• Flow Analysis of Non-Newtonian Fluid through Anisotropically Tapered Arteries 

  Erum Rasheed, 01-248222-003 (Computer Sciences, 2024)

  The purpose of this work is to study the blood flow analysis of Prandtl fluid model in tapered stenosed arteries. Flow analysis using rabinowitsch fluid model is analyzed and cylindrical coordinates are also used to express ...
• Variable Characteristics Effects on Maxwell Nanofluid Flow with Triple Diffusion over a Stretching Cylinder 

  Muhammad Hasnain, 01-248222-004 (Computer Sciences, 2024)

  This study aims to investigate the impact of activation energy on Maxwell nanofluid over a stretching cylinder. This study examines the significance of variable thermal conductivity, inclined magnetic field, variable ...
• Dusty Casson Fluid Flow with Thermal Radiation over a Deforming Surface 

  Asadullah Ghalib, 01-248222-002 (Computer Sciences, 2024)

  This study presents at heoretical the rmalanalysis for the two-phasedusty liquid flow of electrically conducting Casson liquid verade forming surface.The impact of the rmalradiation and heatsource/sinkisal sodeli berate ...
• Oblique Stagnation Point Flow of Alumina/Gammaalumina Nanofluid with Thermal Radiation 

  Tahreem Fatima, 01-248222-010 (Computer Sciences, 2024)

  This work examines the behavior of Al2O3 ,  Al2O3 nanofluid (NF) in an oblique stagnation point (SP) flow toward a stretching sheet (SS) with porous medium and Cattaneo-Christov (CC) heat flux. In this model, porous ...
• Slip Flow of Casson Fluid over a Semi-Infinite Vertical Moving Plate 

  Rabia Jameel, 01-248222-005 (Computer Sciences, 2024)

  The goal of this thesis is to examine the combined effects of heat source (HS), Hall current (HC) and ion slip, while analyzing the slip flow (SF) of a Casson fluid (CF) over a partial-infinite vertical moveable plate. The ...
• Double Diffusive Oblique Stagnation Point Maxwell Nanofluid Flow Along a Convective Stretching Cylinder with Variable Characteristics 

  Sana Arshad, 01-248222-009 (Computer Sciences, 2024)

  The flow of a Maxwell nanoliquid across a convective stretching cylinder at a non-orthogonal stagnation point is investigated in the presence of variable fluid characteristics. Instead of considering constant thermal ...
• Thermophoretic Particle Deposition Effect on the Squeezed Flow of Radiative Jeffrey Fluid Past a Sensor Surface with Uniform Heat Source/Sink and Chemical Reaction 

  Sajeel Mazhar, 01-248222-008 (Computer Sciences, 2024)

  The primary innovation and distinction of the current work is to investigate two-dimensional, unsteady, magnetized Jeffrey liquid flowing on a sensor surface placed among two infinite parallel plates with the existence of ...
• Stefan Blowing and Magnetic Dipole Effects on a Bioconvective Second-Grade Nanofluid Flow over a Curved Surface 

  Saba Arshad, 01-248222-007 (Computer Sciences, 2024)

  The intent of this research is to arithmetically model time-dependent flow of a second-grade nanoliquid across a bent elongated surface under the influence of the magnetic dipole assisted by slip and Stefan-blowing impact ...
• Shape Effect of Ferromagnetic Nanoparticles with Variable Heat Source/Sink on Stagnation Point Over a Rotating Disk 

  Abdullah, 01-248222-001 (Computer Sciences, 2024)

  The aim of this work to study Maxwell nanofluid flow on stagnation point over apermeable stretching/shrinking rotating disk is examined. The influence of lamina and spheresh apednanoparticles on stagnation point over ...
• Relation among Fluid Flow over a Linear, Nonlinear and Exponentially Stretching/Shrinking Sheets. 

