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Pulsing Interial Oscillation, Supercell Storms, and Surface Mesonetwork Data (1998)

Costen, R. C. ; Miller, L. J.

Springer

Journal of engineering mathematics 34 (1998), S. 277-300

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ISSN: 1573-2703

Keywords: modeling ; supercell storm ; nonlinear ; inertial oscillation ; mesonetwork data.

Source: Springer Online Journal Archives 1860-2000

Topics: Mathematics , Technology

Notes: Abstract The pulsing inertial oscillation (PIO) model is a nonlinear, time-dependent, translating vortex solution of the inviscid, compressible fluid dynamic equations in the middle troposphere. The translation of this vortex during a pulse is strikingly similar to that of a supercell storm – a rotating thunderstorm that can generate tornadoes and hail. Two studies were performed to test the hypothesis that some supercell storms are manifestations of a PIO pulse. The first study applied the model to an intense interior draft whose buoyancy was bounded by a temperature excess of ± 12 K. The peak updraft speed achieved was 41·5 m s−1 and the peak Rossby number was 92·9. The study also pointed to an advanced concept for attaining higher values. The second study applied the PIO model to a supercell storm as a whole and succeeded in replicating its bulk properties, such as mesocylonic circulation, net mass and moisture influxes, and time track. This study also identified a critical feature of the PIO model that could be tested against storm data: The average vertical draft is downward before the turn in the storm track and upward afterwards. In the conventional theory, the average vertical draft is upward from storm inception until dissipation. These differing draft predictions were compared with the best available data, which are surface mesonetwork data. These data were found to support the PIO model. However, surface data alone are not conclusive, and further measurements are warranted.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1004319330013

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Paper (German National Licenses)

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2

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Nonperturbative methods in HZE propagation (1994)

Badavi, F. F. ; Shavers, M. R. ; Miller, J. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: An analytical solution to the perturbative multiple collision series of a fragmenting HZE ion beam has limited usefulness since the first collision term has several hundred contributions, the second collision term has tens of thousands of contributions, and each successive collision term progresses to unwieldy computational proportions. Our previous work has revealed the multiple collision terms in the straight-ahead approximation to be simple products of a spatially dependent factor times a linear energy-dependent factor of limited domain and unit normalization. The properties of these forms allow the development of the nonperturbative summation of the series to all orders assuming energy-independent nuclear cross sections as matrix products of a scaled Green's function described herein. This nonperturbative Green's function with multiple scattering correction factors compares well with experiments using 670 MeV/u neon-20 ion beams in thick water targets.

Keywords: Life Sciences (General)

Type: Radiation research (ISSN 0033-7587); Volume 140; 2; 241-8

Format: text

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Equations for the dynamics of gust fronts and shock waves (1977)

Costen, R. C.

In: CASI

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Publication Date: 2006-01-12

Description: Equations are presented for the growth or decay rates of moving and deforming vortex sheets (gust fronts) and shock waves. The equations exhibit a cross-coupling between these two types of surface discontinuity.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: NASA. Goddard Space Flight Center 3d NASA Weather and Climate Program Sci. Rev.; p 225-227

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General solutions for the movement of storms (1977)

Costen, R. C.

In: CASI

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Publication Date: 2006-01-12

Description: Diagnostic solutions are presented for the displacement velocity of a storm vortex and the velocity of the centroid of the storm's convection.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: NASA. Goddard Space Flight Center 3d NASA Weather and Climate Program Sci. Rev.; p 219-223

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Note on Maxwell's field equations and the constitutive equations. (1966)

Staton, L. D. ; Costen, R. C.

In: Other Sources

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Publication Date: 2011-08-11

Description: Maxwell field equations and constitutive equations, discussing best pedagogical formulation for electrodynamics

Keywords: ELECTRONICS

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Three-dimensional derivation of the electrodynamic jump conditions and momentum- energy laws at a moving boundary. (1965)

Costen, R. C. ; Adamson, D.

In: Other Sources

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Publication Date: 2011-08-11

Description: Electrodynamic jump conditions and momentum-energy laws at arbitrary moving boundary derived three- dimensionally

Keywords: PHYSICS, PLASMA

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Formulas for determining storm movement from the surrounding fields (1979)

Costen, R. C.

In: CASI

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Publication Date: 2016-06-07

Description: Formulas are given for determining a conserved property of a storm and its centroid from an scalar field that has a tendency equation. The velocity of the centroid is also given. These formulas depend only on fields that are external to the storm.

Keywords: METEOROLOGY AND CLIMATOLOGY

Type: NASA. Goddard Space Flight Center 4th NASA Weather and Climate Program Sci. Rev.; p 37-40

Format: application/pdf

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Galactic cosmic ray transport methods: Past, present and future (1994)

Cucinotta, F. A. ; Wilson, J. W. ; Lankin, S. L. ; [et al.]

In: Other Sources

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Publication Date: 2019-04-02

Description: The developement of the theory of high charge and energy (HZE) ion transport is reviewed. The basic solution behavior and approximation techniques will be described. An overview of the HZE transport codes currently available at the Langley Research Center will be given. The near term goal of the Langely program is to produce a complete set of one-dimensional transport codes. The ultimate goal is to produce a set of complete three-dimensional codes which have been validated in the laboratory and can be applied in the engineering design enviroment. Recent progress toward completing these goals is discussed.

Keywords: NUCLEAR AND HIGH-ENERGY PHYSICS

Type: Life Sciences and Space Research 25 (2) Radiation Biology: Topical Meeting of the COSPAR Interdisciplinary Scientific Commission F of the COSPAR 29th Plenary Meeting, Washington, DC, Aug. 28-Sep. 5, 1 (ISSN 0273-1177); 14; 10; p. 841-852

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Tornadic Vortex Signature (TVS) Produced by Constrained Pulsing Inertial Oscillation (PIO) Model (1997)

Costen, R. C.

In: CASI

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Publication Date: 2018-06-05

Description: The TVS on Doppler radar indicates a midtropospheric vortex of Rossby number Ro 1000 that develops in a supercell storm shortly before a tornado descends. This paper shows how the PIO model, which was first described at the 1991 AGU Spring Meeting, could produce a TVS.

Keywords: Meteorology and Climatology

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Pulsing Inertial Oscillation, Supercell Storms, and Surface Mesonetwork Data (1998)

Miller, L. J. ; Costen, R. C.

In: CASI

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Publication Date: 2018-06-02

Description: The pulsing inertial oscillation (PIO) model is a nonlinear, time-dependent, translating vortex solution of the inviscid, compressible fluid dynamic equations in the middle troposphere. The translation of this vortex during a pulse is strikingly similar to that of a supercell storm -- a rotating thunderstorm that can generate tornadoes and hail. Two studies were performed to test the hypothesis that some supercell storms are manifestations of a PIO pulse. The first study applied the model to an intense interior draft whose buoyancy was bounded by a temperature excess of +/- 12 K. The peak updraft speed achieved was 41.5 m/ s and the peak Rossby number was 92.9. The study also pointed to an advanced concept for attaining higher values. The second study applied the PIO model to a supercell storm as a whole and succeeded in replicating its bulk properties, such as mesocyclonic circulation, net mass and moisture influxes, and time track. This study also identified a critical feature of the PIO model that could be tested against storm data: The average vertical draft is downward before the turn in the storm track and upward afterwards. In the conventional theory, the average vertical draft is upward from storm inception until dissipation. These differing draft predictions were compared with the best available data, which are surface mesonetwork data. These data were found to support the PIO model. However, surface data alone are not conclusive, and further measurements are warranted.

Keywords: Geosciences (General)

Format: application/pdf

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