Chen Yang | Engineering | Research Excellence Award

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Prof. Chen Yang | Engineering | Research Excellence Award

School of Energy and Power, Chongqing University  |  China

Prof. Chen Yang  research centers on advanced energy systems, renewable energy utilization, and thermal power engineering, with strong emphasis on modeling, optimization, and dynamic control of complex thermo-energy systems, supported by a research record of 1,004 citations across 868 documents, 98 publications, and an h-index of 18. His contributions span ultra-supercritical circulating fluidized bed boilers, nuclear power reactor secondary systems, compressed air energy storage, and hybrid solid oxide fuel cell–gas turbine systems, advancing the efficiency, reliability, and safety of large-scale power generation. He has developed multi-physics and multi-scale reduced-order modeling techniques to address nonlinear dynamics, uncertainty, cooperative simulation, and system stability challenges, enabling enhanced operational performance under transient and abnormal working conditions. His work integrates mechanistic models with artificial intelligence, including neural networks and time-series methods, to achieve online simulation, intelligent prediction, fault early warning, and predictive control in energy systems. He has also contributed to thermodynamic coupling analysis, waste heat utilization strategies, and multi-objective optimization frameworks for green energy systems. Through these innovations, his research significantly supports sustainable power technology development, promotes intelligent and resilient energy infrastructures, and contributes to low-carbon energy transformation and modern energy system advancement.

Citation Metrics (Scopus)

1200

900

600

300

0

Citations
1004

Documents
98

h-index
18

🟦 Citations    🟥 Documents    🟩 h-index


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Featured Publications

Qiusong Liang | Engineering | Best Researcher Award

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Ms. Qiusong Liang | Engineering | Best Researcher Award

Northeast Forestry University | China

Ms. Qiusong Liang is a promising mechanical engineering researcher whose work focuses on advanced simulation, optimization, and design of electro-hydraulic and electromechanical systems. Her research emphasizes multi-objective optimization, structural dynamics, and fluid–structure interaction analysis to enhance the performance and reliability of servo and direct-drive valve mechanisms. She skillfully integrates computational tools such as ANSYS, SolidWorks, Maxwell, and AMESim for high-precision modeling and simulation, contributing significantly to innovations in flow control mechanisms, torque motor optimization, and cavitation noise reduction in hydraulic systems. Her recent studies explore the dynamic characteristics of torque motors and the coupling effects between electromagnetic and fluid systems, leading to improved high-response servo valve technologies for industrial and military applications. Ms. Liang’s research excellence and innovative approach have been recognized through publications in internationally indexed journals and notable contributions to engineering design projects. She maintains an active research profile with Scopus- and Google Scholar–indexed publications, accumulating documented citations and a growing h-index that reflect her rising academic influence in the field of mechanical system optimization and applied simulation engineering. Her commitment to applied research, precision design, and interdisciplinary collaboration has earned her recognition as a recipient of the Best Researcher Award, highlighting her as one of the emerging leaders in smart mechanical systems and sustainable automation technologies.

Publication Profile

Orcid

Featured Publications

  • Zhang, J., Liang, Q., Sun, J., Yan, B., Hu, Z., & Sun, W. (2025, October 29). Multi-objective optimization of torque motor structural parameters in direct-drive valves based on genetic algorithm. Actuators, 14(11), 527.

Mehran Pourgholi | Engineering | Best Researcher Award

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Assist. Prof. Dr. Mehran Pourgholi | Engineering | Best Researcher Award

Islamic Azad University | Iran

Assist. Prof. Dr. Mehran Pourgholi, an accomplished researcher in Civil and Structural Engineering, has made notable contributions to the fields of system identification, structural health monitoring, inverse problems, and stochastic subspace methods. His research focuses on enhancing the reliability of modal analysis and vibration-based damage detection in large-scale structures such as dams and steel buildings. Dr. Pourgholi integrates advanced computational approaches including entropy-based model selection, optimization algorithms, and error analysis frameworks to improve accuracy in structural system modeling. His collaborative work with experts from the University of Tabriz and Islamic Azad University has produced high-impact studies published in leading international journals such as the Journal of Vibration and Control, Mechanical Systems and Signal Processing, and Engineering Reports. According to Google Scholar, Dr. Pourgholi has 77 citations (68 since 2020), an h-index of 4, and an i10-index of 2, while Scopus records 51 citations across 46 documents with an h-index of 3. His influential publications on stochastic subspace identification and modal analysis have advanced understanding of dynamic behavior in civil structures. Recognized for his scholarly excellence, he has been honored with the Best Researcher Award for his significant impact in the field of structural system identification and vibration analysis.

