Kalyani Agarwal scite author profile

Kalyani Agarwal

5Publications

57Citation Statements Received

165Citation Statements Given

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159

Affiliations

Indian Institute of Technology Ropar

Publications

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Does salting-out effect nucleate nanobubbles in water: Spontaneous nucleation?

Agarwal

Trivedi

Nirmalkar

2022

Ultrasonics Sonochemistry

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Highlights Nanobubble density during salting-out effect increases with salting-out parameter. An ultrasound field with a high amplitude destroys the nanobubbles in salt solution. R.I. of nanobubbles in NaCl and AlCl 3 were estimated to be 1.012 and 1.302, respectively. The NBs during salting-out effect are observed to be stable only for up to three days.

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On Nanobubble Dynamics under an Oscillating Pressure Field during Salting-out Effects and Its DLVO Potential

et al. 2023

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We have investigated the origin, stability, and nanobubble dynamics under an oscillating pressure field followed by the salting-out effects. The higher solubility ratio (salting-out parameter) of the dissolved gases and pure solvent nucleates nanobubbles during the salting-out effect, and the oscillating pressure field enhances the nanobubble density further as solubility varies linearly with gas pressure by Henry’s law. A novel method for refractive index estimation is developed to differentiate nanobubbles and nanoparticles based on the scattering intensity of light. The electromagnetic wave equations have been numerically solved and compared with the Mie scattering theory. The scattering cross-section of the nanobubbles was estimated to be smaller than the nanoparticles. The DLVO potentials of the nanobubbles predict the stable colloidal system. The zeta potential of nanobubbles varied by generating nanobubbles in different salt solutions, and it is characterized by particle tracking, dynamic light scattering, and cryo-TEM. The size of nanobubbles in salt solutions was reported to be higher than that in pure water. The novel mechanical stability model is proposed by considering both ionic cloud and electrostatic pressure at the charged interface. The ionic cloud pressure is derived by electric flux balance, and it is found to be twice the electrostatic pressure. The mechanical stability model for a single nanobubble predicts the existence of stable nanobubbles in the stability map.

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Thermal energy storage in a confined cylindrical heat source filled with phase change materials

Sharma

Trivedi

Agarwal

et al. 2021

International Journal of Heat and Mass Transfer

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An Improved Microwave Extraction Method for Distillation of Essential Oil from Piper Betle L

Agarwal¹,

Gupta²

2018

IJRASET

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Bulk nanobubbles in aqueous salt solution

Agarwal

Trivedi

Nirmalkar

2022

Materials Today: Proceedings

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Kalyani Agarwal

Does salting-out effect nucleate nanobubbles in water: Spontaneous nucleation?

On Nanobubble Dynamics under an Oscillating Pressure Field during Salting-out Effects and Its DLVO Potential

Thermal energy storage in a confined cylindrical heat source filled with phase change materials

An Improved Microwave Extraction Method for Distillation of Essential Oil from Piper Betle L

Bulk nanobubbles in aqueous salt solution

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