Farhad Zare | Computational Fluid Dynamics | Editorial Board Member

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Dr. Farhad Zare | Computational Fluid Dynamics | Editorial Board Member

Independent researcher | Shiraz University | Iran

Dr. Farhad Zare is a researcher affiliated with Shiraz University, Iran, whose scholarly contributions reflect focused expertise, selective publication, and growing international visibility within his field. With 4 peer-reviewed publications indexed in Scopus and a total of 24 citations distributed across 22 citing documents, he has established a developing research footprint supported by a Scopus h-index of 3. His work, though concentrated in volume, demonstrates academic rigor and contributes to specialized scientific domains, underscoring his role in advancing targeted areas of inquiry. Dr. Zare collaborates actively, with at least eight co-authors identified in the Scopus preview, highlighting his commitment to interdisciplinary engagement and collective scientific advancement. Through these collaborations, he participates in generating knowledge that supports technological progress, academic discourse, and potential societal applications. His research identity is further strengthened by his maintained ORCID profile and integration within global bibliometric systems, ensuring transparency, discoverability, and professional continuity. Although the preview provides limited access to details of his individual publications, the available indicators point to a developing research career marked by methodological clarity, peer-recognized contributions, and an ongoing commitment to enriching the broader scientific community.

Profiles: Scopus | ORCID

Featured Publications

1. Seifelnasr, A., Zare, F., Si, X., & Xi, J. (2025). Enhancing physiological realism in nasal spray deposition studies: Synthetic mucus properties and interactions with saline solutions and stereolithography resin. Liquids, 5(2), 11. Cited by 3

Dr. Farhad Zare advances high-impact research in fluid dynamics, material behavior, and applied engineering, developing models and experimental methods that improve the precision and reliability of modern technologies. His work bridges fundamental science with real-world implementation, driving innovation across multiple engineering domains.

Juan Zhang | Dynamic Analysis | Best Researcher Award

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Dr. Juan Zhang | Dynamic Analysis | Best Researcher Award 

University Teacher | Lanzhou Institute of Technology | China

Dr. Juan Zhang is a researcher at the Lanzhou Institute of Technology, China, specializing in materials science, environmental engineering, and applied chemistry. With 22 scientific publications, 129 citations, and an h-index of 6, Dr. Zhang has demonstrated consistent scholarly productivity and growing academic influence. Her research primarily focuses on the synthesis, modification, and application of advanced functional materials for environmental protection, sustainable energy systems, and industrial innovation. Through her interdisciplinary approach, she has contributed to improving the performance, efficiency, and environmental compatibility of engineering materials and processes. Dr. Zhang has collaborated with over 20 co-authors from various national and international institutions, reflecting her active engagement in cross-disciplinary and cross-border research networks. Her publications in peer-reviewed journals address both theoretical advancements and practical applications, bridging fundamental science with real-world technological challenges. Beyond her academic achievements, Dr. Zhang’s work supports global sustainability objectives by promoting cleaner production, resource efficiency, and ecological protection. She is committed to advancing applied research that not only enhances scientific understanding but also provides practical solutions to pressing environmental and industrial issues, thereby contributing meaningfully to sustainable development and technological progress on a global scale. (~290 words)

Profile: Scopus

Featured Publications

1. Zhang, J., Tu, K.-h., Xi, P., Zhao, B.-l., Shi, Y.-r., … (2025). Transverse instability of dust acoustic solitary waves for the coupled Zakharov–Kuznetsov equation in magnetized two-ion-temperature dusty plasma. Chaos, Solitons & Fractals, 201, 117403.

2. Ren, X. P., Li, X., Zhou, Z., Wan, X., Meng, H., Zhou, Y., Zhang, J., Fan, X., Wang, J., & Shi, Y.-R. (2025). Effect of Zeeman field on Kármán vortex street in spin-1 Bose–Einstein condensates. Chaos, Solitons & Fractals. (Advance online publication)

Dr. Juan Zhang’s research advances the understanding of nonlinear wave dynamics and quantum fluid behavior in complex plasma and Bose–Einstein condensate systems. Her work contributes to theoretical physics by revealing mechanisms behind wave instability and vortex formation, offering insights with potential applications in plasma control, quantum computing, and advanced materials science.