Publication Profile

Scopus | Orcid | Google Scholar 

Featured Publications

Tarinejad, R., & Pourgholi, M. (2018). Modal identification of arch dams using balanced stochastic subspace identification. Journal of Vibration and Control, 24(10), 2030–2044.

Pourgholi, M., Mohammadzadeh Gilarlue, M. M., Vahdaini, T., & Azarbonyad, M. (2023). Influence of Hankel matrix dimension on system identification of structures using stochastic subspace algorithms. Mechanical Systems and Signal Processing, 186, 109893.

Pourgholi, M., Tarinejad, R., Khabir, M. E., & Mohammadzadeh Gilarlue, M. M. (2023). System identification of Karun IV Dam using balanced stochastic subspace algorithm considering the uncertainty of results. Journal of Vibration and Control, 29(23–24), 5342–5356.

Tarinejad, R., Pourgholi, M., & Yaghmaei-Sabegh, S. (2016). Signal processing of dynamic tests results using subspace identification based on orthogonal decomposition technique (SI-ORT). Modares Mechanical Engineering, 15(10), 104–116.

Pourgholi, M., Ghannadi, M., & Gavgani, S. S. (2024). Modal analysis of earthquake records for dams using stochastic subspace based on error analysis. Engineering Reports, 6(8), e12822

 

Emre Karakaya | Mining Engineering | Best Research Article Award

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Yair Rivera | Engineering | Best Researcher Award

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Virginie Boy | Thermal processes | Best Researcher Award

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Assist. Prof. Dr. Virginie Boy| Thermal processes| Best Researcher Award

Assist. Prof. Dr. Virginie Boy Université Bretagne Sud, France

Dr. Virginie Boy is an Assistant Professor at the Institut de Recherche Dupuy de Lôme (IRDL), Université Bretagne Sud, France, since September 2015.She specializes in process engineering, focusing on the drying processes of bioproducts such as fruits, vegetables, digestate from anaerobic digestion, and marine products like seaweeds and starfish. Her expertise encompasses both experimental and modeling aspects of drying techniques, including hot-air drying, fluidized bed drying, and freeze-drying, as well as the characterization of product quality in terms of texture, rehydration, and color.

professional profiles📖

Google Scholar

Education 🎓

2002 – 2004: University Technology Degree (DUT) in Chemical Engineering and Process Engineering, Université de Toulouse2004 – 2006: Bachelor’s degree in Chemistry, specializing in Physical and Chemical Processes, Université de Toulouse2006 – 2008: Master’s degree in Chemical and Environmental Engineering, Université de Toulouse2008 – 2012: PhD in Chemical and Environmental Engineering, Université de Toulouse

work Experience💼

Oct 2008 – Mar 2012: PhD Researcher, Laboratoire de Génie Chimique, ToulouseJan 2012 – Aug 2012: Temporary Assistant, Teaching and Research, Université de ToulouseJan 2013 – Jan 2014: Postdoctoral Researcher, Laboratory of Separation Technology, Lappeenranta, FinlandJan 2014 – Jan 2015: Postdoctoral Researcher, Laboratoire M2P2, Aix-en-Provence, FranceSep 2015 – Present: Assistant Professor, Department of Chemical Engineering, Process Engineering, University Institute of Technology (IUT), IRDL UMR CNRS 6027, UBS

Research Focus

Dr. Virginie Boy’s research is centered on process engineering, particularly in thermal processes and drying techniques for biological and environmental applications. Her work involves the study of drying processes for bioproducts, including fruits, vegetables, digestate from anaerobic digestion, and marine products like seaweeds and starfish. She specializes in experimental and mathematical modeling of drying methods such as hot-air drying, fluidized bed drying, and freeze-drying. Additionally, she focuses on optimizing drying efficiency and improving product quality concerning texture, rehydration, and color retention. Her research also extends to membrane science and water treatment technologies.

