Assoc. Prof. Dr Elnaz Khodapanah | Engineering | Editorial Board Member

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Assoc. Prof. Dr Elnaz Khodapanah | Engineering | Editorial Board Member

Associate Professor | Sahand University of Technology | Iran

Assoc. Prof. Dr Elnaz Khodapanah reflects a distinguished record of contributions shaped by sustained commitment to Engineering research, Engineering innovation, and Engineering-driven societal advancement. As an active scholar in the global Engineering community, Assoc. Prof. Dr Elnaz Khodapanah has established a strong research footprint through impactful studies that integrate Engineering principles with applied scientific inquiry, resulting in high-quality outputs recognized across international platforms. Her body of work demonstrates consistent engagement with multidisciplinary Engineering collaborations, leading to publications that advance methodological rigor and strengthen the broader relevance of Engineering solutions for contemporary challenges. Through productive partnerships with research teams and institutional networks, she has expanded the scope and visibility of Engineering knowledge, with her publications receiving meaningful scholarly attention aligned with the evolving frontiers of Engineering practice. Her research contributions reflect a commitment to bridging theoretical Engineering foundations with practical outcomes that yield long-term societal value. The scholarly influence of Assoc. Prof. Dr Elnaz Khodapanah continues to grow through active participation in Engineering communities, strategic involvement in collaborative Engineering projects, and sustained dissemination of high-impact findings that reinforce the essential role of Engineering in global scientific progress. Her contributions exemplify the intellectual depth, professional integrity, and forward-looking perspective expected within the international Engineering landscape, ensuring continued impact across multiple domains enriched by Engineering excellence. Presented in alignment with recognized academic standards, her professional influence is further reflected through the Scopus profile of 570 Citations, 43 Documents, 13 h-index.

Profile: Scopus

Featured Publications

1. Experimental investigation of silica nanoparticle morphology on interfacial properties, diffusion behavior, and oil recovery in carbonate reservoirs: Insights into spherical and rod-shaped particles. Journal of Molecular Liquids. (2025).

2. An evaluation of the viscoelastic properties of nanosized preformed particle gels. ACS Omega. (2025)

3. Comprehensive review of hybrid chemical enhanced oil recovery methods: synergistic mechanisms, applications, and insights into chemical-based water alternating gas techniques. (2025).

4. Evaluation of nanosilica morphology: Effects on nanofluid stability and interaction with carbonate rock surfaces. Journal of Cluster Science. (2024).

Passar Bamerni | Engineering | Excellence in Research

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Mr. Passar Bamerni | Engineering | Excellence in Research

Researcher | Albert-Ludwigs-Universität Freiburg | Germany

Mr. Passar Bamerni is a distinguished professional in Microsystems Engineering, recognized for his advanced contributions to sensor technology, interdisciplinary innovation, and applied research within the broader Engineering domain. His work reflects a strong command of Engineering principles, integrating theoretical foundations with practical experimentation to advance miniaturized diagnostic systems, particularly in the area of compact PCR technologies. Through his extensive involvement in Engineering research, he has contributed to the development of novel measurement platforms, simulation-driven optimization, and prototype realization, demonstrating an Engineering mindset oriented toward precision, reliability, and societal benefit. Mr. Bamerni has collaborated with leading institutions and industrial partners on projects spanning sensor Engineering, photoacoustic detection methods, flow-sensor development, and laser-based analytical systems. His research activity exemplifies Engineering excellence through the integration of material characterization, system design, and computational modeling. He has contributed to multiple Engineering-driven initiatives requiring cross-disciplinary teamwork, scientific rigor, and the capacity to translate Engineering concepts into functional devices that strengthen the interface between technology and community needs. Beyond his scientific work, he has demonstrated a meaningful societal impact through civic engagement and leadership roles within community organizations and municipal committees. His responsibilities have involved addressing digitalization, youth development, mobility, education, and other areas where Engineering-informed decision-making supports sustainable public service. This combination of Engineering expertise and public involvement positions Mr. Bamerni as a professional whose influence extends beyond laboratory achievements into broader societal advancement. With strong competencies in Engineering software environments, sensor characterization, simulation tools, and system integration, Mr. Bamerni continues to contribute to the global Engineering landscape through research, innovation, and collaborative development. His profile reflects a commitment to Engineering advancement that is both scientifically significant and socially responsive, reinforcing his standing as a noteworthy figure in contemporary Engineering research and community-oriented technological progress.

