MUMBAI, India, June 30 -- Intellectual Property India has published a patent application (202641074903 A) filed by Gorla Venkata Ganesh; Dr. G. Charan Kumar; Dr. D. Ramesh; Dr. K. Jhansi Rani; Dr. Gudala Balaji Prakash; Dr. K. Kondala Rao; Dr. K. Lakshmi Narayan; Dr. Anuradha M. N. L.; Mr. J. Govardhan Reddy; and Koneru Lakshmaiah Education Foundation on June 17, 2026, for A Novel Response Surface Method-Based System And Process For Optimization Of Unsteady Micropolar Nanofluid Flow Over Stretching Surfaces.
Inventors include Dr. G. Charan Kumar; Dr. D. Ramesh; Dr. K. Jhansi Rani; Dr. Gudala Balaji Prakash; Dr. K. Kondala Rao; Dr. K. Lakshmi Narayan; Dr. Anuradha M. N. L.; Mr. J. Govardhan Reddy; and Gorla Venkata Ganesh.
The application for the patent was published on June 26, 2026, under issue no. 26/2026.
Abstract: This study investigates the behavior of the micropolar nano liquid flow over an obliquely stretched, porous surface with a focus on energy transport. The model incorporates magnetic effects, porosity, and slip conditions in velocity and concentration, under thermal convective boundaries. Using similar transformations, the governing equations are reduced and answered statistically via the bvp4c solver in MATLAB. Additionally, Response Surface Methodology is hired to assess and optimize the influence of key constraints on skin friction, Nusselt, and Sherwood numbers. Results, validated against existing studies, reveal significant influences of magnetic field strength, permeability, and current properties on movement characteristics. This work supports advancements in thermal management and microfluidic applications
Disclaimer: Curated by HT Syndication.