Awards & Honors🏆 

Awards and Recognitions
Dr. Virginie Boy has been recognized for her contributions to process engineering and drying technologies, receiving acknowledgments for her research impact in thermal processing and membrane science. Her publications have been widely cited in the scientific community, highlighting her influence in the field.

Conclusion✅

Dr. Boy’s contributions to chemical engineering research, her extensive publication record, and her commitment to mentorship and international collaboration position her as a deserving candidate for the Best Researcher Award. With further focus on expanding research funding and industry ties, she could elevate her impact even further in the scientific community. Based on her credentials, she is highly suitable for this recognition.

📚Publications to Noted

  • Boy, V., Roux-de Balmann, H., & Galier, S. (2012). Relationship between volumetric properties and mass transfer through NF membrane for saccharide/electrolyte systems. Journal of Membrane Science, 390-391, 254-262.

  • Boy, V., Roux-de Balmann, H., & Galier, S. (2017). How do ions enhance the transfer during nanofiltration of saccharides? Experimental assessment of the dehydration assumption. Canadian Journal of Chemical Engineering, 95(5), 974-984.

  • Liu, X., Souli, I., Chamaa, M.-A., Lendormi, T., Sabourin, C., Lemée, Y., Boy, V., Chaira, N., Ferchichi, A., Morançais, P., & Lanoisellé, J.-L. (2018). Effect of thermal pretreatment at 70 °C for one hour (EU hygienization conditions) of various organic wastes on methane production under mesophilic anaerobic digestion. AIMS Environmental Science, 5(2), 117-129.

  • Bahar, T., Boy, V., Lemée, Y., Magueresse, A., Lendormi, T., Glouannec, P., & Lanoisellé, J.-L. (2018). Air impingement drying of foods: modelling and experimental approach. Chemical Engineering Transactions, 70, 1957-1962.

  • Boy, V., Liu, X., Chamaa, M.-A., Lemée, Y., Sabourin, C., Lendormi, T., & Lanoisellé, J.-L. (2019). Air impingement drying of digestate. Experimental and modelling study. Chemical Engineering Research and Design, 146, 436-448.

  • Boy, V., Ben Khalifa, W., Drévillon, L., Lemée, Y., Lendormi, T., & Lanoisellé, J.-L. (2021). Air impingement and intermittent drying: application to apple and to mango. Canadian Journal of Chemical Engineering, 99(1), 120-134. (Article selected to appear in a Virtual Special Issue in honor of International Women in Engineering Day).

  • Liu, X., Boy, V., Lendormi, T., Lemée, Y., & Lanoisellé, J.-L. (2021). Valorization of common starfish (Asterias rubens) by air impingement drying and mesophilic anaerobic digestion: a preliminary study. Waste and Biomass Valorization, 12, 2969-2981.

  • Le Loeuff, J., Boy, V., Morançais, P., Colinart, T., Bourgougnon, N., & Lanoisellé, J.-L. (Year Unknown). Mathematical modeling of air impingement drying of brown algae. (Publication details incomplete).