Profile: ORCID

Featured Publication

1. Bamerni, P., Mistry, L., Schmitt, K., & Wöllenstein, J. (2023). Evaluation of microheaters for stationary miniaturized PCR thermocyclers (P26). Conference paper.

Prof. Maria Harja | Engineering | Best Researcher Award

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Prof. Maria Harja | Engineering | Best Researcher Award

Professor | Technical University Gheorghe Asachi Iasi | Romania

Prof. Maria Harja is a distinguished figure in Engineering, internationally recognized for her sustained contributions to chemical Engineering, environmental Engineering, materials Engineering, and process Engineering. With a prolific scholarly record encompassing more than two hundred Engineering articles, numerous Engineering books, and extensive collaborative research in advanced Environmental and Chemical Engineering, Prof. Harja has established a global reputation for academic excellence and Engineering innovation. Her work spans applied Engineering domains such as inorganic products, inorganic composite materials, chemical reactor design, non-catalytic Engineering processes, integrated pollution control, and sustainable materials derived from industrial residues, particularly fly ash. Through her leadership in Engineering research projects and her role as director in multiple national and international Engineering grants, she has significantly advanced the development of eco-friendly materials, adsorption technologies, photocatalytic systems, and novel Engineering solutions for water treatment, soil improvement, and environmental protection. Prof. Harja’s research portfolio demonstrates a deep commitment to Engineering-driven societal progress, reflected in her impactful collaborations with global partners and multidisciplinary Engineering teams. Her extensive contributions to journals, editorial boards, and international scientific committees further highlight her influence in shaping Engineering research directions. She has authored over two dozen Engineering-focused books and contributed to major Engineering handbooks and scientific volumes addressing nanomaterials, environmental remediation, and sustainable construction technologies. Her participation in professional Engineering societies and her active involvement in scientific evaluation, mentoring, and knowledge dissemination underscore her dedication to advancing Engineering education and research worldwide. The societal impact of Prof. Harja’s Engineering work is evident in the development of environmentally responsible technologies, the valorization of industrial waste through Engineering innovation, and the creation of materials that support sustainable development. Her accomplishments align strongly with global priorities in environmental Engineering, chemical Engineering, and materials Engineering, reaffirming her as a leading authority in these interconnected Engineering fields. Google Scholar profile of 3569 Citations, 31 h-index, 87 i10-index.

Profile: Google Scholar

Featured Publications

1. Harja, M., Buema, G., & Bucur, D. (2022). Recent advances in removal of Congo Red dye by adsorption using an industrial waste. Scientific Reports, 12(1), 6087.

2. Harja, M., & Ciobanu, G. (2018). Studies on adsorption of oxytetracycline from aqueous solutions onto hydroxyapatite. Science of the Total Environment, 628(1), 36–43.

3. Bárbuţă, M., Harja, M., & Baran, I. (2010). Comparison of mechanical properties for polymer concrete with different types of filler. Journal of Materials in Civil Engineering, 22(7), 696–701.

4. Ciobanu, G., & Harja, M. (2019). Cerium-doped hydroxyapatite/collagen coatings on titanium for bone implants. Ceramics International, 45(2), 2852–2857.

5. Sescu, A. M., Favier, L., Lutic, D., Soto-Donoso, N., Ciobanu, G., & Harja, M. (2021). TiO₂ doped with noble metals as an efficient solution for the photodegradation of hazardous organic water pollutants at ambient conditions. Water, 13(1), 19.

Dr. Atal Bihari Harichandan | Engineering | Editorial Board Member 

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Dr. Atal Bihari Harichandan | Engineering | Editorial Board Member 

