Development of new technological processes based on supersonic flow of natural gas

Искендеров, Э. Х.; Bagirov, A. N.; Bagirov, Sh. A.; Ismayilova, P. Sh.

doi:10.5510/ogp20220400790

SOCAR Proceedings

2022

DOI: 10.5510/ogp20220400790

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Development of new technological processes based on supersonic flow of natural gas

Э. Х. Искендеров¹,

A. N. Bagirov²,

Sh. A. Bagirov³

et al.

Abstract: The article is devoted to the study of supersonic movement of natural gas in a pipeline and the possibility of developing new technological processes for cooling, drying and separating liquid hydrocarbons. Technological processes and a set of equipment created using the supersonic movement of natural gas are studied, their advantages and disadvantages are analyzed. It is known that a change in the process of gas injection into UGS facilities in a wide range of pressure during the season creates opportunities f… Show more

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Supersonic Cooling Technology of Gas Turbine Air

Baghirov

2024

Energ. Tech. & Res. Sav.

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For the first time, a technology for cooling the intake air of a gas turbine based on supersonic movement of compressed air is proposed. An increase in the outside air temperature leads to a decrease in the mass flow rate of air, and the efficiency and output power of the gas turbine are reduced. The article analyzes various gas turbine cooling systems, shows their advantages and disadvantages. It is shown that only 37 % of the intake air is spent on combustion, most of it is used to cool the heated parts of the gas turbine, which predetermines a decrease in turbine power at high outside air temperatures. It is noted that gas turbines, along with energy facilities, are increasingly occupying positions in the systems of gas collection, transportation, and gas-lift oil production at offshore fields. Only at the Neft Dashlary and Guneshli fields, developed in the Caspian Sea, 34 gas turbines with a total capacity of 232 MW are operated, which decreases by 32.0 MW at an ambient temperature of 40 °C. A design of a cooler for a specific turbine based on the air-to-air principle with 24 copper tubes with Laval nozzles mounted in the inlet section has been developed. A gas-dynamic calculation of the movement of air compressed in an additionally installed compressor through the tubes has been performed. A decrease in air temperature by 89 °C (from plus 45 °C to minus 44 °C) has been noted, which makes it possible to use this temperature to cool the main air flow sucked in from the environment. The design is free from the disadvantages associated with the use of water, is technologically simple, less capital-intensive, is safer due to the low operating pressure of 3 bar and is easily reconstructed by replacing the nozzles and changing the length and number of cooling tubes. The parasitic power of the proposed technology is 2 times lower than for mechanical air-cooled chillers. The technology is universal and can be used for a gas turbine of any power and under all climatic conditions. Bibl. 13, Fig. 2.

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Supersonic Cooling Technology of Gas Turbine Air

Baghirov

2024

Energ. Tech. & Res. Sav.

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Qaz Və Qaz Kondensat Yataqlarinin Subasqi Reji̇mi̇ndə İşlənməsi̇ Prosesi̇ndə Sulaşmanin Proqnozu

Kənan Əhmədov, Zamiq Mirzəcanov

2023

PAHTEI

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İri sərmayələrin yatırılması, bacarıqlı və peşəkar mütəxəssislərin rəhbərlik etdiyi öncül texnoloji proseslərin vahid sistematikliyi, təzyiqin kritik və çox olması, həmçinin məhsulun bəzi xarakteristikaları qaz və qaz-kondensat yataqlarının işlənməsinin detallı planlamasını tələb edir. Ənənəvi neft yataqlarının işlənməsindən fərqli olaraq, qaz və qaz-kondensat yataqlarının işlənmə sisteminin bəzi mərhələləri bir-birilə qarşılıqlı əlaqədədir, vəhdət təşkil edir. Məsələn, məhsulun çıxarılması və daha sonra fiziki emal edilməsi. Açar sözlər: proqnoz, sulaşma, qaz-kondensat, subasqı rejimi.

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Development of new technological processes based on supersonic flow of natural gas

Cited by 2 publications

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Supersonic Cooling Technology of Gas Turbine Air

Supersonic Cooling Technology of Gas Turbine Air

Qaz Və Qaz Kondensat Yataqlarinin Subasqi Reji̇mi̇ndə İşlənməsi̇ Prosesi̇ndə Sulaşmanin Proqnozu

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