Nizar Ben Ezzine | Energy | Editorial Board Member

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Prof. Nizar Ben Ezzine | Energy | Editorial Board Member

Prof. Nizar Ben Ezzine | Energy | Professor at Carthage University | Tunisia

Prof. Nizar Ben Ezzine is an accomplished scholar in the field of energy engineering, widely recognized for his contributions to thermodynamics, solar cooling technologies, and absorption refrigeration systems, and he has established a strong academic and research identity through his advanced education culminating in a doctoral degree in energetics that laid the foundation for his expertise in thermal sciences and sustainable cooling systems. Throughout his professional journey, Prof. Nizar Ben Ezzine has served in reputable academic and research institutions where he has contributed extensively to teaching, mentoring, scientific collaborations, and the development of cutting-edge research initiatives in the areas of thermodynamic modelling, exergy analysis, and high-efficiency refrigeration cycles. His research interests include solar-driven absorption systems, ammonia–water thermodynamic mixtures, diffusion-absorption refrigeration cycles, sustainable thermal energy solutions, and performance optimisation of environmentally friendly cooling systems, which he explores using advanced numerical modelling, experimental investigations, and multi-parameter optimisation techniques. Prof. Nizar Ben Ezzine demonstrates strong research skills in computational modelling of thermal systems, experimental system testing, simulation of absorption chillers, development of solar-powered cooling technologies, and analytical techniques for evaluating irreversibilities in thermal cycles, supported by an extensive record of publications in Scopus-indexed and high-impact journals. His scholarly outputs include influential articles in journals such as Energy, Renewable Energy, the International Journal of Exergy, and the International Journal of Refrigeration, which collectively reflect his scientific depth and sustained impact. With hundreds of citations, an established h-index, and numerous international co-authorships, he has built a collaborative presence within the global energy research community and contributed to significant international research projects addressing sustainable cooling and thermodynamic optimisation challenges. Prof. Nizar Ben Ezzine has been acknowledged for his academic excellence through various research-based recognitions, invitations to scientific committees, and participation in specialized conferences that highlight his leadership within the thermal and renewable energy sectors. His work continues to influence the design and development of future cooling technologies, and his research trajectory demonstrates strong promise for further innovation in areas such as advanced solar cooling, next-generation refrigerant mixtures, and integrated renewable energy systems. In conclusion, Prof. Nizar Ben Ezzine stands as a leading figure whose scientific contributions, professional experience, collaborative engagements, and commitment to sustainability continue to shape advancements in the global field of energy engineering.

Academic Profile: Google Scholar

Featured Publications:

  1. Ezzine, N. B., Garma, R., & Bellagi, A. (2010). A numerical investigation of a diffusion-absorption refrigeration cycle based on R124-DMAC mixture for solar cooling. Energy, 35(5), 1874–1883. Citations: 108

  2. Ezzine, N. B., Garma, R., Bourouis, M., & Bellagi, A. (2010). Experimental studies on bubble pump operated diffusion absorption machine based on light hydrocarbons for solar cooling. Renewable Energy, 35(2), 464–470. Citations: 83

  3. Ezzine, N. B., Barhoumi, M., Mejbri, K., Chemkhi, S., & Bellagi, A. (2004). Solar cooling with the absorption principle: First and Second Law analysis of an ammonia–water double-generator absorption chiller. Desalination, 168, 137–144. Citations: 61

  4. Mejbri, K., Ezzine, N. B., Guizani, Y., & Bellagi, A. (2006). Discussion of the feasibility of the Einstein refrigeration cycle. International Journal of Refrigeration, 29(1), 60–70. Citations: 27

  5. Barhoumi, M., Snoussi, A., Ben Ezzine, N., Mejbri, K. H., & Bellagi, A. (2004). Modelling of the thermodynamic properties of the ammonia/water mixture. International Journal of Refrigeration, 27(3). Citations: 26

 

Mr. Yang Wang | Energy Economics | Best Researcher Award

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Mr. Yang Wang | Energy Economics | Best Researcher Award

Mr. Yang Wang | Energy Economics – PHD candidate at Southeast University, China

Yang Wang is an emerging scholar in the field of environmental and urban sustainability research, currently pursuing a doctoral degree at Southeast University in China. With a research profile that intersects urban planning, carbon mitigation, and digital transformation, Wang’s contributions to the academic community have been both timely and impactful. His growing portfolio of peer-reviewed publications demonstrates not only his depth of knowledge in construction and real estate but also his commitment to tackling global sustainability challenges through interdisciplinary research. As a promising early-career researcher, he has already gained recognition in highly regarded international journals and is steadily building a reputation as a thought leader in the nexus of urban development and environmental governance.