Associate Professor | Centre for UG and PG Studies, BPUT Rourkela | India

Dr. Atal Bihari Harichandan is a distinguished professional in the field of Engineering, widely recognized for his impactful contributions across multiple Engineering disciplines. With extensive experience and a commitment to advancing modern Engineering innovation, he has established himself as a leading figure in both academic and applied Engineering research. His scholarly pursuits reflect a consistent dedication to the development of advanced Engineering technologies, methodologies, and sustainable solutions that address real-world challenges. Throughout his Engineering career, Dr. Harichandan has actively engaged in interdisciplinary collaborations, bridging the gap between theoretical Engineering principles and industrial applications. His Engineering research has been instrumental in fostering innovation and improving Engineering processes that contribute to technological progress and societal advancement. He has authored numerous Engineering publications that have received significant academic attention and have become valuable references for emerging Engineering scholars and professionals globally. Dr. Harichandan’s Engineering excellence is reflected not only in his scholarly productivity but also in his leadership within collaborative Engineering projects and initiatives aimed at promoting sustainable growth and industrial development. His Engineering insights have contributed to enhanced designs, improved systems, and innovative Engineering frameworks that continue to inspire future research directions. With a strong global presence in the Engineering research community, Dr. Harichandan’s work exemplifies a dedication to knowledge dissemination, innovation, and continuous improvement within the Engineering domain. His commitment to mentoring young Engineering researchers further strengthens the foundation of global Engineering education and research culture. Scopus profile of 386 Citations, 39 Documents, 8 h-index.

Profiles: Scopus | ORCID

Featured Publications

1. Numerical Simulation of Harmonic Gust Induced 2D Low-Re Incompressible Flow Over Tandem Circular Cylinders using ECFRUNS. (2025). Journal of Research and Applications in Mechanical Engineering.

2. Square Cylinder Aerodynamics: Insights from Aeroacoustic Analysis. (2025). Journal of Aeronautics Astronautics and Aviation.

3. Effect of various reactor temperatures for mixed metallic oxides in chemical looping combustion system for carbon capture. (2025). Journal of Thermal Engineering.

Dr. Saranya Indhumathi G | Engineering | Editorial Board Member

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Dr. Saranya Indhumathi G | Engineering | Editorial Board Member

Assistant Professor | Rajalakshmi Engineering College | India

Dr. Saranya G is a distinguished researcher whose scholarly contributions in the field of Engineering reflect excellence, innovation, and academic depth. With extensive experience in Engineering research and development, Dr. Saranya has made substantial progress in advancing applied and theoretical aspects of modern Engineering systems. Her work demonstrates a profound understanding of Engineering methodologies, design, and implementation, consistently aligning with global research standards. Through dedication to quality research, Dr. Saranya has contributed to several impactful studies in Engineering, which have inspired both academic and industrial applications. Her research output is marked by a strong focus on interdisciplinary collaboration, bridging various domains of Engineering to achieve innovative and sustainable solutions. Dr. Saranya’s publications in reputed journals highlight her commitment to the continuous evolution of Engineering practices and her passion for advancing knowledge in the global Engineering community. Her professional excellence has strengthened the integration of computational techniques, material innovations, and system optimization within Engineering research frameworks. Dr. Saranya’s collaborations with leading scholars and institutions have further enhanced the visibility and applicability of her Engineering research. She remains actively engaged in advancing experimental and analytical techniques that contribute to the future of Engineering innovation. Her body of work stands as a testament to the transformative potential of research-driven Engineering advancements and their impact on societal progress and technological development. Her scholarly excellence continues to enrich the domain of Engineering, promoting a culture of intellectual rigor and innovation. Google Scholar profile of 167 Citations, 8 h-index, and 7 i10-index.

Profile: Google Scholar

Featured Publications

1. Benazer, S. S., Dawood, M. S., Ramanathan, S. K., & Saranya, G. (2021). Efficient model for IoT based railway crack detection system. Materials Today: Proceedings, 45, 2789–2792.

2. Ambeth Kumar, V. D., Saranya, G., Elangovan, D., & Chiranjeevi, V. R. (2018). IOT-based smart museum using wearable device. International Conference on Innovative Computing and Communications, 27.

3. Saranya, G., Sivamangai, N. M., Ajayan, J., Sreejith, S., & Nithya, S. (2024). Semi-classical physics based model in AlGaN/BGaN based ultraviolet LED with p-AlGaN layer sandwiched around electron-blocking layer for droop-free efficiency. Micro and Nanostructures, 188, 207772.

4. Naveenkumar, R., Sivamangai, N. M., Napolean, A., Puviarasu, A., & Saranya, G. (2022). Preventive measure of SAT attack by integrating anti-SAT on locked circuit for improving hardware security. 2022 7th International Conference on Communication and Electronics Systems (ICCES), 14.

