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Advances in Laminar Flow Identification Methods
Abstract
The accurate identification of laminar flow regimes is crucial in fluid dynamics, particularly for optimizing thermal, hydraulic, and aerodynamic system performance. This paper presents a comprehensive review and analysis of contemporary methods used to identify laminar flow in various engineering applications. Traditional analytical tools based on Reynolds number calculations are compared with experimental visualization techniques such as smoke flow, dye injection, and particle image velocimetry (PIV). Additionally, the study explores modern data-driven approaches, including machine learning algorithms trained on flow pattern datasets and sensor-based systems that enable real-time monitoring. The integration of computational fluid dynamics (CFD) simulations enhances the precision of boundary layer analysis and flow regime transitions. Case studies are presented from microchannel heat exchangers, aerospace nozzles, and biomedical devices to demonstrate practical implications. The paper concludes with a discussion on the challenges and future trends in automated and hybrid laminar flow identification systems aimed at intelligent design and process control.
Cite as:A. Awasare. (2025). Advances in Laminar Flow Identification Methods. Journal of Advanced Research in Industrial Engineering, 7(2), 30–37.
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