WorldCat Identities

Skote, Martin

Overview
Works: 12 works in 20 publications in 6 languages and 28 library holdings
Roles: Author, Contributor, Other
Classifications: PZ54.9, 628.53
Publication Timeline
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Most widely held works by Martin Skote
Er du aldri redd?? by Martin Skote( Book )

4 editions published in 1981 in Norwegian and Norwegian and held by 6 WorldCat member libraries worldwide

Inte alls rädd?? by Martin Skote( Book )

3 editions published between 1979 and 2016 in Swedish and held by 5 WorldCat member libraries worldwide

Korta texter om vardagliga ting: barns otrygghet och osäkerhet, rädslan för andra i barnkollektivet och fantasins skrämselutflykter i ensamheten. Bör läsas av barn och vuxna tillsammans
Ikke spor bange by Martin Skote( Book )

3 editions published in 1983 in Danish and Undetermined and held by 3 WorldCat member libraries worldwide

An Experimental Study of the Rotational Effects on Separated Turbulent Flow During Stall Delay by Yanhua Wu( )

1 edition published in 2016 in English and held by 2 WorldCat member libraries worldwide

Helemaal niet bang?? : voor kinderen en volwassenen om samen te lezen by Martin Skote( Book )

2 editions published in 1984 in Dutch and held by 2 WorldCat member libraries worldwide

Bundel teksten waarin Martin en zijn moeder om de beurt vertellen waarvoor zij bang zijn. Om samen met kinderen vanaf ca. 7 jaar te lezen en te bespreken
Wall Oscillation Induced Drag Reduction Zone in a Turbulent Boundary Layer by Martin Skote( )

1 edition published in 2018 in English and held by 2 WorldCat member libraries worldwide

Simulation of non-Newtonian oil-water core annular flow through return bends by Fan Jiang( )

1 edition published in 2017 in English and held by 2 WorldCat member libraries worldwide

CFD simulation of dense gas dispersion in neutral atmospheric boundary layer with OpenFOAM by Vu Tran( )

1 edition published in 2019 in English and held by 2 WorldCat member libraries worldwide

Studies of turbulent boundary layer flow through direct numerical simulation by Martin Skote by Martin Skote( Book )

1 edition published in 2001 in English and held by 1 WorldCat member library worldwide

Studies of turbulent boundary layer flow through direct numerical simulation by Martin Skote( Book )

1 edition published in 2001 in English and held by 1 WorldCat member library worldwide

Inte alls rädd?? [för barn och vuxna att läsa tillsammans] by Martin Skote( Recording )

1 edition published in 2006 in Swedish and held by 1 WorldCat member library worldwide

Pressure drop, void fraction and wave behavior in two-phase non-Newtonian churn flow( )

1 edition published in 2017 in English and held by 1 WorldCat member library worldwide

Highlights: The proposed model is suitable for both Newtonian and non-Newtonian fluids. We analyzed how liquid viscosity affects the pressure gradient and void fraction with non-Newtonian fluids. The velocity profiles were predicted for both gas and liquid phases. The non-Newtonian fluids of higher shear-thinning behavior exhibited the smaller void fraction and pressure gradients. We analyzed how viscosity affected the wave properties (e.g., wave growth, velocity and locations). Abstract: Many commonly used industrial fluids display non-Newtonian effects. Their rheology exerts a strong influence on flow structure, interface fluctuation, pressure drop, heat transfer and many other flow characteristics. Owing to the complexity of churn flow, knowledge of the flow characteristics with non-Newtonian fluids is not well documented in existing literature. In the present study, we employ the power-law model to describe the non-Newtonian fluid behavior and establish an analytical model to predict pressure gradient, void fraction and wave behavior in churn flow. One churn flow unit is carefully divided into two parts (the falling film region and the wave region) and analyzed separately. The results indicate that liquid viscosity significantly affects the variations of pressure gradient, void fraction, velocity profiles, film thickness and wave behavior. These findings will provide insight into the effect of viscosity on flow structures and benefit a better understanding of the non-Newtonian churn flow
 
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