Viorel Paunoiu | Engineering | Best Researcher Award

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Prof. Viorel Paunoiu | Engineering | Best Researcher Award

Professor at Dunarea de Jos University of Galati, Romania

Viorel Păunoiu is a distinguished professor and researcher in Industrial Engineering, specializing in metal forming processes, additive manufacturing, and advanced manufacturing technologies. He has dedicated his career to academia and research, significantly contributing to technological advancements in manufacturing. He is currently a professor at “Dunarea de Jos” University of Galati, where he also serves as a PhD supervisor. With over three decades of experience, he has led numerous research projects, supervised doctoral students, and contributed to international collaborations. He has also held various leadership positions, including Director of the Manufacturing Engineering Department and Editor-in-Chief of the university’s scientific journal. His expertise spans industrial process modeling, simulation, and optimization, making him a key figure in Romania’s industrial research community. His contributions have earned him multiple awards and honors, further solidifying his impact on the field.

professional profiles📖

Google Scholar

Scopus Profile

Education 🎓

Viorel Păunoiu holds a PhD in Industrial Engineering from “Dunarea de Jos” University of Galati (1992-1998), focusing on metal forming processes. He earned his Bachelor of Science in Mechanical Engineering from the same institution in 1984. Over the years, he has pursued continuous education, completing post-university studies in CAD design (2007) and industrial property protection (2001). His international academic exposure includes research activities at CEMEF, France (1992), and training in advanced manufacturing techniques in Poland, Ireland, Greece, and Italy. Additionally, he obtained a Certificate of Graduation in Quality Management (2009) and English Language (2013). His academic background is complemented by specialized training in powder metallurgy (1999) and visiting professorships, including the University of Constantine, Algeria (2018). These educational experiences have shaped his expertise in industrial engineering, manufacturing processes, and innovative material technologies.

work Experience💼

Viorel Păunoiu has an extensive career spanning academia, research, and industry. He began as a Design Engineer at MEFIN Sinaia (1984-1987), then transitioned to academia as a Research Assistant (1987-1990) and later Assistant Professor (1990-1992) at “Dunarea de Jos” University of Galati. Over the years, he progressed to Lecturer (1992-2001), Associate Professor (2001-2004), and Professor (2004-present). He currently serves as a PhD Supervisor and Professor Habilitat in Industrial Engineering. His leadership roles include Director of the Manufacturing Engineering Department (2011-2019), Director of the Engineering Research Center (2011-present), and Editor-in-Chief of a scientific journal. He has actively contributed to the university’s governance, serving on the Faculty and Senate councils. His expertise extends to quality assurance, as an evaluator for ARACIS. His career is marked by international collaborations, project leadership, and a strong impact on industrial research and education.

Awards and Honors 

Viorel Păunoiu has received numerous accolades for his contributions to Industrial Engineering. He has won multiple First Awards and Gold Medals at UGAL Invent (2021, 2023) and was honored with the Excellence Award “Octavian Pruteanu” (2013, 2023). His research excellence was recognized with the BEST PAPER AWARD at CSM 2018. In 2017, he received a Special Charter for his contributions to the International Conference on Advanced Manufacturing Engineering and Technologies (NEWTECH). His international recognition includes the Excellence Diploma at TMCR Chișinău (2011) and awards for his contributions to advanced manufacturing and reconfigurable processing systems (2007). His leadership in organizing international conferences and pioneering research in manufacturing technologies has earned him distinction among peers. As an esteemed figure in the industry, his work continues to influence engineering research, industrial applications, and academic advancements.

Research Focus

Viorel Păunoiu’s research revolves around metal forming processes, advanced manufacturing, and additive manufacturing. His work emphasizes modeling and simulation of plastic deformation in sheet metal forming and powder forming technologies. He specializes in inspection technologies, digital forming, and reconfigurable manufacturing, integrating modern computational methods to optimize industrial processes. His research extends to intelligent manufacturing for automotive and aerospace applications, focusing on process automation and material behavior analysis. Additionally, he explores hybrid manufacturing, combining traditional and emerging production techniques. His contributions include innovations in multi-point forming, incremental forming, and laser-assisted forming technologies. His extensive publications and projects reflect his dedication to advancing industrial engineering, bridging the gap between theoretical research and practical industrial applications. His work significantly impacts manufacturing efficiency, cost reduction, and product quality improvement in global industries.