5. Jayanthi, P., Saranya, G., Duraimurugan, J., Sengodan, P., & Ravichandran, S. (2023). Construction of SnO₂/MWCNT nanocomposites as electrode materials for supercapacitor applications. Journal of Sol-Gel Science and Technology, 108(1), 112–119.

Dr. Deepakkumar R | Engineering | Best Researcher Award

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Dr. Deepakkumar R | Engineering | Best Researcher Award

Assistant Professor | Vellore Institute of Technology | India

Dr. Deepakkumar R is a distinguished Engineering academician and researcher with expertise in Computational Fluid Dynamics, Mechanical Engineering, and Thermal Engineering. His Engineering career reflects deep engagement with teaching, research, and innovation in advanced Engineering systems such as heat exchangers, solar air heaters, hydrogen storage, and fuel cells. He has contributed significantly to Engineering research through his studies on vortex shedding, phase change materials, and multiphase flow analysis. His professional experience includes serving at leading Engineering institutions such as VIT Vellore, SRM Institute of Science and Technology, NIT Andhra Pradesh, and IIITDM Kancheepuram, where he guided numerous Engineering projects and doctoral candidates. His Engineering education spans from a Bachelor’s in Mechanical Engineering to a Ph.D. in Mechanical Engineering from IIITDM Kancheepuram, emphasizing Computational Engineering and simulation of fluid flows. Dr. Deepakkumar’s research skills include expertise in CFD tools like ANSYS Fluent, CATIA, Tecplot, and MATLAB, combined with experimental proficiency in wind and water tunnel analysis. His contributions to Engineering education and innovation have been recognized through multiple awards, including the “Outstanding Research Award” and “Best Research Paper Award,” underlining his excellence in Engineering research and pedagogy. His innovative work also extends to design registration in heat exchanger technology, showcasing his Engineering creativity and applied problem-solving capability. Overall, Dr. Deepakkumar R exemplifies the integration of Engineering research, teaching, and technology-driven innovation, continuously contributing to sustainable and renewable energy systems within the broader Engineering community. His Scopus profile of 184 Citations, 22 Documents, 7 h-index.

Profiles: Scopus | Google Scholar | ORCID

Featured Publications

1. Deepakkumar, R., & Jayavel, S. (2017). Air side performance of finned-tube heat exchanger with combination of circular and elliptical tubes. Applied Thermal Engineering, 119, 360–372.

2. Deepakkumar, R., Jayavel, S., & Tiwari, S. (2017). Cross flow past circular cylinder with waviness in confining walls near the cylinder. Journal of Applied Fluid Mechanics, 10(1), 183–197.

3. Ramalingam, S., Babu, D., Deepakkumar, R., & Malinee, S. (2022). Effect of Moringa oleifera biodiesel–diesel–carbon black water emulsion blends in diesel engine characteristics. Energy Reports, 8, 9598–9609.

4. Deepakkumar, R., & Jayavel, S. (2018). Effect of local waviness in confining walls and its amplitude on vortex shedding control of the flow past a circular cylinder. Ocean Engineering, 156, 208–216.

5. Ramalingam, S., Babu, D., Santhoshkumar, A., Deepakkumar, R., & Ravikanth, D. (2022). Impact of exhaust gas recirculation and split injection strategy combustion behavior on premixed charge compression ignition engine fuelled with moringa oleifera methyl ester. Fuel, 319, 123702.

Wang Yuqi | Engineering | Best Researcher Award

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Mr. Wang Yuqi | Engineering | Best Researcher Award

postgraduate | Harbin Engineering University | China

Mr. Wang Yuqi is an accomplished researcher from Harbin Engineering University with a strong foundation in Mechanical and Electronic Engineering and Marine Robot systems, excelling in the field of engineering through his work on advanced robotics and intelligent control systems. His academic journey includes a master’s focus on marine robotics and an undergraduate specialization in mechanical and electronic engineering, supported by numerous honors and scholarships that highlight his academic excellence. His professional experience spans leading roles in engineering projects, including the design and optimization of deep-sea exploration ROV control systems, intelligent unmanned hovercraft, and sea cucumber robot technologies, where he applied cutting-edge engineering methodologies such as FreeRTOS-based scheduling, STM32 circuit design, FPGA communication protocols, and ROS data processing. He has further contributed as an intern at the National Deep Sea Base Management Center and Midea Group, where he advanced engineering solutions for marine exploration and motor control systems. His research interests lie in engineering design for underwater robotics, intelligent control, sensor integration, and embedded systems, which have led to recognition in national and international competitions. Mr. Wang Yuqi’s engineering expertise is complemented by strong skills in programming (C/C++, MATLAB), simulation and design tools, communication protocols, and hardware debugging, making him a versatile and innovative researcher. His achievements in engineering, both academically and professionally, have earned him awards, leadership roles, and recognition for his contributions to innovation in robotics and intelligent systems, reflecting a promising career in engineering research and application. 13 Citations, 6 Documents, 3 h-index

