Qingyu Sui | Ecosystem service | Best Researcher Award

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Mr. Qingyu Sui | Ecosystem service | Best Researcher Award

Researcher, Northeast Foresty University, China

Qingyu Sui is a PhD student at Northeast Forestry University, specializing in forest management. With a solid academic background in landscape architecture and architectural environment engineering, Qingyu is passionate about sustainable development and the quantification of ecosystem services. His research focuses on innovative methods to assess environmental impacts and improve ecological conservation efforts.

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Orcid

Strengths for the Award:

Academic Excellence:
The candidate has demonstrated outstanding academic performance throughout their educational journey. Notably, they were admitted to Yanbian University with a high ranking and received a school-level academic scholarship for three consecutive years (2020-2023). This consistent recognition highlights their dedication and intellectual capabilities.

Research Contributions:
The candidate has made significant research contributions, particularly in the fields of ecosystem services and carbon sequestration. As the first author, they published a paper in the journal Sustainability (2023 impact factor 3.9), focusing on the quantitative evaluation of ecosystem services provided by urban street trees. Additionally, they have submitted another paper to the International Journal of Sustainable Development & World Ecology (2023 impact factor 6.22), assessing the value of carbon sequestration in the Amur River Basin. These publications demonstrate their ability to conduct high-impact research relevant to environmental sustainability.

Technical Skills:
The candidate possesses a wide range of practical and technical skills essential for modern research. Their proficiency in modeling software (IUEMS, I-Tree, ENVI-met) and professional image production tools (ArcGIS, PS, Origin2022b) equips them with the necessary tools to conduct complex analyses and produce high-quality research outputs. Moreover, their expertise in statistical analysis using Matlab, Python, Excel, and R language enhances their ability to interpret data accurately and effectively.

Work Experience:
The candidate has gained valuable work experience as a Remote Sensing Intern and an FQC Management Engineer. These roles have provided them with practical insights and hands-on experience in applying their academic knowledge to real-world problems, further strengthening their research capabilities.

Areas for Improvement:

Broader Research Exposure:
While the candidate has made commendable contributions to the field of environmental sustainability, expanding their research to include interdisciplinary collaborations could enhance the impact of their work. Engaging with experts from related fields such as economics, sociology, and urban planning could lead to more comprehensive and innovative research outcomes.

Leadership and Mentorship:
The candidate could benefit from opportunities to lead research projects or mentor junior researchers. Taking on such roles would not only help develop their leadership skills but also contribute to their professional growth and recognition within the academic community.

International Collaboration:
To further their research impact, the candidate could seek opportunities for international collaboration. Engaging with global research networks and participating in international conferences would expose them to diverse perspectives and cutting-edge research, potentially leading to new insights and advancements in their field.

Education 🎓

Qingyu Sui’s academic journey began with a Bachelor’s degree in Architectural Environment and Energy Application Engineering from Dalian University for Nationalities (2014-2018). He then pursued a Master’s degree in Landscape Architecture at Yanbian University (2020-2023), where he excelled academically, earning a school-level scholarship and graduating as an Outstanding Graduate. In June 2023, Qingyu commenced his PhD studies at the Forestry College of Northeast Forestry University, focusing on forest management.

Experience 🏆

Qingyu has gained valuable work experience as a Remote Sensing Intern at Heilongjiang Donglin Urban and Rural Environmental Planning and Design Institute from July 2023 to June 2024. Before this, he worked as an FQC Management Engineer at Chongqing Laibao High-Tech Co., Ltd. from July 2018 to July 2019. These roles have honed his practical skills in environmental planning, remote sensing, and quality control, enhancing his capabilities in both research and industry applications.

Research Interests 🔬

Qingyu Sui is deeply interested in sustainable development, ecosystem services, and carbon sequestration. His research often explores the intersection of urban forestry and environmental science, particularly focusing on the quantification and valuation of ecosystem services provided by urban street trees and the carbon sequestration potential of various landscapes. He leverages advanced modeling software and statistical tools to conduct his research.

Awards 🏅

Throughout his academic career, Qingyu has received several accolades:

  • Admitted to Yanbian University in 2020 with a high ranking and a total score of 382 points.
  • School-Level Academic Scholarship recipient from Yanbian University for the years 2020-2023.
  • Outstanding Graduate of Yanbian University in 2023 for his exceptional academic performance and contributions.

