US2303146A - Elastic fluid power plant - Google Patents

Elastic fluid power plant Download PDF

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US2303146A
US2303146A US371503A US37150340A US2303146A US 2303146 A US2303146 A US 2303146A US 371503 A US371503 A US 371503A US 37150340 A US37150340 A US 37150340A US 2303146 A US2303146 A US 2303146A
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conduit
steam
elastic fluid
desuperheater
power plant
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US371503A
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Edward S Thompson
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General Electric Co
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General Electric Co
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F22STEAM GENERATION
    • F22GSUPERHEATING OF STEAM
    • F22G5/00Controlling superheat temperature
    • F22G5/12Controlling superheat temperature by attemperating the superheated steam, e.g. by injected water sprays

Definitions

  • the present invention relates to elastic fluid power plants in which elastic fluid is discharged from a turbine or like consumer and desuperheated in a spray type desuperheater before it is used for heating, processing or other purposes.
  • elastic fluid is discharged from a turbine or like consumer and desuperheated in a spray type desuperheater before it is used for heating, processing or other purposes.
  • it has been customary to remove the superheat from the superheated steamby means of a spray of make-up water, especially in plants in which 100 per cent make-up water is necessary as is the case in chemical and paper factories in which steam used for process work is contaminated. Difficulties have been experienced with the use of fresh water in a spray type desuperheater due to clogging of the nozzle or nozzles for producing a spray by impurities contained in make-up water.
  • the object of my invention is to provide an improved elastic fluid power plant in which clogging of the spray nozzles of the desuperheater is substantially eliminated. This is accomplished in accordance with my invention by the provision of an arrangement for condensing part of the superheated steam and using condensate as a cooling medium for the spray type desuperheater. In a preferred embodiment the condensing of superheated elastic fluid is accomplished in a feed water preheater.
  • the single figure of the drawing illustrates diagrammatically an elastic fluid power plant embodying my invention.
  • I have shown a mercury vapor and steam power plant with the mercury cycle and the steam cycle linked in known manner by a condenser boiler.
  • the mercury part of the plant comprises a boiler H] for producing mercury vapor.
  • the vapor is discharged through a conduit H including a valve I2 into a mercury vapor turbine l3 which has an exhaust end connected by a conduit I4 to a condenser boiler I5.
  • the condensate is returned from the condenser boiler IE to the boiler I by means of a condensate pump I6 having an inlet conduit I! connected to the condenser boiler l and a discharge conduit 18 connected to the boiler I0.
  • the condenser boiler 15 includes a cooling element shown in the form of a coil l9 having an inlet conduit 20 for receiving cooling water.
  • the water in passing through the coil I9 is evaporatthrough a conduit 2
  • the coil 19 forms a part b of the steam cycle which in addition includes a superheater 22 having an inlet connected to the conduit 2
  • the superheater may be combined with the boiler ID.
  • the superheated steam is conducted from the superheater to an elastic fluid turbine 23 having an inlet conduit with a valve 24 connected to the discharge end of the superheater 22.
  • the elastic fluid turbine 23 exhausts steam in a superheated condition into a conduit 25.
  • a desuperheater 26 having an inlet conduit 21 connected to the conduit 25 and a discharge conduit 28 for conducting desuperheated steam or like elastic fluid to a consumer for desuperheated elastic fluid.
  • the desuperheater includes a conduit 29 for receiving water and having an end portion with anozzle 30 for spraying the water into the desuperheater.
  • In order to produce a source of clean water or like cooling medium to be forced through the nozzle 39 I provide a condenser 3
  • includes a cooling coil 34 having an inlet conduit connected to a feed pump 35 for receiving make-up water and a discharge conduit connected to the inlet conduit 26 of the condenser boiler.
  • for condensing part Of the desuperheated steam discharged from the turbine 23 broadly constitutes a surface type heat exchanger for preheating the feed water conducted to the condenser boiler IS.
  • the condensate discharge conduit 33 is connected to a pump 36 which has a discharge conduit 31 connected to the aforementioned conduit 29.
  • the conduit 31 is connected by a conduit 38 including a check valve 39 to the inlet conduit 20 of the condenser boiler l5 so that the condensate in' the feed water preheater not needed in the spray type desuperheater 26 is conducted through the conduit 38 to the conduit 20.
  • a valve 40 is provided in the conduit 29 and connected by an arm 4
  • an increase in temperature of the fluid in the conduit 28 causes expansion of the fluid sealed into the pipe 44 whereby the bellows 43 expands and moves the valve 40 towards opening position. This increases the flow of cooling water through the conduit 29 and thereby reduces the temperature of the desuperheated fluid in the conduit 28.
  • the Y valve 40 is moved towards closed position to reduce the flow of cooling water through the conduit 29 and thereby to effect an increase in temperature of the de-superheated fluid in the conduit 28,
  • Elastic fluid power plant comprising a turfluid discharged from the turbine and means ineluding a pump for forcing condensate from the condenser into the desuperheater.
  • Elastic fluid power plant comprising a turbine for receiving superheated elastic fluid and an outlet for discharging fluid in superheated condition, a boiler and a superheater for supplying superheated elastic fluid to the turbine, a spray type desuperheater connected to receive superheated fluid discharged from the turbine,
  • a steam turbine connected to the superheater, a spray type desuperheater connected to receive superheated steam from the exhaust of the turbine, and means for supplying a spray of cooling water to the desuperheater
  • said means comprising a feed water preheater includin a conduit for conducting feed water to the boiler, a conduit for conducting part of the exhaust from the turbine to the feed water preheater and another conduit including a pump for forcing condensate from the feed water preheater into the desuperheater.
  • Elastic fluid power plant comprising a boiler and a superheater for producing superheated steam, a steam turbine connected to the superheater, a spray type desuperheater connected to receive superheated steam from the turbine and having a discharge conduit, means for supplying a spray of cooling water to the desuperheater, said means comprising a feed water preheater for conducting feed water to the boiler, a conduit for conducting part of the exhaust from the turbine to the feed water preheater, another conduit including a pump for forcing condensate from the feed water preheater into the desuperheater, and means for controlling the flow of cooling water to the desuperheater to maintain constant the temperature of the desuperheated steam, said means comprising a valve in the other conduit and a device connected to the valve and responsive to temperature changes of the steam in said discharge conduit.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Control Of Steam Boilers And Waste-Gas Boilers (AREA)

