Investigation of AD-body interaction with microwave discharge region in supersonic flows

Yuri F. Kolesnichenko, Vadim G. Brovkin, Sergey B. Leonov, Andrey A. Krylov, Valery A. Lashkov, Igor Ch Mashek, Anatoly A. Gorynya, Mark I. Ryvkin

Результат исследований: Материалы конференцийматериалы

7 Цитирования (Scopus)

Выдержка

The principle step in investigation of MW discharge in supersonic (SS) flows has been made. The detailed spatial-temporal data of discharge domains evolution and interaction with the BSW are obtained. They include synchronized information from optical emission diagnostics via using of hemiluminescence for discharge regions tracing, from the pressure sensors, which provide information about temporal evolution of the total pressure at stagnation point and Schlieren pictures available with time step of order of microsecond. Experiments were conducted under M-number 1.7-1.8 and peak MW power 210kW not only in airflow, but also in nitrogen, argon and carbon dioxide. All this, along with additional information about real discharge structure and gas temperatures in different plasmoids allowed to reconstruct the sequence of events in the process of discharge regions - AD model interaction, to formulate the regularities of such interaction and to eliminate those questions which are to be answered in further investigations.

Язык оригиналаанглийский
СостояниеОпубликовано - 1 дек 2001
Событие39th Aerospace Sciences Meeting and Exhibit 2001 - Reno, NV, Соединенные Штаты Америки
Продолжительность: 8 янв 200111 янв 2001

Конференция

Конференция39th Aerospace Sciences Meeting and Exhibit 2001
СтранаСоединенные Штаты Америки
ГородReno, NV
Период8/01/0111/01/01

Отпечаток

supersonic flow
Supersonic flow
Pressure sensors
Discharge (fluid mechanics)
Argon
Carbon dioxide
Microwaves
Nitrogen
microwaves
Gases
Experiments
interactions
Temperature
nitrogen dioxide
stagnation point
pressure sensors
tracing
gas temperature
argon
temporal evolution

Предметные области Scopus

  • Космические науки и планетоведение
  • Авиакосмическая техника

Цитировать

Kolesnichenko, Y. F., Brovkin, V. G., Leonov, S. B., Krylov, A. A., Lashkov, V. A., Mashek, I. C., ... Ryvkin, M. I. (2001). Investigation of AD-body interaction with microwave discharge region in supersonic flows. Документ представлен на 39th Aerospace Sciences Meeting and Exhibit 2001, Reno, NV, Соединенные Штаты Америки.
Kolesnichenko, Yuri F. ; Brovkin, Vadim G. ; Leonov, Sergey B. ; Krylov, Andrey A. ; Lashkov, Valery A. ; Mashek, Igor Ch ; Gorynya, Anatoly A. ; Ryvkin, Mark I. / Investigation of AD-body interaction with microwave discharge region in supersonic flows. Документ представлен на 39th Aerospace Sciences Meeting and Exhibit 2001, Reno, NV, Соединенные Штаты Америки.
@conference{db9c85d84dab4076abdba354cd966d85,
title = "Investigation of AD-body interaction with microwave discharge region in supersonic flows",
abstract = "The principle step in investigation of MW discharge in supersonic (SS) flows has been made. The detailed spatial-temporal data of discharge domains evolution and interaction with the BSW are obtained. They include synchronized information from optical emission diagnostics via using of hemiluminescence for discharge regions tracing, from the pressure sensors, which provide information about temporal evolution of the total pressure at stagnation point and Schlieren pictures available with time step of order of microsecond. Experiments were conducted under M-number 1.7-1.8 and peak MW power 210kW not only in airflow, but also in nitrogen, argon and carbon dioxide. All this, along with additional information about real discharge structure and gas temperatures in different plasmoids allowed to reconstruct the sequence of events in the process of discharge regions - AD model interaction, to formulate the regularities of such interaction and to eliminate those questions which are to be answered in further investigations.",
author = "Kolesnichenko, {Yuri F.} and Brovkin, {Vadim G.} and Leonov, {Sergey B.} and Krylov, {Andrey A.} and Lashkov, {Valery A.} and Mashek, {Igor Ch} and Gorynya, {Anatoly A.} and Ryvkin, {Mark I.}",
year = "2001",
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note = "39th Aerospace Sciences Meeting and Exhibit 2001 ; Conference date: 08-01-2001 Through 11-01-2001",

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Kolesnichenko, YF, Brovkin, VG, Leonov, SB, Krylov, AA, Lashkov, VA, Mashek, IC, Gorynya, AA & Ryvkin, MI 2001, 'Investigation of AD-body interaction with microwave discharge region in supersonic flows' Документ представлен на, Reno, NV, Соединенные Штаты Америки, 8/01/01 - 11/01/01, .

Investigation of AD-body interaction with microwave discharge region in supersonic flows. / Kolesnichenko, Yuri F.; Brovkin, Vadim G.; Leonov, Sergey B.; Krylov, Andrey A.; Lashkov, Valery A.; Mashek, Igor Ch; Gorynya, Anatoly A.; Ryvkin, Mark I.

2001. Документ представлен на 39th Aerospace Sciences Meeting and Exhibit 2001, Reno, NV, Соединенные Штаты Америки.

Результат исследований: Материалы конференцийматериалы

TY - CONF

T1 - Investigation of AD-body interaction with microwave discharge region in supersonic flows

AU - Kolesnichenko, Yuri F.

AU - Brovkin, Vadim G.

AU - Leonov, Sergey B.

AU - Krylov, Andrey A.

AU - Lashkov, Valery A.

AU - Mashek, Igor Ch

AU - Gorynya, Anatoly A.

AU - Ryvkin, Mark I.

PY - 2001/12/1

Y1 - 2001/12/1

N2 - The principle step in investigation of MW discharge in supersonic (SS) flows has been made. The detailed spatial-temporal data of discharge domains evolution and interaction with the BSW are obtained. They include synchronized information from optical emission diagnostics via using of hemiluminescence for discharge regions tracing, from the pressure sensors, which provide information about temporal evolution of the total pressure at stagnation point and Schlieren pictures available with time step of order of microsecond. Experiments were conducted under M-number 1.7-1.8 and peak MW power 210kW not only in airflow, but also in nitrogen, argon and carbon dioxide. All this, along with additional information about real discharge structure and gas temperatures in different plasmoids allowed to reconstruct the sequence of events in the process of discharge regions - AD model interaction, to formulate the regularities of such interaction and to eliminate those questions which are to be answered in further investigations.

AB - The principle step in investigation of MW discharge in supersonic (SS) flows has been made. The detailed spatial-temporal data of discharge domains evolution and interaction with the BSW are obtained. They include synchronized information from optical emission diagnostics via using of hemiluminescence for discharge regions tracing, from the pressure sensors, which provide information about temporal evolution of the total pressure at stagnation point and Schlieren pictures available with time step of order of microsecond. Experiments were conducted under M-number 1.7-1.8 and peak MW power 210kW not only in airflow, but also in nitrogen, argon and carbon dioxide. All this, along with additional information about real discharge structure and gas temperatures in different plasmoids allowed to reconstruct the sequence of events in the process of discharge regions - AD model interaction, to formulate the regularities of such interaction and to eliminate those questions which are to be answered in further investigations.

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Kolesnichenko YF, Brovkin VG, Leonov SB, Krylov AA, Lashkov VA, Mashek IC и соавт.. Investigation of AD-body interaction with microwave discharge region in supersonic flows. 2001. Документ представлен на 39th Aerospace Sciences Meeting and Exhibit 2001, Reno, NV, Соединенные Штаты Америки.