Publications Top Notes 📖

Quantitative Evaluation of Ecosystem Services of Urban Street Trees: A Case Study of Shengjing Historical and Cultural Block in Shenyang, China
Sustainability, 2023, 15(3), 2532.
Impact Factor: 3.9
Citations: Not yet cited

Value Assessment of Carbon Sequestration in Generalized Black Soil Distribution Area of Amur River Basin, China
International Journal of Sustainable Development & World Ecology, 2023.
Impact Factor: 6.22
Citations: Not yet cited

Conclusion

The candidate is a strong contender for the “Best Researcher Award” due to their academic excellence, significant research contributions, and advanced technical skills. Their published work and practical experience demonstrate a high level of competence and dedication to their field. However, to reach their full potential, they could benefit from broader research exposure, leadership opportunities, and international collaborations. With continued growth and development, the candidate is poised to make even greater contributions to the field of environmental sustainability and beyond.

Hussein Togun | clean energy | Best Researcher Award

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Prof Dr. Hussein Togun | clean energy | Best Researcher Award

PhD, University of Baghdad, Iraq

🌟 Prof. Dr. Hussein Togun is a distinguished researcher in the field of clean energy, recognized for his groundbreaking contributions. With a PhD from the University of Baghdad, Iraq, Dr. Togun has been instrumental in advancing renewable energy technologies and sustainable practices. His innovative research has earned him the prestigious Best Researcher Award, highlighting his exceptional expertise and dedication to solving global energy challenges. Dr. Togun’s work not only advances scientific knowledge but also contributes significantly to the transition towards a cleaner and more sustainable future. 🌱

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Experience

📚 From 2006 to 2021, I meticulously crafted and taught a comprehensive course spanning mathematics, Thermodynamics, Transport Phenomena, and Heat Transfer across various academic levels. Serving as the head of the Department of Biomedical Engineering from 2015 to 2019 enriched my experience further, allowing me to delve into every facet of course administration. This encompassed syllabus design, textbook selection, TA recruitment and supervision, assignment creation, supplementary material development, and lecturing. Additionally, I organized numerous seminars covering diverse Engineering disciplines, wherein participants earned full graduate credit. This multifaceted journey not only honed my teaching skills but also instilled a deep appreciation for academic leadership. 🎓

Research Areas

🔥 Exploring the forefront of thermal performance and heat transfer, my research delves into innovative areas such as Hybrid-Nanofluids and Phase Change Materials (PCM). By combining expertise in energy, fluid mechanics, and computational fluid dynamics (CFD) simulation, I aim to revolutionize heat transfer technologies. These efforts hold promise for enhancing energy efficiency and sustainability across various applications, from industrial processes to renewable energy systems. Through rigorous experimentation and modeling, I seek to unlock the full potential of advanced fluid systems, paving the way for more efficient heat management solutions in a rapidly evolving world. My passion lies in harnessing these technologies to drive positive change and address pressing global challenges. 💡

Citations

Citations  2753
h-index  27
i10-index  53

Publications Top Notes

“An experimental study on thermal conductivity and viscosity of nanofluids containing carbon nanotubes” (2014) – 296 citations

“Investigation of heat transfer enhancement in a forward-facing contracting channel using FMWCNT nanofluids” (2014) – 255 citations

“Preparation, characterization, viscosity, and thermal conductivity of nitrogen-doped graphene aqueous nanofluids” (2014) – 155 citations

“Numerical simulation of laminar to turbulent nanofluid flow and heat transfer over a backward-facing step” (2014) – 148 citations

“Heat transfer and fluid flow of pseudo-plastic nanofluid over a moving permeable plate with viscous dissipation and heat absorption/generation” (2019) – 147 citations

“An experimental and numerical investigation of heat transfer enhancement for graphene nanoplatelets nanofluids in turbulent flow conditions” (2015) – 144 citations

“Thermal performance of nanofluid in ducts with double forward-facing steps” (2015) – 89 citations

“A review of studies on forced, natural and mixed heat transfer to fluid and nanofluid flow in an annular passage” (2014) – 74 citations

“A novel hybrid biomass-solar driven triple combined power cycle integrated with hydrogen production: Multi-objective optimization based on power cost and CO2 emission” (2021) – 66 citations

“A novel hybrid modelling structure fabricated by using Takagi-Sugeno fuzzy to forecast HVAC systems energy demand in real-time for Basra city” (2020) – 56 citations