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Hierarchy of two-phase flow models for autonomous control of cryogenic loading operation

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Hierarchy of two-phase flow models for autonomous control of cryogenic loading operation. / Luchinsky, Dmitry; Ponizhovskaya, Ekaterina ; Hafiychuk, Vasyl et al.
In: IOP Conference Series: Materials Science and Engineering, Vol. 101, No. 1, 12069, 2015.

Research output: Contribution to Journal/MagazineJournal articlepeer-review

Harvard

Luchinsky, D, Ponizhovskaya, E, Hafiychuk, V, Kashani, A, Khasin, M, Timuchin, D, Sass, J, Perotti, J & Brown, B 2015, 'Hierarchy of two-phase flow models for autonomous control of cryogenic loading operation', IOP Conference Series: Materials Science and Engineering, vol. 101, no. 1, 12069. https://doi.org/10.1088/1757-899X/101/1/012069

APA

Luchinsky, D., Ponizhovskaya, E., Hafiychuk, V., Kashani, A., Khasin, M., Timuchin, D., Sass, J., Perotti, J., & Brown, B. (2015). Hierarchy of two-phase flow models for autonomous control of cryogenic loading operation. IOP Conference Series: Materials Science and Engineering, 101(1), Article 12069. https://doi.org/10.1088/1757-899X/101/1/012069

Vancouver

Luchinsky D, Ponizhovskaya E, Hafiychuk V, Kashani A, Khasin M, Timuchin D et al. Hierarchy of two-phase flow models for autonomous control of cryogenic loading operation. IOP Conference Series: Materials Science and Engineering. 2015;101(1):12069. doi: 10.1088/1757-899X/101/1/012069

Author

Luchinsky, Dmitry ; Ponizhovskaya, Ekaterina ; Hafiychuk, Vasyl et al. / Hierarchy of two-phase flow models for autonomous control of cryogenic loading operation. In: IOP Conference Series: Materials Science and Engineering. 2015 ; Vol. 101, No. 1.

Bibtex

@article{dd26b1bbba8640ed8be625c0e4d6ae95,
title = "Hierarchy of two-phase flow models for autonomous control of cryogenic loading operation",
abstract = "We report on the development of a hierarchy of models of cryogenic two-phase flow motivated by NASA plans to develop and maturate technology of cryogenic propellant loading on the ground and in space. The solution of this problem requires models that are fast and accurate enough to identify flow conditions, detect faults, and to propose optimal recovery strategy. The hierarchy of models described in this presentation is ranging from homogeneous moving- front approximation to separated non-equilibrium two-phase cryogenic flow. We compare model predictions with experimental data and discuss possible application of these models to on-line integrated health management and control of cryogenic loading operation.",
author = "Dmitry Luchinsky and Ekaterina Ponizhovskaya and Vasyl Hafiychuk and Ali Kashani and Michael Khasin and Dogan Timuchin and Jared Sass and Jose Perotti and Barbara Brown",
year = "2015",
doi = "10.1088/1757-899X/101/1/012069",
language = "English",
volume = "101",
journal = "IOP Conference Series: Materials Science and Engineering",
issn = "1757-899X",
publisher = "IOP Publishing Ltd.",
number = "1",

}

RIS

TY - JOUR

T1 - Hierarchy of two-phase flow models for autonomous control of cryogenic loading operation

AU - Luchinsky, Dmitry

AU - Ponizhovskaya, Ekaterina

AU - Hafiychuk, Vasyl

AU - Kashani, Ali

AU - Khasin, Michael

AU - Timuchin, Dogan

AU - Sass, Jared

AU - Perotti, Jose

AU - Brown, Barbara

PY - 2015

Y1 - 2015

N2 - We report on the development of a hierarchy of models of cryogenic two-phase flow motivated by NASA plans to develop and maturate technology of cryogenic propellant loading on the ground and in space. The solution of this problem requires models that are fast and accurate enough to identify flow conditions, detect faults, and to propose optimal recovery strategy. The hierarchy of models described in this presentation is ranging from homogeneous moving- front approximation to separated non-equilibrium two-phase cryogenic flow. We compare model predictions with experimental data and discuss possible application of these models to on-line integrated health management and control of cryogenic loading operation.

AB - We report on the development of a hierarchy of models of cryogenic two-phase flow motivated by NASA plans to develop and maturate technology of cryogenic propellant loading on the ground and in space. The solution of this problem requires models that are fast and accurate enough to identify flow conditions, detect faults, and to propose optimal recovery strategy. The hierarchy of models described in this presentation is ranging from homogeneous moving- front approximation to separated non-equilibrium two-phase cryogenic flow. We compare model predictions with experimental data and discuss possible application of these models to on-line integrated health management and control of cryogenic loading operation.

U2 - 10.1088/1757-899X/101/1/012069

DO - 10.1088/1757-899X/101/1/012069

M3 - Journal article

VL - 101

JO - IOP Conference Series: Materials Science and Engineering

JF - IOP Conference Series: Materials Science and Engineering

SN - 1757-899X

IS - 1

M1 - 12069

ER -