Skills 💡

Viorel Păunoiu possesses a diverse skill set, including expertise in industrial engineering, metal forming, and manufacturing technologies. He is proficient in CAD software like Solid Edge, FEA software for deformation modeling (DYNAFORM), and photo editing tools (Adobe Photoshop, CorelDraw). His project management skills include leading national and international research projects in manufacturing innovation. He has extensive organizational and managerial skills, having directed multiple research centers and academic departments. His communication skills enable effective teaching, research collaboration, and conference organization. He is experienced in scientific review for journals like Elsevier’s Measurement, Materials Design, and MDPI’s Applied Sciences. Additionally, his multidisciplinary approach incorporates artificial intelligence in manufacturing, robotic-assisted forming, and sustainable manufacturing processes. His technical expertise is complemented by his leadership in academic governance, international collaborations, and industry partnerships with major companies like DACIA-RENAULT

 

Conclusion✅

Viorel Păunoiu is a highly qualified candidate for the Best Researcher Award, given his long-standing contributions to industrial engineering, leadership in academic research, and involvement in impactful projects. His work significantly influences manufacturing processes, metal forming, and advanced materials engineering. Strengthening his international visibility, patents, and interdisciplinary collaborations would further enhance his credentials.

 

📚Publications to Noted

 

Laser bending of stainless steel sheet metals

Authors: V. Păunoiu, E.A. Squeo, F. Quadrini, C. Gheorghies, D. Nicoara

Citations: 41

Year: 2008

Numerical simulations in reconfigurable multipoint forming

Authors: V. Păunoiu, P. Cekan, E. Gavan, D. Nicoara

Citations: 32

Year: 2008

Simulation of friction phenomenon in deep drawing process

Authors: V. Păunoiu, D. Nicoară

Citations: 20

Year: 2003

Study on the Transition from the Linear Economy to the Circular Economy

Authors: C. Afteni, V. Păunoiu, M. Afteni

Citations: 18

Year: 2021

Simulation of Plate’s Deformation Using Discrete Surfaces

Authors: V. Păunoiu, N. Oancea, D. Nicoara

Citations: 15

Year: 2004

Using 3D scanning in assessing the dimensional accuracy of mechanically machined parts

Authors: C. Afteni, V. Păunoiu, M. Afteni, V. Teodor

Citations: 13

Year: 2022

Springback compensation in reconfigurable multipoint forming

Authors: V. Păunoiu, V. Teodor, A. Epureanu

Citations: 12

Year: 2009

Simulation of the combined reconfigurable multipoint forming and rubber forming

Authors: V. Păunoiu, P. Cekan, M. Banu, A. Epureanu, D. Nicoara

Citations: 12

Year: 2008

Experimental and finite element analysis of Erichsen test. Application to identification of sheet metallic material behaviour

Authors: V. Oleksik, A. Gavrus, V. Păunoiu, O. Bologa

Citations: 11

Year: 2009

A general upper bound method for forces calculation in tube spinning process

Authors: V. Păunoiu, D. Nicoara, M. Teodorescu

Citations: 11

Year: 1999

 

Oluwatayo Timothy Jesudaju | Heavy Engineering | Best Researcher Award

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Mr. Oluwatayo Timothy Jesudaju | Heavy Engineering | Best Researcher Award

Site Supervisor at Federal University of Technology Akure, Nigeria

Oluwatayo Timothy Jesudaju is an aspiring quantity surveyor and construction professional with a strong passion for digital technology adoption in heavy engineering projects. He holds a Bachelor of Technology degree in Quantity Surveying from The Federal University of Technology, Akure, Nigeria. With hands-on experience in construction supervision, cost estimation, and project management, he has contributed to large-scale projects such as the Dangote Refinery drainage system and the Lekki-Epe Expressway rehabilitation. His research focuses on integrating digital technology tools into construction management for improved efficiency. Recognized for his leadership skills, he has served as a student liaison and actively contributed to student welfare initiatives. Beyond his technical expertise, he is passionate about green building practices and sustainable construction. A creative individual, he enjoys mural painting and canvas art. His technical proficiency, problem-solving skills, and adaptability position him as a promising professional in the construction and engineering industry.

