Standard

Local characteristics of two-phase gas-liquid flow in a microchannel downstream of T-shaped mixer. / Bartkus, German V.; Kuznetsov, Vladimir V.

в: International Heat Transfer Conference, Том 2018-August, 01.01.2018, стр. 6255-6261.

Результаты исследований: Научные публикации в периодических изданияхстатья по материалам конференцииРецензирование

Harvard

APA

Vancouver

Bartkus GV, Kuznetsov VV. Local characteristics of two-phase gas-liquid flow in a microchannel downstream of T-shaped mixer. International Heat Transfer Conference. 2018 янв. 1;2018-August:6255-6261. doi: 10.1615/ihtc16.mpf.022909

Author

Bartkus, German V. ; Kuznetsov, Vladimir V. / Local characteristics of two-phase gas-liquid flow in a microchannel downstream of T-shaped mixer. в: International Heat Transfer Conference. 2018 ; Том 2018-August. стр. 6255-6261.

BibTeX

@article{58e71febe2714d22ade3c5f86841f0f3,
title = "Local characteristics of two-phase gas-liquid flow in a microchannel downstream of T-shaped mixer",
abstract = "Two-phase gas-liquid flow in microchannels occurs in a variety of modern industrial applications. This paper presents the experimental results for the horizontal flow of liquids with different viscosity and gas nitrogen in two microchannels with rectangular cross-sections of 400×210 μm and 395×205 μm with T-shaped mixers. The experiments were conducted using the laser-scanning method, the high-speed video recording, and the laser-induced fluorescence. It was observed that elongated bubble flow, transition flow, and annular flow are the main flow patterns for a rectangular microchannel with a hydraulic diameter substantially less than the capillary constant. The flow pattern map was obtained for distilled water-nitrogen, 25% mass aqueous solution of glycerol -nitrogen, 40% mass aqueous solution of glycerol -nitrogen mixtures in a wide range of liquid and gas flow rates. Statistical characteristics of gas-liquid flow and distributions of the liquid film thickness in cross section of the microchannel were defined. The non-uniform liquid film thickness was experimentally observed at the channel cross-section. The statistical characteristics were determined for the flow of ethanol-nitrogen mixture. It was found that most of the liquid flow in the meniscus on the microchannel short side for the present gas and liquid flow rates.",
keywords = "Flow patterns, Gas-liquid flow, Laser-induced fluorescence, Measurement and instrumentation, Microchannel, Nano/micro, Two-phase flow",
author = "Bartkus, {German V.} and Kuznetsov, {Vladimir V.}",
year = "2018",
month = jan,
day = "1",
doi = "10.1615/ihtc16.mpf.022909",
language = "English",
volume = "2018-August",
pages = "6255--6261",
journal = "International Heat Transfer Conference",
issn = "2377-424X",
publisher = "Begell House Inc.",
note = "16th International Heat Transfer Conference, IHTC 2018 ; Conference date: 10-08-2018 Through 15-08-2018",

}

RIS

TY - JOUR

T1 - Local characteristics of two-phase gas-liquid flow in a microchannel downstream of T-shaped mixer

AU - Bartkus, German V.

AU - Kuznetsov, Vladimir V.

PY - 2018/1/1

Y1 - 2018/1/1

N2 - Two-phase gas-liquid flow in microchannels occurs in a variety of modern industrial applications. This paper presents the experimental results for the horizontal flow of liquids with different viscosity and gas nitrogen in two microchannels with rectangular cross-sections of 400×210 μm and 395×205 μm with T-shaped mixers. The experiments were conducted using the laser-scanning method, the high-speed video recording, and the laser-induced fluorescence. It was observed that elongated bubble flow, transition flow, and annular flow are the main flow patterns for a rectangular microchannel with a hydraulic diameter substantially less than the capillary constant. The flow pattern map was obtained for distilled water-nitrogen, 25% mass aqueous solution of glycerol -nitrogen, 40% mass aqueous solution of glycerol -nitrogen mixtures in a wide range of liquid and gas flow rates. Statistical characteristics of gas-liquid flow and distributions of the liquid film thickness in cross section of the microchannel were defined. The non-uniform liquid film thickness was experimentally observed at the channel cross-section. The statistical characteristics were determined for the flow of ethanol-nitrogen mixture. It was found that most of the liquid flow in the meniscus on the microchannel short side for the present gas and liquid flow rates.

AB - Two-phase gas-liquid flow in microchannels occurs in a variety of modern industrial applications. This paper presents the experimental results for the horizontal flow of liquids with different viscosity and gas nitrogen in two microchannels with rectangular cross-sections of 400×210 μm and 395×205 μm with T-shaped mixers. The experiments were conducted using the laser-scanning method, the high-speed video recording, and the laser-induced fluorescence. It was observed that elongated bubble flow, transition flow, and annular flow are the main flow patterns for a rectangular microchannel with a hydraulic diameter substantially less than the capillary constant. The flow pattern map was obtained for distilled water-nitrogen, 25% mass aqueous solution of glycerol -nitrogen, 40% mass aqueous solution of glycerol -nitrogen mixtures in a wide range of liquid and gas flow rates. Statistical characteristics of gas-liquid flow and distributions of the liquid film thickness in cross section of the microchannel were defined. The non-uniform liquid film thickness was experimentally observed at the channel cross-section. The statistical characteristics were determined for the flow of ethanol-nitrogen mixture. It was found that most of the liquid flow in the meniscus on the microchannel short side for the present gas and liquid flow rates.

KW - Flow patterns

KW - Gas-liquid flow

KW - Laser-induced fluorescence

KW - Measurement and instrumentation

KW - Microchannel

KW - Nano/micro

KW - Two-phase flow

UR - http://www.scopus.com/inward/record.url?scp=85068347748&partnerID=8YFLogxK

U2 - 10.1615/ihtc16.mpf.022909

DO - 10.1615/ihtc16.mpf.022909

M3 - Conference article

AN - SCOPUS:85068347748

VL - 2018-August

SP - 6255

EP - 6261

JO - International Heat Transfer Conference

JF - International Heat Transfer Conference

SN - 2377-424X

T2 - 16th International Heat Transfer Conference, IHTC 2018

Y2 - 10 August 2018 through 15 August 2018

ER -

ID: 21165158