Kunal Sandip Garud

Orcid: 0000-0002-0893-0785

According to our database1, Kunal Sandip Garud authored at least 14 papers between 2020 and 2024.

Collaborative distances:
  • Dijkstra number2 of six.
  • Erdős number3 of five.

Timeline

Legend:

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Online presence:

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Bibliography

2024
Heat Transfer Characteristics of an Electric Motor with Oil-Dripping Cooling under Overload Conditions.
Symmetry, March, 2024

2023
A Review of Advanced Cooling Strategies for Battery Thermal Management Systems in Electric Vehicles.
Symmetry, July, 2023

Numerical Study on Heat Transfer Characteristics of Dielectric Fluid Immersion Cooling with Fin Structures for Lithium-Ion Batteries.
Symmetry, 2023

2022
Heat Flow Characteristics of Ferrofluid in Magnetic Field Patterns for Electric Vehicle Power Electronics Cooling.
Symmetry, 2022

Experimental Study on Dielectric Fluid Immersion Cooling for Thermal Management of Lithium-Ion Battery.
Symmetry, 2022

Numerical Study on Thermal and Flow Characteristics of Divergent Duct with Different Rib Shapes for Electric-Vehicle Cooling System.
Symmetry, 2022

Review on Performance Enhancement of Photovoltaic/Thermal-Thermoelectric Generator Systems with Nanofluid Cooling.
Symmetry, 2022

2021
Energy Saving and Economic Evaluations of Exhaust Waste Heat Recovery Hot Water Supply System for Resort.
Symmetry, 2021

Experimental Study on Heating Performances of Integrated Battery and HVAC System with Serial and Parallel Circuits for Electric Vehicle.
Symmetry, 2021

Numerical Investigations on Heat Transfer Characteristics of Single Particle and Hybrid Nanofluids in Uniformly Heated Tube.
Symmetry, 2021

First and Second Law Thermodynamic Analyses of Hybrid Nanofluid with Different Particle Shapes in a Microplate Heat Exchanger.
Symmetry, 2021

2020
Power Generation, Efficiency and Thermal Stress of Thermoelectric Module with Leg Geometry, Material, Segmentation and Two-Stage Arrangement.
Symmetry, 2020

A Study on Performance Characteristics of a Heat Pump System with High-Pressure Side Chiller for Light-Duty Commercial Electric Vehicles.
Symmetry, 2020

Artificial Neural Network and Adaptive Neuro-Fuzzy Interface System Modelling to Predict Thermal Performances of Thermoelectric Generator for Waste Heat Recovery.
Symmetry, 2020


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