporative installation with steam compressors can reduce the number of stages in a centrifugal mechanical compressor, simplify its design and reduce the cost of a multi-stage evaporative installation.

Claims (1)

A multi-stage evaporative installation with steam compressors, including a multi-stage evaporator, a steam mechanical compressor with an electric motor connected to the electrical network, a steam of secondary saturated steam, a steam pipeline of compressed steam, characterized in that the installation additionally uses a jet steam compressor, a thermal steam compressor equipped with an electric heater, steam injection pipe, rotary gate valve, control valve; along the compressible steam, a steam mechanical compressor, a steam jet compressor, and a steam thermal compressor are sequentially installed; the housing of the last stage of the multi-stage evaporator is connected by a secondary steam pipeline to the input of the steam mechanical compressor, the output of which is connected by a pipe to the mixing chamber of the jet steam compressor, the output of which is connected through a thermal compressor equipped with an electric heater, to the high pressure steam pipe and to the housing of the first stage of the multi-stage evaporator, to an injection steam line is also connected to an injection steam line connected to a jet steam nozzle th compressor; the electric motor of the mechanical compressor and the electric heater of the thermal compressor are connected to the electric network, rotary shut-off valves connected to the control device are installed on the high pressure steam pipe and the injection steam pipe.

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