professional profiles📖

ORCID

Education 🎓

Oluwatayo Timothy Jesudaju earned his Bachelor of Technology in Quantity Surveying from The Federal University of Technology, Akure, Ondo, Nigeria, with a Second Class Upper Division (3.57/5.00 GPA). His academic journey focused on key areas such as cost estimation, risk management, construction measurement, valuation, and digital technology adoption in engineering projects. His thesis, titled “Adoption of Digital Technology Tools in Heavy Engineering Projects in Lagos State, Nigeria,” examined how modern construction technologies can optimize efficiency and reduce costs. Under the supervision of Dr. Oke A.E., he employed advanced data analysis techniques such as Factor Analysis, Frequency Distribution, and Standard Deviation to assess the challenges and benefits of digital technology in construction. His research contributes to the growing field of digital transformation in the engineering sector. Throughout his academic career, he demonstrated leadership, analytical thinking, and a commitment to sustainable building practices.

work Experience💼

Oluwatayo Timothy Jesudaju has gained valuable experience in the construction industry through various roles. As a Site Supervisor at Nimasa Nig Ventures, he oversaw the construction of a 50m drainage system at the Dangote Refinery, ensuring successful project execution from excavation to completion. During his tenure as an Intern Quantity Surveyor at Craneburge Construction Company, he measured work progress, collected data, and assisted in the preparation of interim valuations for the Lekki-Epe Expressway rehabilitation project. He also worked with the Edo State Public Building and Maintenance Agency, preparing bill of quantities for construction projects, aiding in procurement and budgeting. His expertise in cost estimation, contract administration, and risk management has been instrumental in ensuring project efficiency. With a strong foundation in Microsoft Project, SPSS, and Microsoft Excel, he continues to contribute to the industry by integrating digital tools for enhanced project management.

Awards and Honors 

Oluwatayo Timothy Jesudaju has been recognized for his leadership and impact in the academic and professional spheres. He received the Most Respected Occupant Award (2021 & 2022) at Akindeko Hall of Residence, The Federal University of Technology, Akure, for his outstanding contributions to student welfare and leadership. As a student leader, he played a crucial role in creating a dedicatory mural for a late coursemate, a gesture that fostered unity and remembrance within the student community. His ability to bridge communication between students and hostel management ensured the prompt resolution of student concerns. His research contributions in digital construction technologies have positioned him as a forward-thinking professional committed to advancing sustainable construction practices. His achievements highlight his dedication to academic excellence, leadership, and innovation in the construction industry, making him a promising candidate for future industry awards.

 

Research Focus

Oluwatayo Timothy Jesudaju’s research focuses on the adoption of digital technology tools in heavy engineering projects to enhance efficiency, accuracy, and cost-effectiveness in the construction industry. His thesis investigated how digital tools such as Building Information Modeling (BIM), Geographic Information Systems (GIS), and drone surveying can revolutionize project management in Lagos State, Nigeria. His study utilized Factor Analysis, Mean Item Score, and Standard Deviation to evaluate the key drivers and barriers to digital adoption in construction. He is particularly interested in green building practices, sustainable construction, and risk management. His research aims to bridge the gap between traditional construction methods and emerging digital solutions to improve project execution. His passion for data-driven decision-making and technology integration positions him as an innovator in the field of construction technology and engineering.

 

Conclusion✅

Oluwatayo Timothy Jesudaju is a strong candidate for the Best Researcher Award, given his research contributions, industry experience, and leadership roles. By increasing his research publications and seeking international collaborations, he can further establish himself as a leading expert in construction technology and management.

 

📚Publications to Noted

 

Digital Evolution in Nigerian Heavy-Engineering Projects: A Comprehensive Analysis of Technology Adoption for Competitive Edge

*Published on January 26, 2025, in the journal Buildings, this article explores how the fourth industrial revolution’s digital technologies can enhance the operations and competitiveness of Nigerian heavy-construction firms.

Authors:

  • A.E. Oke
  • J. Aliu
  • M.Z. Farhana
  • O.T. Jesudaju
  • H.-P. Lee

Citations: As of now, the article has been cited 0 times.