Profiles: Scopus | ORCID

Featured Publications

1. Zhang, H., Sun, Y., Zhao, Y., Xie, Y., Li, X., Wang, Y., & Zhao, C. (2024). Corrosion and carburization of Ni<sub>3</sub>Al-based superalloys in high-temperature carbon dioxide. Materials and Corrosion.

2. Huang, Y., Wang, Y., Yu, S., Zhang, H., & Zhao, C. (2024). Hot deformation behavior and dynamic recrystallization mechanisms of a Mn-Cu damping alloy. Materials Today Communications.

3. Huang, Y., Wang, Y., Yu, S., Zhang, H., & Zhao, C. (2024). Hot deformation behavior and dynamic recrystallization mechanisms of a Mn-Cu damping alloy. SSRN.

4. Li, X., Yu, S., Huang, Y., Wang, Y., Zhang, H., & Zhao, C. (2024). Impact of secondary γ’ precipitate on the high-temperature creep properties of DD6 alloy. Metals and Materials International.

5. Huang, Y., Wang, Y., Yu, S., Zhao, C., Zhao, Y., & Zhang, H. (2024). Influence of aging heat treatment on microstructure and mechanical properties of a novel polycrystalline Ni3Al-based intermetallic alloy. SSRN.

Takwa Hamdi | Engineering | Women Researcher Award

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Ms. Takwa Hamdi | Engineering | Women Researcher Award

PhD Candidate | National Engineering School of Gabes | Tunisia

Ms. Takwa Hamdi is a dedicated PhD student in Mechanical Engineering with a strong foundation in Engineering education, holding a bachelor’s, master’s, and doctoral-level specialization in Mechanical and Energy Engineering, with her research focusing on advanced combustion modeling, dual-fuel internal combustion engines, and sustainable alternative fuels. Her professional Engineering experience includes serving as an adjunct lecturer, where she taught courses on dismountable assembly processes, welding, CAD design, and supervised Engineering design projects, equipping students with practical and theoretical knowledge of Engineering principles. Her research interest lies in energy efficiency, low-emission combustion technologies, and the application of Engineering simulation tools such as Ansys Forte, SolidWorks, Matlab, Autocad, Mastercam, Abaqus, and Gnuplot, where she applies computational fluid dynamics and numerical methods to optimize Engineering performance. She has also contributed to scientific publications in the domain of dual-fuel compression ignition engines, showcasing her commitment to advancing Engineering sustainability. Ms. Hamdi has been recognized academically as a class valedictorian, which highlights her excellence and honor in the field of Engineering. Her Engineering research skills encompass analytical thinking, problem solving, and innovation, reinforced by her active engagement in teaching and scientific collaboration. In conclusion, Ms. Takwa Hamdi demonstrates a remarkable blend of Engineering knowledge, professional experience, and research capability, making her a promising researcher whose Engineering contributions are expected to have a significant impact on energy and sustainability fields.

Profile: Scopus

Featured Publications

1. Effects of H2 substitution on combustion and emissions in ammonia/diesel compression ignition engine. (2025). Energy Conversion and Management.

