Numerical Modeling of Doorway Flow Induced by an Air Curtain

Lu, Frank K.; Chauhan, Vijay; Pierce, Adam J.; Yajin, Takayuki; Dutton, J. C.

doi:10.2514/6.2006-2929

Cited by 2 publications

(1 citation statement)

References 31 publications

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“…В этом случае целесообразно использовать методы вычислительной газовой динамики, которые широко применяются для моделирования аэродинамических течений в различных технических устройствах. Численное моделирование используется как для исследования нестационарной аэродинамики и теплообмена, протекающих в рабочих (внутренних) областях устройств [5,7,[9][10][11], так и для расчета формы и траектории оси воздушных струй в помещении после их истечения из воздушно-тепловой завесы [12]. В настоящей работе на основе методов вычислительной газовой динамики анализируется течение вязкого, сжимаемого, теплопроводного газа в рабочем объеме воздушно-тепловой завесы.…”

Section: Introductionunclassified

Peculiarities of numerical simulation of air/heat curtain operation in OpenFOAM

Григорьев¹,

Koroleva²,

Mishchenkova³

2023

Proceedings of ISP RAS

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The issues of mathematical modeling of turbulent heat-conductive flow of compressible viscous medium in the internal volume of the body of an air-thermal curtain equipped with a tangential fan are considered. The solution of the problem is constructed on the basis of averaged Reynolds (Favre) Navier-Stokes equations. The solution of the problem is obtained using the MRF (Multiple Reference Frame) approach, which uses a rotating reference frame, and using a transformation of the basic Navier-Stokes equations in the rotation zone. In order to correctly describe the working processes occurring in the internal volume of the air-thermal curtain and in the environment, modular multiblock meshes are applied in the work, including those allowing to separate rotating and stationary areas. The solution of the set tasks is constructed using the tools of the OpenFOAM package. As a result of the work, the peculiarities of the flow structure in the flowing part of the air-heat curtain are described in detail, and the gas velocities achieved at different fan speeds are estimated. The self-similarity of velocity profiles at the air curtain nozzle outlet is shown.

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Section: Introductionunclassified

Peculiarities of numerical simulation of air/heat curtain operation in OpenFOAM

Григорьев¹,

Koroleva²,

Mishchenkova³

2023

Proceedings of ISP RAS

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Research of Smoke Isolating with Air Curtain at Ship’s Tunnel

Zhu

Zhong

2012

AMR

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The rapid spreading of poisonous smoke is the main reason which causes death in ship fires. Ships always have long tunnels to traveling passengers or cargos. Because of their longness and straightness, smoke diffuses rapidly. Fire doors are used to stop the smoke from spreading into other parts in vessels. When the fire doors are closed, the way for evacuation is also closed. So it’s important for the professionals to develop a kind of smoke-preventing device which can let people pass by when stopping the smoke. The air curtain is a kind of smoke isolating device which is used to decrease the heat exchange in supermarket or freezer. This paper analyzes flow field, the heat control and the smoke isolating ability of air curtain used in the ships’ long tunnels with different jet angles and initial velocities. At last, a suitable angle is proposed.

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Numerical Modeling of Doorway Flow Induced by an Air Curtain

Cited by 2 publications

References 31 publications

Peculiarities of numerical simulation of air/heat curtain operation in OpenFOAM

Peculiarities of numerical simulation of air/heat curtain operation in OpenFOAM

Research of Smoke Isolating with Air Curtain at Ship’s Tunnel

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