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    Buoyancy Driven Flow as the Forcing Function of Smoke Transport Models

    New search for: W. W. Jones
    New search for: X. Bodart

    Flow at vents is the major driving force in smoke transport models. The precision with which we can calculate these flows determines to a great extent how accurately we can model buoyant flow and the inherent speed of the models. This report describes some of the problems encountered in calculating these flows, and gives a general algorithm for their calculation.

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    Buoyancy Driven Flow as the Forcing Function of Smoke Transport Models

    New search for: W. W. Jones
    New search for: X. Bodart

    Flow at vents is the major driving force in smoke transport models. The precision with which we can calculate these flows determines to a great extent how accurately we can model buoyant flow and the inherent speed of the models. This report describes some of the problems encountered in calculating these flows, and gives a general algorithm for their calculation.

    Access

    Access via TIB
    Check availability in my library

    Buoyancy Driven Flow as the Forcing Function of Smoke Transport Models

    New search for: W. W. Jones
    New search for: X. Bodart

    Flow at vents is the major driving force in smoke transport models. The precision with which we can calculate these flows determines to a great extent how accurately we can model buoyant flow and the inherent speed of the models. This report describes some of the problems encountered in calculating these flows, and gives a general algorithm for their calculation.

    Access

    Access via TIB
    Check availability in my library

    Access

    Access via TIB
    Check availability in my library

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    Document information
    Title:

    Buoyancy Driven Flow as the Forcing Function of Smoke Transport Models

    Contributors:

    W. W. Jones (author) / X. Bodart (author)

    Publication date:

    1986

    Size:

    27 pages

    Type of media:

    Report

    Type of material:

    No indication

    Language:

    English

    Keywords:

    Combustion & Ignition , Industrial Safety Engineering , Smoke , Flow distribution , Buoyancy , Numerical analysis , Fire models

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