A.H. Rajkotwala scite author profile

A.H. Rajkotwala

5Publications

69Citation Statements Received

58Citation Statements Given

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185

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Eindhoven University of Technology

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Extension of local front reconstruction method with controlled coalescence model

Rajkotwala

Mirsandi

Peters

et al. 2018

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The physics of droplet collisions involves a wide range of length scales. This poses a challenge to accurately simulate such flows with standard fixed grid methods due to their inability to resolve all relevant scales with an affordable number of computational grid cells. A solution is to couple a fixed grid method with subgrid models that account for microscale effects. In this paper, we improved and extended the Local Front Reconstruction Method (LFRM) with a film drainage model of Zang and Law [Phys. Fluids 23, 042102 (2011)]. The new framework is first validated by (near) head-on collision of two equal tetradecane droplets using experimental film drainage times. When the experimental film drainage times are used, the LFRM method is better in predicting the droplet collisions, especially at high velocity in comparison with other fixed grid methods (i.e., the front tracking method and the coupled level set and volume of fluid method). When the film drainage model is invoked, the method shows a good qualitative match with experiments, but a quantitative correspondence of the predicted film drainage time with the experimental drainage time is not obtained indicating that further development of film drainage model is required. However, it can be safely concluded that the LFRM coupled with film drainage models is much better in predicting the collision dynamics than the traditional methods.

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A critical comparison of smooth and sharp interface methods for phase transition

Rajkotwala

Panda

Peters

et al. 2019

International Journal of Multiphase Flow

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Numerical simulation of bubble formation with a moving contact line using Local Front Reconstruction Method

Mirsandi

Rajkotwala

Baltussen

et al. 2018

Chemical Engineering Science

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Comparison of the local front reconstruction method with a diffuse interface model for the modeling of droplet collisions

Rajkotwala

Gelissen

Baltussen

et al. 2020

Chemical Engineering Science: X

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Influence of gas fraction on wall-to-liquid heat transfer in dense bubbly flows

Panda¹,

Weitkamp

Rajkotwala³

et al. 2019

Chemical Engineering Science: X

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A.H. Rajkotwala

Extension of local front reconstruction method with controlled coalescence model

A critical comparison of smooth and sharp interface methods for phase transition

Numerical simulation of bubble formation with a moving contact line using Local Front Reconstruction Method

Comparison of the local front reconstruction method with a diffuse interface model for the modeling of droplet collisions

Influence of gas fraction on wall-to-liquid heat transfer in dense bubbly flows

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