  Hira Masood, 01-248202-002 (Computer Sciences, 2022)

  The following steps in the current thesis establish the idea of the relation among fluid flow over linear, nonlinear and exponential stretching sheets. Following are the steps taken to construct the thesis framework. An ...
• Exact Solution of Jeffrey Fluid Flow Due to Stretching/Shrinking Surface 

  Sana Ahmed, 01-248202-009 (Computer Sciences, 2022)

  The present thesis determines the concept of the exact solution of Jeffrey fluid flow due to Stretching/shrinking surface. The thesis framework has been developed in the following way. In the first chapter, exhaustive ...
• Hall Current and Ion Slip Impact on a Oldroyd-b Nanofluid Flow Driven by two Concentric Rotating Disks with Cattaneo-Christov Heat Flux 

  Hafsa Bint E Arlf, 01-248202-004 (Computer Sciences, 2022)

  This steady discusses the flow of Holroyd-B nanofluid amidst two rotating disks with the inclusion of gyrostatic microorganisms. The stability of the nanofluid flow is strengthened by embedding the impact of the gyrostatic ...
• Heat Transfer Analysis of Johnson-Segalman Fluid in a Tapered Asymmetric Channel 

  Zulfiqar Ali, 01-248202-012 (Computer Sciences, 2022)

  This study presents a theoretical thermal analysis for the peristaltic transportation of electrically conducting Johnson-Segalman liquid through a two-dimensional asymmetric tapered following the propagation of sinusoidal ...
• Impact of Cattaneo-Christov Double Diffusion on a Sutter by Nanofluid Flow over a Rotating Disk with Hall Current and Ion Slip 

  Asad Ali Shah, 01-248202-001 (Computer Sciences, 2022)

  Classical Fourier law has been a benchmark for about two centuries. But owing to serious flaws, this was later amended and now-a-days is termed as Cattaneo-Christov heat flux model. This thesis discusses the flow of Sutter ...
• Thermally Stratified Bodewadt Flow of Hybrid Nanofluid 

  Zara Mushtaq Shah, 01-248202-011 (Computer Sciences, 2022)

  Present thesis represents the in-depth research of thermally stratified Bӧdewadt flow of hybrid nanofluid (HNF) containing different shaped hybrid nanoparticles (NPs) past a stretching stationary disk surface including ...
• Ferromagnetic Jeffrey Nanofluid Flow Influenced by Magnetic Dipole with Cattaneo-Christov Double Diffusion and Gyrotact Microorganism 

  Iqra Rauf, 01-248202-005 (Computer Sciences, 2022)

  This thesis discusses the flow of Jeffrey nanofluid flow over a stretched surface influenced by magnetic dipole. The flow is subjected to the gyrotactic microorganism that is used to enhance the stability of the fluid. The ...
• Numerical Solution of Micropolar Fluid Due To Moving Surface 

  Tufail Abbas, 01-248202-003 (Computer Sciences, 2022)

  The major goal of writing this thesis to enunciate the notion of numerical solution of micropolar fluids due to moving surface. We have established the thesis in the following manners. In the first chapter, comprehensive ...
• Entropy Analysis Due to Free Convection Flow along a Vertical Surface 

  Taqwa Kiani, 01-248202-010 (Computer Sciences, 2022)

  This thesis primary goal is to assess how free convection flow along a vertical surface affects the entropy analysis. The assessment is divided into five chapters. The irreversibility of free or forced convection in the ...
• Significance of Hall Current and Ion Slip in a three Dimensional Maxwell Nanofluid Flow over Rotating Disk with Variable Characteristics 

  Jawad Ali, 01-248202-006 (Computer Sciences, 2022)

  This thesis discusses the three-dimensional Maxwell nanofluid flow over a or- tatting deformable disk influenced Hall current and Ion slip. To increase the stability of the nanofluid flow, the effect bio-convection is ...
• Bioconvection in Reiner-Philippoff Fluid Flow Over a Slandering Sheet 

  Saba Noureen, 01-248202-008 (Computer Sciences, 2022)

  The goal of this thesis to investigate the consequence of thermal stratification, thermal radiation, heat source/sink, the gyrotactic microbes in the nanofluid is important to enhance the thermal proficiency of various ...

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