Dr Guohang Tang | Sustainability in Material Science | Best Researcher Award

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Dr Guohang Tang | Sustainability in Material Science | Best Researcher Award

Dr. Guohang Tang is a doctoral researcher at Tongji University, specializing in geotechnical engineering and environmental sustainability ๐Ÿ—๏ธ. His research focuses on COโ‚‚ geological sequestration and the adsorption behavior of clay minerals, particularly illite โ›๏ธ. His work provides critical insights into how moisture content and temperature influence COโ‚‚ storage efficiency, contributing to climate change mitigation ๐ŸŒฑ. He has published in SCI-indexed journals, such as Applied Clay Science and Measurement ๐Ÿ“š. With expertise in carbon capture and storage (CCS) technologies, his research is paving the way for sustainable environmental engineering solutions ๐Ÿ†.

Dr Guohang Tang, Tongji University, China

Profile

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Academic and Professional Background๐ŸŽ“๐ŸŒ

Dr. Guohang Tang is a doctoral researcher at Tongji University, specializing in geotechnical engineering and environmental sustainability ๐Ÿ—๏ธ. His research focuses on COโ‚‚ geological sequestration and the adsorption behavior of clay minerals, particularly illite โ›๏ธ. His studies provide critical insights into COโ‚‚ interactions with geological materials, helping to improve carbon capture and storage (CCS) strategies ๐ŸŒฑ. With extensive experience in environmental geotechnics, his work aims to enhance the efficiency of COโ‚‚ sequestration under different moisture and temperature conditions ๐Ÿ”ฌ. His contributions to sustainable engineering solutions are vital for addressing climate change challenges ๐Ÿ†โœจ.

Research and Innovations๐ŸŒฑ

Dr. Guohang Tangโ€™s research focuses on COโ‚‚ geological sequestration, clay mineralogy, and adsorption mechanisms ๐Ÿ—๏ธ. He is currently working on a project analyzing COโ‚‚ interactions with clay minerals, particularly illite โ›๏ธ. His studies explore moisture content and temperature effects on COโ‚‚ sequestration efficiency, aiding in the optimization of geological storage strategies ๐ŸŒฑ. He has published in SCI-indexed journals such as Applied Clay Science and Measurement ๐Ÿ“š. With a citation index of 10.5, his research significantly contributes to sustainable carbon capture solutions, addressing global climate change challenges ๐Ÿ†โœจ.

Research Focus๐Ÿ”ฌ

Dr. Guohang Tangโ€™s research primarily focuses on COโ‚‚ geological sequestration, soil mechanics, and environmental geotechnics ๐Ÿ—๏ธ. His work explores adsorption mechanisms in clay minerals, particularly illite, and how moisture content and temperature affect COโ‚‚ storage efficiency โ›๏ธ. He also investigates soil freezing phase transitions, moisture migration, and soil suction measurement using polymer optical fiber (POF) sensors ๐ŸŒฑ. His studies on soft soil composite foundations and geotechnical stability contribute to sustainable infrastructure and environmental protection ๐Ÿญ. Through advanced experimental techniques and numerical simulations, his research enhances carbon capture, soil mechanics, and ground engineering strategies ๐Ÿ†โœจ.

Publications๐Ÿ“š

1๏ธโƒฃ Real-time determination of soil suction in unsaturated clay based on POF sensor
๐Ÿ–Š๏ธ Authors: Tang, G., Ma, X., Zhang, H., Liu, Z., He, Y.
๐Ÿ“– Journal: Measurement: Journal of the International Measurement Confederation (2025)

2๏ธโƒฃ Visualization of soil freezing phase transition and moisture migration using polymer optical fibers
๐Ÿ–Š๏ธ Authors: Zhang, H., Zhang, H., Liu, Z., Tang, G., Ma, X.
๐Ÿ“– Journal: Measurement: Journal of the International Measurement Confederation (2024)

3๏ธโƒฃ Load-bearing response of deep content mixing soft soil composite foundation based on the geotechnical centrifugal model test
๐Ÿ–Š๏ธ Authors: Lin, Y., Tang, G., Ma, X., Ma, C.Y., Wang, Z.
๐Ÿ“– Journal: IOP Conference Series: Earth and Environmental Science (2024)

4๏ธโƒฃ Numerical analysis of failure mechanism and stability of reinforced embankment with DCM soft soil composite foundation
๐Ÿ–Š๏ธ Authors: Ma, X.F., Ma, C.Y., Lin, Y.G., Tang, G.H., Wang, Z.H.
๐Ÿ“– Journal: IOP Conference Series: Earth and Environmental Science (2024)

5๏ธโƒฃ Experimental study on influence of filter mesh size on radial permeability of sand
๐Ÿ–Š๏ธ Authors: Tang, G., Wang, N., Liu, S., Jie, Y.
๐Ÿ“– Journal: Journal of Beijing University of Aeronautics and Astronautics (2023)

6๏ธโƒฃ One-dimensional pot cover effect for migration of gaseous water based on PDV model
๐Ÿ–Š๏ธ Authors: Tang, G.-H., Wang, N.-D., Yao, Y.-P.
๐Ÿ“– Journal: Chinese Journal of Geotechnical Engineering (2022)

These publications reflect Dr. Tangโ€™s expertise in soil mechanics, COโ‚‚ sequestration, and geotechnical engineering ๐ŸŒ๐Ÿ—๏ธโœจ.