Description

. 1942. I s. s. THoMsoN 03,
I ELASTIC mum row sn PLANT Filed D50. 24, 1940' I v I Ihventor;
' Edward S.,Thorhpson,
by X
l-li's Attorney.
Patented Nov. 24, 1942 ELASTIC FLUID POWER PLANT Edward S. Thompson, Marblehead, Mass., assignor to General Electric Company, a corporation of New York Application December 24, 1940, Serial No. 371,503
4 Claims.
The present invention relates to elastic fluid power plants in which elastic fluid is discharged from a turbine or like consumer and desuperheated in a spray type desuperheater before it is used for heating, processing or other purposes. Heretofore it has been customary to remove the superheat from the superheated steamby means of a spray of make-up water, especially in plants in which 100 per cent make-up water is necessary as is the case in chemical and paper factories in which steam used for process work is contaminated. Difficulties have been experienced with the use of fresh water in a spray type desuperheater due to clogging of the nozzle or nozzles for producing a spray by impurities contained in make-up water.
The object of my invention is to provide an improved elastic fluid power plant in which clogging of the spray nozzles of the desuperheater is substantially eliminated. This is accomplished in accordance with my invention by the provision of an arrangement for condensing part of the superheated steam and using condensate as a cooling medium for the spray type desuperheater. In a preferred embodiment the condensing of superheated elastic fluid is accomplished in a feed water preheater.
For a better understanding of what I believe to be novel and my invention, attention is directed to the following description and the claims appended thereto in connection with the accompanying drawing.
The single figure of the drawing illustrates diagrammatically an elastic fluid power plant embodying my invention.
In the present example I have shown a mercury vapor and steam power plant with the mercury cycle and the steam cycle linked in known manner by a condenser boiler. The mercury part of the plant comprises a boiler H] for producing mercury vapor. The vapor is discharged through a conduit H including a valve I2 into a mercury vapor turbine l3 which has an exhaust end connected by a conduit I4 to a condenser boiler I5. The condensate is returned from the condenser boiler IE to the boiler I by means of a condensate pump I6 having an inlet conduit I! connected to the condenser boiler l and a discharge conduit 18 connected to the boiler I0.
The condenser boiler 15 includes a cooling element shown in the form of a coil l9 having an inlet conduit 20 for receiving cooling water. The water in passing through the coil I9 is evaporatthrough a conduit 2|. The coil 19 forms a part b of the steam cycle which in addition includesa superheater 22 having an inlet connected to the conduit 2| for 'superheating the steam formed in the condenser boiler l5. In actual practice the superheater may be combined with the boiler ID. The superheated steam is conducted from the superheater to an elastic fluid turbine 23 having an inlet conduit with a valve 24 connected to the discharge end of the superheater 22. The elastic fluid turbine 23 exhausts steam in a superheated condition into a conduit 25. Before this superheated steam can be used for certain industrial purposes it has to be desuperheated. This is done in known manner by means of a desuperheater 26 having an inlet conduit 21 connected to the conduit 25 and a discharge conduit 28 for conducting desuperheated steam or like elastic fluid to a consumer for desuperheated elastic fluid. In addition the desuperheater includes a conduit 29 for receiving water and having an end portion with anozzle 30 for spraying the water into the desuperheater. I
In order to produce a source of clean water or like cooling medium to be forced through the nozzle 39 I provide a condenser 3| having an inlet conduit 32 connected to the exhaust conduit 25 and a discharge conduit 33 for condensate. In addition the condenser 3| includes a cooling coil 34 having an inlet conduit connected to a feed pump 35 for receiving make-up water and a discharge conduit connected to the inlet conduit 26 of the condenser boiler. Thus, the condenser 3| for condensing part Of the desuperheated steam discharged from the turbine 23 broadly constitutes a surface type heat exchanger for preheating the feed water conducted to the condenser boiler IS. The condensate formed in the condenser 3! is used partly as a cooling medium in the spray type desuperheater 26. To this end the condensate discharge conduit 33 is connected to a pump 36 which has a discharge conduit 31 connected to the aforementioned conduit 29. In addition the conduit 31 is connected by a conduit 38 including a check valve 39 to the inlet conduit 20 of the condenser boiler l5 so that the condensate in' the feed water preheater not needed in the spray type desuperheater 26 is conducted through the conduit 38 to the conduit 20.
The flow of water through the conduit 29 into the desuperheater 26 is controlled in response to temperature changes of the desuperheated steam discharged from the desuperheater 26. To this ed and the steam thus formed is discharged as end a valve 40 is provided in the conduit 29 and connected by an arm 4| to a temperature responsive device 42 including a bellows 43 connected to the arm 4| and a sealed pipe 44 containing a fluid communicating with the bellows and having a sealed end portion adjacent the conduit 28 and subject to temperature changes of the desuperheated steam flowing through the conduit 28.
During operation an increase in temperature of the fluid in the conduit 28 causes expansion of the fluid sealed into the pipe 44 whereby the bellows 43 expands and moves the valve 40 towards opening position. This increases the flow of cooling water through the conduit 29 and thereby reduces the temperature of the desuperheated fluid in the conduit 28. Upon a drop in temperature of the fluid in the conduit 28 the Y valve 40 is moved towards closed position to reduce the flow of cooling water through the conduit 29 and thereby to effect an increase in temperature of the de-superheated fluid in the conduit 28,
What I claim as new and desire to secure by Letters Patent of the United States is:
1. Elastic fluid power plant comprising a turfluid discharged from the turbine and means ineluding a pump for forcing condensate from the condenser into the desuperheater.
2. Elastic fluid power plant comprising a turbine for receiving superheated elastic fluid and an outlet for discharging fluid in superheated condition, a boiler and a superheater for supplying superheated elastic fluid to the turbine, a spray type desuperheater connected to receive superheated fluid discharged from the turbine,
and a superheater for producing superheatedi steam, a steam turbine connected to the superheater, a spray type desuperheater connected to receive superheated steam from the exhaust of the turbine, and means for supplying a spray of cooling water to the desuperheater, said means comprising a feed water preheater includin a conduit for conducting feed water to the boiler, a conduit for conducting part of the exhaust from the turbine to the feed water preheater and another conduit including a pump for forcing condensate from the feed water preheater into the desuperheater.
4. Elastic fluid power plant comprising a boiler and a superheater for producing superheated steam, a steam turbine connected to the superheater, a spray type desuperheater connected to receive superheated steam from the turbine and having a discharge conduit, means for supplying a spray of cooling water to the desuperheater, said means comprising a feed water preheater for conducting feed water to the boiler, a conduit for conducting part of the exhaust from the turbine to the feed water preheater, another conduit including a pump for forcing condensate from the feed water preheater into the desuperheater, and means for controlling the flow of cooling water to the desuperheater to maintain constant the temperature of the desuperheated steam, said means comprising a valve in the other conduit and a device connected to the valve and responsive to temperature changes of the steam in said discharge conduit.
EDWARD S. THOMPSON.
US371503A 1940-12-24 1940-12-24 Elastic fluid power plant Expired - Lifetime US2303146A (en)

