Dynamic Analysis of Velocity Field and Heat Absorption in MHD Flow of a Brinkman-Type Fluid with Stratification and Radiation Effects

• Author(s): Dr Madhava Reddy Ch
• Paper ID: 1700174
• Page: 135-140
• Published Date: 28-02-2018
• Published In: Iconic Research And Engineering Journals
• Publisher: IRE Journals
• e-ISSN: 2456-8880
• Volume/Issue: Volume 1 Issue 8 February-2018

Abstract

In this study, we conduct a comprehensive analysis of the dynamic aspects of the velocity field and heat absorption in the context of Magnetohydrodynamic (MHD) flow of a Brinkman-type fluid, considering the significant influences of stratification and radiation effects. The study addresses an essential gap in the existing literature by providing an in-depth investigation into the interplay of these key factors, offering valuable insights into the behavior of complex fluid systems. The research is motivated by the growing importance of understanding the intricacies of MHD flows in diverse applications, ranging from environmental processes to industrial systems. The Brinkman-type fluid model serves as the foundation for our investigation, providing a robust framework to capture the characteristics of fluid flow under the influence of magnetic fields. The mathematical formulation incorporates the governing equations for MHD flow, with particular emphasis on the velocity field, heat absorption mechanisms, and the impact of stratification and radiation. The equations are derived and defined, laying the groundwork for a systematic exploration of the fluid dynamics in our study. Numerical or analytical methods, tailored to handle the complexities of the formulated equations, are employed. These methods are carefully selected to ensure accuracy and efficiency in solving the system of equations, allowing for a detailed examination of the fluid's behavior. The results reveal intricate patterns in the velocity field and heat absorption profiles, highlighting the role of stratification and radiation in shaping the fluid dynamics. The study not only quantifies the impact of these factors but also elucidates the underlying mechanisms governing their influence. In the discussion section, we interpret the findings in the broader context of MHD flows, emphasizing the significance of considering stratification and radiation effects. Comparative analyses with existing studies underscore the novel contributions of our research to the understanding of fluid behavior in complex environments. In conclusion, this research advances our knowledge of MHD flows of Brinkman-type fluids by incorporating and analyzing the influences of velocity fields, heat absorption, stratification, and radiation effects. The insights gained from this study have implications for a wide range of applications, from environmental fluid dynamics to technological advancements in industrial processes.

Keywords

Velocity Field, MHD Flow of a Brinkman-Type Fluid, Heat Absorption, Stratification, Radiation

Citations

IRE Journals:
Dr Madhava Reddy Ch "Dynamic Analysis of Velocity Field and Heat Absorption in MHD Flow of a Brinkman-Type Fluid with Stratification and Radiation Effects" Iconic Research And Engineering Journals Volume 1 Issue 8 2018 Page 135-140

IEEE:
Dr Madhava Reddy Ch "Dynamic Analysis of Velocity Field and Heat Absorption in MHD Flow of a Brinkman-Type Fluid with Stratification and Radiation Effects" Iconic Research And Engineering Journals, 1(8)