Investigating the dearating hotwell working regimes of the PT-60-130/13 steam turbine

Vodeniktov, Artem; Чичирова, Н. Д.

doi:10.30724/1998-9903-2020-22-6-155-163

«Izvestiya vysshikh uchebnykh zavedenii. PROBLEMY ENERGETIKI»

2021

DOI: 10.30724/1998-9903-2020-22-6-155-163

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Investigating the dearating hotwell working regimes of the PT-60-130/13 steam turbine

Artem Vodeniktov

Н. Д. Чичирова

Abstract: THE PURPOSE. To consider the problems of the increasing dissolved oxygen concentration in feedwater, especially after the condensate pumps. To estimate the opportunity of the vacuum thermic deaeration intensification inside the PT-60-130/13 LMZ steam turbine condenser to reduce the feedwater system rate of corrosion. Perform a thermal test of the external deaerating hotwell, which provides reducing dissolved oxygen concentration by the hot drains and recirculating feedwater. To evaluate the march of the dissol… Show more

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2024

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Automation of transportation of vapor of atmospheric deaerator in boiler installations

Zolin,

Morozov,

Pazushkina

2024

Nadežn. bezop. ènerg.

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At present, when energy prices are unstable and periodically rise, enhancing the energy efficiency of thermal power plants, which implies the production of the same or larger amounts of energy with a lower consumption of energy resources, remains an urgent problem in the field of thermal power engineering. Such tasks aimed at reducing the consumption of energy resources for their own needs are quite urgent for manufacturing enterprises that use energyconsuming equipment, in particular steam boiler plants. Steam boiler houses contain a sufficient amount of energyintensive equipment, be it the boilers themselves or atmospheric deaerators, which are used to purify the boiler feedwater from corrosive gases. The article discusses the option of automating the process of closing the vapor during atmospheric deaeration in boiler plants by installing valves with automatic drives on the vapor removal pipelines. The article also analyzes the annual replenishment flow rate of the deaerator, assesses the quality of the condensate supplied to the deaerator, describes the conditions for opening and closing valves with automatic drives, and provides a calculation of the time delay required to remove vapor from the deaerator before closing the valves. A functional block diagram for controlling automatically driven valves is presented and its components are described. Thus, when implementing the described technology, significant savings in production steam spent on the deaerator will be achieved due to the closing of the deaerator vapor, with no chemically purified water supplied to the deaerator. This solution helps to increase the operating efficiency of the entire boiler installation.

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Automation of transportation of vapor of atmospheric deaerator in boiler installations

Zolin,

Morozov,

Pazushkina

2024

Nadežn. bezop. ènerg.

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show abstract

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Investigating the dearating hotwell working regimes of the PT-60-130/13 steam turbine

Cited by 1 publication

References 6 publications

Automation of transportation of vapor of atmospheric deaerator in boiler installations

Automation of transportation of vapor of atmospheric deaerator in boiler installations

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