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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2568567A (en) * 1951-09-18 Attemperator regulating the tem
US2604085A (en) * 1946-08-30 1952-07-22 Foster Wheeler Corp Apparatus for temperature regulation
US2942411A (en) * 1957-07-25 1960-06-28 Pure Oil Co Apparatus for the utilization of solar energy
US3977196A (en) * 1974-08-26 1976-08-31 Societe Des Condenseurs Delas Method and apparatus for condensing by ambient air for a fluid in a thermal power production plant
US4301861A (en) * 1975-06-16 1981-11-24 Hudson Products Corporation Steam condensing apparatus
US20050229595A1 (en) * 2002-12-19 2005-10-20 Bayerische Motoren Werke Ag Thermodynamic engine

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2568567A (en) * 1951-09-18 Attemperator regulating the tem
US2604085A (en) * 1946-08-30 1952-07-22 Foster Wheeler Corp Apparatus for temperature regulation
US2942411A (en) * 1957-07-25 1960-06-28 Pure Oil Co Apparatus for the utilization of solar energy
US3977196A (en) * 1974-08-26 1976-08-31 Societe Des Condenseurs Delas Method and apparatus for condensing by ambient air for a fluid in a thermal power production plant
US4301861A (en) * 1975-06-16 1981-11-24 Hudson Products Corporation Steam condensing apparatus
US20050229595A1 (en) * 2002-12-19 2005-10-20 Bayerische Motoren Werke Ag Thermodynamic engine

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