Dr. Minati Kumari Sahu | Engineering | Best Researcher Award

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Dr. Minati Kumari Sahu | Engineering | Best Researcher Award

Researcher | CSIR NML | India

Dr. Minati Kumari Sahu has established herself as a dedicated professional in Engineering, with strong expertise in materials science, non-destructive testing, and quality management systems, demonstrating excellence in Engineering through her academic achievements including B.Sc., M.Sc., M.Tech., and Ph.D. in areas closely aligned with Engineering applications. Her professional experience spans advanced Engineering roles in CSIR-NML, NIT Jamshedpur, and Tata Steel, where she applied Engineering-driven approaches for material characterization, creep damage evaluation, weld defect assessment, and optimization of electromagnetic stirring parameters. With significant research contributions in Engineering-focused domains such as nonlinear ultrasonic testing, acoustic wave simulation, and signal processing, she has authored numerous SCI journal papers, patents, and software copyrights, proving her Engineering research skills. Her research interests remain centered on Engineering-based microstructural analysis, advanced NDE techniques, and computational modeling. Recognized with the prestigious Dr. M. Pancholy Memorial Award for best oral presentation, she has shown distinction in advancing Engineering knowledge. Her technical skills extend to Engineering software tools like COMSOL, MATLAB, and LabVIEW, enhancing her research capabilities in Engineering simulations and testing. Throughout her journey, she has contributed to Engineering by integrating academic insights with industrial applications, thereby bridging theoretical concepts with practical problem-solving. With a strong foundation in Engineering, coupled with honors and impactful publications, Dr. Minati Kumari Sahu stands as a role model in Engineering research and innovation. In conclusion, her career reflects a consistent pursuit of excellence in Engineering, combining knowledge, skills, and dedication to drive forward advancements in the field of Engineering. Her Google Scholar citations 46, h-index 5, i10-index 1, showcasing measurable research impact.

Profiles: ORCID | Google Scholar

Featured Publications

1. Ghosh, A., Sahu, M., Singh, P. K., Kumar, S., Ghosh, M., & Sagar, S. P. (2019). Assessment of mechanical properties for dissimilar metal welds: A nondestructive approach. Journal of Materials Engineering and Performance, 28(2), 900–907.

2. Sahu, M. K., Swaminathan, J., Bandhoypadhyay, N. R., & Sagar, S. P. (2018). Creep damage evaluation in P92 steel using second harmonic of high power ultrasonic signal. Materials Today: Proceedings, 5(2), 4467–4474.

3. Sahu, M., Ghosh, A., Dutta, C., Kumar, J., & Sagar, S. P. (2025). Creep strain prediction in power plant material via ANN modelling of nonlinear ultrasonic test results. Nondestructive Testing and Evaluation, 40(3), 932–953.

4. Sahu, M. K., & Sagar, S. P. (2021). Nonlinearity in the propagation of acoustic waves: Simulation and experimental validation in a creep damaged material. Materials Today: Proceedings, 44, 2251–2256.

5. Balamurugan, S., Mathan, G., Dey, A., Mukherjee, G., Sahu, M., & Pandey, J. C. (2012). Cracking of tungsten carbide rolls during hot rolling of branded rebars in a bar mill. Engineering Failure Analysis, 26, 182–191.

Dr. Nitesh Mondal | Engineering | Best Researcher Award

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Dr. Nitesh Mondal | Engineering | Best Researcher Award

Assistant Professor at Ghani Khan Choudhury Institute of Engineering and Technology | India

Dr. Nitesh Mondal has built a distinguished profile in engineering through extensive research, teaching, and academic contributions. His work focuses on mechanical engineering with specialization in fluid mechanics, electrohydraulic systems, and pump design. Through engineering research, he integrates theoretical modeling, simulation, and real-time experiments to solve complex engineering challenges. He has contributed widely to engineering through teaching roles at several prestigious institutes and has authored impactful publications. His engineering expertise combines academic depth with practical problem-solving. His engineering background, coupled with active participation in international collaborations and conferences, has strengthened both his technical skills and his ability to guide innovative projects in engineering for future technological advancements.

Professional Profiles

Google Scholar Profile | ORCID Profile

Education 

Dr. Nitesh Mondal pursued advanced education in engineering, developing strong technical foundations in mechanical engineering and fluid mechanics. His academic training enabled him to excel in engineering research, focusing on mathematical modeling, dynamic systems, and experimental validation within complex engineering setups. With a Doctor of Philosophy in mechanical engineering, he established his ability to lead engineering projects, develop innovative designs, and optimize systems. His engineering education encompassed deep exploration of pump mechanisms, servo systems, and dynamic control processes, shaping his approach to high-level engineering challenges. This engineering-focused learning path provided him with the critical skills necessary for advancing scientific solutions and contributing significantly to academia, industry, and future engineering development.

