Quantum method for computations of flows around a body with Data analysis

TL;DR

This paper explores quantum computational methods to estimate drag coefficients around a sphere, comparing quantum and classical approaches, highlighting potential advantages and limitations.

Contribution

It introduces a quantum approach for flow computations around a body and compares it with classical methods, focusing on drag force estimation.

Findings

Quantum methods can approximate drag coefficients for flow around a sphere.

Comparison shows differences between quantum and classical flow simulations.

Limited computational resources restrict detailed flow analysis.

Abstract

In this paper we briefly introduce the quantum methods for computations of the drag coefficients for flows around a body, using the flows around a rigid sphere as an example, and we aim for comparing the wake under quantized environment and the classical computational strategies for finding the drag force. This paper however doesn't provide discussion on the pressure distribution over the surfaces of a spherical body and neither the analytical solution for the flows around an airfoil due to the greatly limited computational capacities and resources.