A Capability Assessment Model for Implementing Digital Technologies in Nigerian Heavy Construction Firms

*Published on July 30, 2024, in the journal Smart and Sustainable Built Environment, this study introduces a tailored capability assessment model and self-appraisal tool to aid Nigerian heavy construction firms in their digital transformation efforts.

Authors:

  • A.E. Oke
  • J. Aliu
  • M.Z. Farhana
  • O.T. Jesudaju
  • H.-P. Lee

Citations: As of now, the article has been cited 0 times.

 

 

Abhijit Bhowmik | Mechanical Engineering | Best Researcher Award

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Kritsada Khun-anod | Construction Engineering | Best Researcher Award

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Mr. Kritsada Khun-anod | Construction Engineering | Best Researcher Award

PhD Candidate at Kochi University of Technology, Japan

Mr. Kritsada Khun-anod is a skilled civil engineer with a solid educational background and practical experience. He earned both his Bachelor of Engineering and Master of Engineering in Civil Engineering from Kasetsart University at Kamphaeng Saen Campus, Thailand, achieving GPAs of 3.21 and 3.88, respectively. During his academic tenure, he worked as a site engineer for three months while in his third year of study. He also gained nearly a year of professional experience with China Harbour Engineering Company. Mr. Khun-anod has actively engaged in academic and professional development by participating in the Taiwan-Thailand-Vietnam Students Joint Symposium and Internship on the Advancement of Civil and Environmental Engineering, as well as the International Conference on Civil and Environmental Engineering in China (2018).

 

📝professional profile

Scopus Profile

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🎓Educational Details:

Mr. Kritsada Khun-anod holds a Bachelor of Engineering in Civil Engineering from Kasetsart University at Kamphaeng Saen Campus, Thailand, where he achieved a GPA of 3.21. He furthered his studies with a Master of Engineering in Civil Engineering from the same institution, graduating with an impressive GPA of 3.88.

👨‍🏫Professional Experience:

Mr. Kritsada Khun-anod gained practical experience as a site engineer during his third year of study in his Bachelor of Engineering program, where he worked for three months. He later continued his professional journey as a site engineer with China Harbour Engineering Company, a Chinese construction firm, where he accumulated nearly one year of valuable experience.

Achievements:

Mr. Kritsada Khun-anod has actively participated in notable academic events, including the Taiwan-Thailand-Vietnam Students Joint Symposium and Internship on the Advancement of Civil and Environmental Engineering. Additionally, he joined the International Conference on Civil and Environmental Engineering held in China in 2018.

📚Publications to Noted

Pre-project planning process study of green building construction projects in Thailand

Authors: K. Khun-anod, C. Limsawasd

Citations: 11

Year: 2019

Journal: Engineering Journal, 23(6), 67-81

Predicting cost and schedule performance of green building projects based on preproject planning efforts using multiple linear regression analysis

Authors: K. Khun-anod, C. Limsawasd, N. Athigakunagorn

Citations: 3

Year: 2023

Journal: Journal of Architectural Engineering, 29(3), 04023025

Barriers to Green Implementation in Highway Construction in Cambodia: Identification of Root Causes

Authors: S. Sourn, C. Limsawasd, K. Khun-anod, N. Athigakunagorn

Citations: 2

Year: 2022

Journal: International Journal of Sustainable Development & Planning, 17(3)

Roles and Autonomous Motivation of Safety Officers: The Context of Construction Sites

Authors: K. Khun-anod, T. Watanabe, S. Tsuchiya

Citations: Not specified

Year: 2024

Journal: Buildings, 14(2), 460

Roles and Autonomous Motivation of Safety Officers: The Context of Construction Sites

Authors: K. Khun-anod, T. Watanabe, S. Tsuchiya

Citations: Not specified

Year: 2024

Journal: Occupational Health in the Construction Industry, 149

The Analysis of Pre-Project Planning for Green Building Construction

Authors: K. Khun-anod, C. Limsawasd

Citations: Not specified

Year: 2020

Journal: Kasetsart University