Experience 

Dr. Nitesh Mondal has gained substantial professional experience across multiple engineering institutions. His career spans assistant professorships, research fellowships, and technical team memberships, all centered on mechanical engineering and related technologies. His work included teaching core engineering subjects, supervising projects, and conducting specialized research in pump design, fluid mechanics, and servo systems. He engaged in government-funded engineering projects, contributing design audits, simulations, and experimental studies. These experiences enabled him to bridge academic theory with practical engineering applications. Through engineering leadership in academic and industrial collaborations, he cultivated a comprehensive skill set valuable for solving modern engineering challenges while nurturing future engineers through innovative, research-oriented educational practices.

Research Interest 

Dr. Nitesh Mondal’s research interests encompass fluid mechanics, electrohydraulic systems, pump design, multiscale computational analysis, and materials behavior under dynamic conditions — all deeply rooted in engineering principles. His engineering projects have explored axial piston pump optimization, servo valve control, scaffold architecture, and mechanical responses of biomedical structures under fluid perfusion. By combining engineering simulations with experimental validation, he addresses challenges in both industrial and biomedical applications. His engineering research integrates computational fluid dynamics, material science, and system design, aiming to improve efficiency, stability, and performance. Through engineering-focused interdisciplinary collaboration, his interests continue to expand the boundaries of applied mechanical engineering, contributing to innovation in emerging technologies worldwide.

Award and Honor

Dr. Nitesh Mondal has received recognition in engineering through various awards, professional appointments, and academic memberships. His engineering contributions include invited research presentations, conference leadership, and participation in international symposiums. He has been entrusted with curriculum development, serving as a technical expert on engineering syllabus committees and advisory boards. His engineering achievements are acknowledged through editorial roles in reputed journals and professional memberships in prestigious engineering societies. His honors underline the value of his engineering research, which combines theoretical insight with practical innovation. These recognitions serve as a testament to his impactful contributions in the engineering field, advancing knowledge, practice, and education while inspiring emerging engineers and researchers.

Research Skill

Dr. Nitesh Mondal possesses a robust set of research skills, deeply aligned with engineering innovation. His expertise includes computational modeling, system dynamics, mechanical design, materials testing, and multi-domain simulations — all crucial to modern engineering challenges. Skilled in MATLAB, ANSYS, LabVIEW, and advanced CAD tools, he effectively translates engineering concepts into validated prototypes. He demonstrates strength in experimental setup design, data analysis, and optimization of engineering systems for improved performance. His engineering research approach integrates theory, simulation, and experimentation, producing results relevant to academia and industry alike. These engineering skills allow him to develop high-impact solutions that address complex technical problems and contribute to sustainable engineering advancements globally.

Publication Top Notes 

Title: A novel method to design pressure compensator for variable displacement axial piston pump
Journal: Proceedings of the Institution of Mechanical Engineers, Part E: Journal of …
Authors: N Mondal, R Saha, S Mookherjee, D Sanyal
Citation: 21

Title: A study on electro hydraulic servovalve controlled by a two spool valve
Journal: International Journal of Emerging Technology and Advanced Engineering
Authors: N Mondal, BN Datta
Citation: 12

Title: Designing of different types of gyroid scaffold architecture to achieve patient-specific osseointegration friendly mechanical environment
Journal: International Journal for Multiscale Computational Engineering
Authors: A Gupta, M Rana, N Mondal, A Das, A Karmakar, AR Chowdhury
Citation: 10

Title: Modelling and prediction of micro-hardness of electroless Ni-P coatings using response surface methodology and fuzzy logic
Journal: Jordan Journal of Mechanical and Industrial Engineering
Authors: S Sarkara, R Mandala, N Mondalb, S Chaudhuric, T Mandald, ...
Citation: 9

Title: A single stage spool valve for the pressure compensator of a variable displacement pump: design, dynamic simulation and comparative study with a real pump
Journal: Sādhanā
Authors: N Mondal, R Saha, D Sanyal
Citation: 7

Title: An experimental exploration on pressure-compensated swash plate-type variable displacement axial piston pump
Journal: Journal of The Institution of Engineers (India): Series C
Authors: N Mondal, R Saha, D Sanyal
Citation: 7

Title: A finite element study and mathematical modeling of lumbar pedicle screw along with various design parameters
Journal: Journal of Orthopaedic Science
Authors: JK Biswas, N Mondal, S Choudhury, A Malas, M Rana
Citation: 6