Kata Sreelakshmi | Nanomaterials | Best Researcher Award

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Kata Sreelakshmi | Nanomaterials | Best Researcher Award

Assist. Prof. Dr Kata Sreelakshmi, Madanapalle Institute of Technology & Science, India

Dr. Kata Sreelakshmi is an accomplished researcher in applied mathematics and fluid mechanics, specializing in non-Newtonian fluids, heat transfer, and MHD flows. She holds a Ph.D. in Applied Mathematics from Sri Padmavathi Mahila Visvavidyalayam (2018) and has an extensive publication record in high-impact journals, including work on nanofluids and dual stratification effects. She has presented her research at international conferences and has taught and mentored students in mathematics. Her work is significant in engineering, materials science, and environmental sustainability. Dr. Sreelakshmiโ€™s expertise makes her a strong candidate for the Best Researcher Award. ๐Ÿง‘โ€๐Ÿซ๐Ÿ”ฌ๐Ÿ“š

Publication Profile

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Scopus

Educational Background ๐ŸŽ“

Dr. Kata Sreelakshmi completed her Ph.D. in Applied Mathematics from Sri Padmavathi Mahila Visvavidyalayam in 2018. She also earned an M.Phil. with distinction (78%) in Applied Mathematics in 2015 and an M.Sc. in the same field with distinction (86%) in 2011. Her B.Sc. (M.P.C) from Sri Venkateswara University, Tirupati, was awarded first class (70%). Dr. Sreelakshmi excelled academically, securing distinction in both her Intermediate (87%) and S.S.C (83%) exams, showcasing her consistent academic performance across all levels. ๐Ÿ“š๐ŸŽ“๐Ÿ”ข

Current Role and Focus ๐Ÿ’ผ

Dr. Kata Sreelakshmi is currently serving as an Assistant Professor at Madanapalle Institute of Technology & Science since September 13, 2023. Previously, she held positions as Assistant Professor at Siddartha Institute of Science and Technology (Sep 2022 – Aug 2023), Sri Venkateswara Vedic University, Tirupati (2019-2022), Yogananda Institute of Technology and Science, Tirupati (Jul 2018 – Jun 2019), and Emeralsโ€™s Degree College, Tirupati (2011-2014). She has taught M.Sc. students in subjects like Ordinary and Partial Differential Equations, Numerical Methods, and Laplace Transforms, showcasing her expertise in advanced mathematical topics. ๐Ÿ“š๐ŸŽ“

Seminars/Conferences Attended

Dr. Kata Sreelakshmi has presented her research at several prestigious national and international conferences, showcasing her expertise in fluid dynamics, heat transfer, and nanofluid flow. Notable presentations include the effect of Arrhenius activation energy and dual stratifications on Maxwell nanofluid flow at NIT Warangal (2020), and the study of melting heat transfer in the stagnation point flow of a Jeffrey-nano fluid at SPMVV, Tirupati (2016). She also presented on the impact of Hall current in flow induced by a stretching surface at S.V. Tirupati (2015). Her work addresses advanced topics in MHD flows, nanofluids, and thermal radiation. ๐Ÿ”ฅ๐Ÿ”ฌ๐Ÿ“Š

Research Focus Area ๐ŸŒฑ๐Ÿงฌ

Dr. Kata Sreelakshmi’s research primarily focuses on advanced heat transfer and fluid dynamics, particularly in non-Newtonian fluid flows and nanofluids. Her work explores heat transfer analysis in non-Newtonian flows with the dispersion of nanoparticles, the effects of thermal radiation, and the role of stretching surfaces. She investigates complex fluid dynamics in various systems, including magnetohydrodynamic (MHD) and hybrid nanofluid flows, entropy generation, and boundary layer phenomena. Her research includes studies on energy transport, thermophoretic effects, and the impact of various nanoparticle shapes on heat transfer performance. This area is crucial for engineering applications like cooling systems, energy efficiency, and advanced manufacturing. ๐ŸŒก๏ธ๐Ÿ”ฌ

Publications Top Notesย ๐Ÿ“š๐ŸŒ

Effect of magnetic field on the flow and heat transfer in a Casson thin film on an unsteady stretching surface in the presence of viscous and internal heating

A study on entropy generation on thin film flow over an unsteady stretching sheet under the influence of magnetic field, thermocapillarity, thermal radiation and internal heatย โ€ฆ

Heat transfer analysis in the non-orthogonal flow of a non-Newtonian nanofluid with non-linear thermal radiation

Dual Stratification Effects on Double-Diffusive Convective Heat and Mass Transfer of a Sheet-Driven Micropolar Fluid Flow

Dual solutions of an unsteady flow, heat and mass transfer of an electrically conducting fluid over a shrinking sheet in the presence of radiation and viscous dissipation

Homotopy analysis of an unsteady flow heat transfer of a Jeffrey nanofluid over a radially stretching convective surface

Heat transfer analysis in a micropolar fluid with non-linear thermal radiation and second-order velocity slip

Effects of dual stratification on non-orthogonal non-Newtonian fluid flow and heat transfer

Conclusion ๐Ÿ”

Dr. Kata Sreelakshmiโ€™s academic qualifications, research publications, conference presentations, and teaching experience make her an exemplary candidate for the Best Researcher Award. Her work in applied mathematics, fluid mechanics, and heat transfer is highly relevant to contemporary issues in engineering, energy, and environmental science. She has demonstrated a consistent commitment to advancing knowledge in her field and has made significant contributions to the understanding of complex fluid behavior. Additionally, her role as a mentor and educator further adds to her qualifications as a top-tier researcher. Therefore, she is certainly deserving of the Best Researcher Award.