PhD Scholar at Beijing Forestry University, Beijing, 100083, China, China.
🌍Dr. Taqmeem Bibi is a Pakistani scholar specializing in fluid mechanics, particularly focusing on the analysis of linear and nonlinear partial differential equations (PDEs) using numerical techniques. Her research includes fluid flow with nanoparticles, hybrid nanofluids, and entropy optimization, with applications in heat and mass transfer and energy-efficient systems. She holds an M.Phil. degree, where her thesis explored hybrid nanofluid flow containing motile microorganisms under the Cattaneo-Christov double diffusion model. Dr. Bibi is proficient in advanced computational tools such as MATLAB, Mathematica, and LaTex, and she has published impactful research in peer-reviewed journals. Her accolades include multiple merit scholarships, Dean’s Roll of Honor awards, and a prestigious Chinese Government Scholarship for her PhD studies.
Profile👤
Education 🎓
🎓Dr. Taqmeem Bibi has pursued a stellar academic journey across leading institutions. She earned her B.Sc. from the University of Punjab, Lahore, followed by an M.Sc. in Mathematics from Riphah International University, Islamabad, where she received merit scholarships for academic excellence. Continuing her dedication to higher education, she completed her M.Phil. at Capital University of Science and Technology, Islamabad, with a focus on hybrid nanofluids. Her thesis titled “Flow Analysis of (TiO2 + Ag)/EO Hybrid Casson Nanofluid Containing Motile Micro-Organisms Subjected to Cattaneo-Christov Double Diffusion” reflects her expertise in applying numerical methods to real-world fluid mechanics challenges. Dr. Bibi is now pursuing her Ph.D. at Beijing Forestry University, China, under the Chinese Government Scholarship, where she explores advanced numerical techniques for solving nonlinear PDEs in fluid dynamics. Her education highlights her academic excellence and unwavering commitment to innovative research.🎓
Experience
🩺Dr. Taqmeem Bibi has a robust research background in fluid mechanics and numerical analysis. Her work involves solving complex partial differential equations (PDEs) using advanced numerical techniques, particularly focusing on hybrid nanofluids and their applications in energy-efficient systems. She has collaborated with renowned researchers, including Prof. Dr. Wang Ping from Beijing Forestry University and Dr. Muhammad Sagheer from Capital University of Science and Technology, Islamabad. Dr. Bibi has contributed to high-impact journals and participated in academic events such as the CUST Mathematics Conference in 2023. Beyond research, she is skilled in using computational tools like MATLAB and Mathematica, enabling her to tackle multidisciplinary challenges in applied mathematics. Her expertise in fluid dynamics, numerical solutions, and cryptography showcases her versatility as a researcher and academic.👨🔬🌍
Awards and Honors 🏆
Dr. Taqmeem Bibi has consistently demonstrated academic excellence, earning several prestigious awards and scholarships. She received merit scholarships during her B.Sc., M.Sc., and M.Phil. studies, recognizing her outstanding academic performance. During her M.Phil. at Capital University of Science and Technology, Islamabad, she was twice awarded the Dean’s Roll of Honor for her exceptional achievements. Currently, she is the recipient of the highly competitive Chinese Government Scholarship for her Ph.D. at Beijing Forestry University, China. These accolades reflect her dedication to advancing knowledge in fluid mechanics and numerical analysis. Dr. Bibi’s recognition for academic excellence underscores her potential as an accomplished researcher and scholar.
Research Interests 🔬
🔬Dr. Taqmeem Bibi’s research centers on fluid mechanics, with a particular focus on hybrid nanofluids and their role in enhancing energy-efficient systems. She employs advanced numerical techniques to analyze linear and nonlinear partial differential equations (PDEs), contributing to the optimization of heat and mass transfer processes. Her work emphasizes the Cattaneo-Christov model for non-Fourier heat flux, entropy optimization, and the behavior of motile microorganisms in hybrid nanofluids. By exploring innovative approaches in computational modeling, Dr. Bibi’s research offers insights into sustainable technologies, including solar energy applications and advanced materials in fluid systems. Her interdisciplinary expertise bridges mathematics, engineering, and environmental sustainability, making significant contributions to applied mathematics and energy-efficient designs.🌿🧪
Conclusion 
Dr. Taqmeem Bibi stands as a strong candidate for the Best Scholar Award due to her exceptional contributions to applied mathematics and fluid mechanics. Her innovative research, robust publication record, and academic excellence underscore her scholarly impact. Addressing areas such as international engagement and diversified research focus could further elevate her profile. Overall, Dr. Bibi’s expertise and achievements make her highly deserving of recognition as an outstanding scholar.
Publications Top Notes 
Numerical investigation of transverse hyperbolic nanofluids flow with motile microorganisms using Cattaneo-Christov model
Authors: Faisal Shah, Taqmeem Bibi, D. Zhang
Journal: Alexandria Engineering Journal
Year: 2023
Citations: Impact Factor = 6.2 (Citation details depend on the indexing database but are not provided in the text).
Computational study of tri-hybrid nanofluid flow through permeable stretching sheet with entropy optimization
Authors: Faisal Shah, Taqmeem Bibi
Journal: ZAMM Zeitschrift Fur Angewandte Mathematik und Mechanik
Year: Under Review (expected publication year may depend on acceptance).
Citations: Not applicable yet.
A theoretical study on (TiO2 + Ag)/EO hybrid Casson nanofluid with motile microorganisms in non-Fourier heat flux model
Authors: Muhammad Sagheer, Taqmeem Bibi, Hussan Shehzad
Journal: Multiscale and Multidisciplinary Modeling
Year: Under Review (expected publication year may depend on acceptance).
Citations: Not applicable yet.
Multidisciplinary optimization approaches for entropy generation in Williamson hybrid nanofluid: Computational insights for solar aircraft efficiency
Authors: Faisal Shah, Taqmeem Bibi
Journal: Structural and Multidisciplinary Optimization
Year: Submitted (expected publication year may depend on acceptance).
Citations: Not applicable yet.