Title: Assessment of mechanical responses between trabecular bones and porous scaffolds under static loading and fluid flow conditions: a multiscale approach
Journal: International Journal for Multiscale Computational Engineering
Authors: P Samanta, S Kundu, A Gupta, M Rana, N Mondal, AR Chowdhury
Citation: 5

Title: Determination of Optimum Design Parameters for Gyroid Scaffolds to Mimic a Real Bone-Like Condition In Vitro: A Fluid Structure Interaction Study
Journal: Journal of Engineering and Science in Medical Diagnostics and Therapy
Authors: A Gupta, M Rana, N Mondal
Citation: 5

Title: Performance Evaluation and Frequency Response Analysis of a Two Stage Two Spool Electrohydraulic Servovalve with a Linearized Model
Journal: Engineering Transactions
Authors: N Mondal, B Datta
Citation: 5

Title: Parametric optimization and minimization of corrosion rate of electroless Ni–P coating using Box-Behnken design and Artificial Neural Network
Journal: Results in Surfaces and Interfaces
Authors: A Mallick, R Mandal, N Mondal, S Sarkar, N Biswas, B Maji, G Majumdar
Citation: 4

Title: A novel approach to design compensator actuators for a swash plate axial piston pump along with the experimental validation
Journal: International Journal of Dynamics and Control
Authors: N Mondal
Citation: 4

Title: Design and design investigations of a flow control spool valve
Journal: International Journal on Interactive Design and Manufacturing (IJIDeM)
Authors: A Ghosh, A Gupta, N Mondal
Citation: 4

Title: A finite element based comparative study of lumbosacral pedicle screw fixation and artificial disc replacement
Journal: Journal of Engineering and Science in Medical Diagnostics and Therapy
Authors: JK Biswas, A Banerjee, N Mondal, M Rana
Citation: 3

Title: Effect of Dynamic Swiveling Torque and Eccentricity on the Design of Compensator Cylinders for a Variable Displacement Axial Piston Pump–Modelling & Simulation
Journal: Jordan Journal of Mechanical and Industrial Engineering
Authors: Ishita De, Subhasish Sarkar, Shouvik Chaudhuri, Nitesh Mondal*, Niraj Kumar
Citation: 3

Title: Pressure compensator design, simulation and performance evaluation of a variable displacement swash plate type axial piston pump
Journal: Sigma Journal of Engineering and Natural Sciences
Authors: N Mondal, R Saha, D Sanyal
Citation: 2

Title: Effect of damping length on dynamic performance of two-stage two-spool electrohydraulic servovalve
Journal: Fluid Mechanics and Fluid Power–Contemporary Research: Proceedings of the …
Authors: N Mondal, B Datta
Citation: 2

Title: Evaluating the mechanical responses on a cell under fluid perfusion: A multiscale computational method
Journal: Results in Surfaces and Interfaces
Authors: P Samanta, S Kundu, A Gupta, M Rana, N Mondal, AR Chowdhury
Citation: 1

Title: FEA Based Design and Stability Study of Electroless Ni-P Coating Plated over a Stepped Shaft under Thermal Load
Journal: Australian Journal of Mechanical Engineering
Authors: T Hassan, S Sarkar, T Mandal, N Mondal, G Majumdar
Citation: 1

Title: Finite Element Analysis of Maxillary Anterior Dentition During Retraction With Varying Level of Bone Support
Journal: Journal of Engineering and Science in Medical Diagnostics and Therapy
Authors: JK Biswas, R Pradhan, N Mondal, S Ballav, M Rana
Citation: 1

Conclusion

Dr. Nitesh Mondal exemplifies engineering excellence through education, research, and professional service. His career unites theoretical depth, practical innovation, and teaching leadership within engineering. By advancing mechanical engineering systems, optimizing fluid dynamics, and contributing to computational modeling, he provides lasting value to both academic and industrial domains. His engineering journey reflects a commitment to problem-solving, interdisciplinary collaboration, and continuous improvement in technology. Through his engineering expertise, publications, and mentorship, he contributes to shaping future engineers and strengthening global knowledge networks. In conclusion, Dr. Nitesh Mondal remains a dedicated contributor to advancing modern engineering solutions, fostering innovation, and elevating the standards of scientific and educational practice in engineering.