Numerical Simulation of an Aerothermopressor with Incomplete Evaporation for Intercooling of the Gas Turbine Engine

dc.contributor.authorKobalava, Halina
dc.contributor.authorKonovalov, Dmytro
dc.contributor.authorRadchenko, Roman
dc.contributor.authorForduy, Serhiy
dc.contributor.authorMaksymov, Vitaliy
dc.date.accessioned2022-09-26T11:40:37Z
dc.date.available2022-09-26T11:40:37Z
dc.date.issued2021
dc.descriptionNumerical Simulation of an Aerothermopressor with Incomplete Evaporation for Intercooling of the Gas Turbine Engine / H. Kobalava , D. Konovalov, R. Radchenko, S. Forduy, V. Maksymov // Integrated Computer Technologies in Mechanical Engineering – 2020 : ICTM 2020. Lecture Notes in Networks and Systems, vol. 188 / M. Nechyporuk, V. Pavlikov, D. Kritskiy. – Kharkiv, Ukraine, 2021. – P. 519–530.uk_UA
dc.description.abstract1Complex cycles with cyclic air intercooling are used to increase the energy efficiency of gas turbines. A modern and widespread way to improve the cooling process is to humidify the working fluid (cyclic air). The efficiency of wet compression primarily depends on the intensity of evaporation and heat exchange of droplets with the air flow, which begins to increase sharply when the effective diameter of droplet spraying decreases to 20 lm. It is proposed to use a contact heat exchanger to obtain a finely dispersed flow of water in the flow path of a gas turbine. The operation of such contact heat exchanger called aerothermopressor was investigated in this paper. CFD simulation of the water droplet evaporation process in the aerothermopressor airflow was carried out. Calculations were carried out for three variants of evaporation of water injected into the air flow: complete evaporation of water droplets in the evaporation chamber, additional evaporation of water droplets in the diffuser and incomplete evaporation, with obtaining smaller droplets at the outlet of the aerothermopressor diffuser. Efficiency of the aerothermopressor application in the gas turbine circuit for contact cooling of cyclic air is analyzed. It has been revealed that the aerothermopressor allows increasing the cyclic air pressure between the compressor stages by 2–10%, which will lead to a decrease in the compression work in the compressor stages and makes it possible to increase the gas turbine engine efficiency by 1–2%.uk_UA
dc.identifier.govdochttps://doi.org/10.1007/978-3-030-66717-7_44
dc.identifier.urihttps://eir.nuos.edu.ua/handle/123456789/6046
dc.language.isoenuk_UA
dc.subjectDroplet diameteruk_UA
dc.subjectTwo-phase flowuk_UA
dc.subjectThermogasdynamic compressionuk_UA
dc.titleNumerical Simulation of an Aerothermopressor with Incomplete Evaporation for Intercooling of the Gas Turbine Engineuk_UA
dc.title22021
dc.typeThesisuk_UA

Файли

Контейнер файлів
Зараз показуємо 1 - 1 з 1
Вантажиться...
Ескіз
Назва:
Kobalava_2020_ICTM.pdf
Розмір:
249.37 KB
Формат:
Adobe Portable Document Format
Опис:
Тези
Ліцензійна угода
Зараз показуємо 1 - 1 з 1
Ескіз недоступний
Назва:
license.txt
Розмір:
7.05 KB
Формат:
Item-specific license agreed upon to submission
Опис: