Saikat Datta scite author profile

The dynamics of uphill motion and the internal circulation of a sessile droplet by inducing asymmetric electrocapillarity were formulated and investigated numerically. We developed and analyzed a coupled electro-hydrodynamic model that includes conservative body and surface forces along with electrostatic effects. The interplay between gravity and electrostatic actuation is influenced by induction voltage, the inclination of the surface, and the droplet volume. Actuation voltage on the sessile drop causes an internal circulation which, upon increasing strength, overcomes the gravitational pull to climb uphill. As uphill droplet climbing is a spatiotemporal phenomenon, droplet volume plays a major role in accommodating the internal circulations and subsequent climb. Simultaneously, actuation due to electrostatic force behaves differently on different inclined surfaces, causing a roll down at higher inclination and an uphill climb at lower ones. A pattern map has been generated to identify favorable conditions for uphill movement based on the inclination, actuation voltage, and volume of the droplet.

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Modeling of plasma spray coating process using statistical regression analysis

Datta

Pratihar

Bandyopadhyay

2012

Int J Adv Manuf Technol

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Performance of a condenser of an automotive air conditioner with maldistribution of inlet air—Simulation studies and its experimental validation

Datta

Das

Mukhopadhyay

2016

International Journal of Heat and Mass Transfer

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Methane scattering on porous kerogen surfaces and its impact on mesopore transport in shale

Chen

Datta

et al. 2022

Fuel

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Saikat Datta

Obstructed airflow through the condenser of an automotive air conditioner – Effects on the condenser and the overall performance of the system

Uphill Movement of Sessile Droplets by Electrostatic Actuation

Modeling of plasma spray coating process using statistical regression analysis

Performance of a condenser of an automotive air conditioner with maldistribution of inlet air—Simulation studies and its experimental validation

Methane scattering on porous kerogen surfaces and its impact on mesopore transport in shale

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