Profile Verified:

ORCID | Scopus

Education:

Yang Wang commenced his academic journey at Southeast University, one of China’s most prestigious institutions in architecture and urban studies. He earned his bachelor’s degree in the Department of Construction and Real Estate from 2019 to 2023, where he developed foundational skills in sustainable building design and urban systems analysis. Continuing seamlessly into doctoral studies at the same institution in 2023, Wang is now engaged in advanced research focused on low-carbon transitions in urban settings. His PhD education is enriched by rigorous methodological training, field research, and collaborative projects that span environmental economics, data science, and construction management.

Experience:

Although still early in his professional journey, Wang has participated in several national and institutional research projects addressing China’s carbon neutrality goals. He has co-authored multiple scientific articles with senior academics and interdisciplinary teams, contributing key data analytics, modeling frameworks, and policy evaluations. His work experience involves integrating interpretable machine learning with urban datasets, applying evolutionary game theory in policy studies, and using hybrid decision-making frameworks such as LDA-DEMATEL-ISM to assess behavioral patterns in construction practices. Through these experiences, Wang has developed strong competencies in quantitative research, systems thinking, and scholarly writing, all of which make him an asset to any academic or policy-driven initiative.

Research Interest:

Yang Wang’s core research interests lie in sustainable urban development, low-carbon innovation, digital transformation of cities, and behavioral science in construction management. He is particularly interested in the application of machine learning and systems modeling to understand how urban policies and technologies can influence carbon emission trajectories. His ongoing PhD work explores the synergy between smart urbanization and environmental performance, with an emphasis on identifying policy levers that support China’s carbon peaking and neutrality strategies. Wang’s research is forward-looking, often intersecting with themes of climate change adaptation, green infrastructure, and environmental governance in developing urban regions.

Award:

Given his early but impactful scholarly contributions, Yang Wang is a highly suitable candidate for the Best Researcher Award. His ability to publish in top-tier journals, engage in collaborative multidisciplinary research, and address pressing real-world problems reflects both excellence and potential. This nomination recognizes not only his academic rigor but also his commitment to leveraging science for societal benefit, especially in the context of sustainable urban transitions and global climate action.

Publication:

📘 Promoting Continuous Emissions Monitoring Systems to Curb Rent-Seeking: Evolutionary Game Insights (2025) – Energy Economics – 📊 cited by 5 articles
📗 Disentangling the Non-Linear Relationships and Interaction Effects of Urban Digital Transformation on Carbon Emission Intensity (2025) – Urban Climate – 🌐 cited by 3 articles
📙 Exploring the Key Influencing Factors of Low-Carbon Innovation from Urban Characteristics in China Using Interpretable Machine Learning (2024) – Environmental Impact Assessment Review – 🤖 cited by 6 articles
📕 Factors Influencing Contractors’ Low-Carbon Construction Behaviors in China: A LDA-DEMATEL-ISM Approach (2024) – Environmental Science and Pollution Research – 🏗️ cited by 4 articles
📔 Calculating and Analyzing Carbon Emission Factors of Prefabricated Components (2023) – Sustainability – 🧱 cited by 7 articles

Conclusion:

Yang Wang exemplifies the qualities of an impactful and visionary researcher, whose academic pursuits align with global priorities on sustainability, urban resilience, and carbon reduction. His swift ascent in the academic publishing world, coupled with a forward-thinking and analytical mindset, makes him a strong contender for recognition through the Best Researcher Award. He stands at the intersection of theory, technology, and policy, making tangible contributions toward building smarter, greener, and more inclusive cities. With continued mentorship, funding, and exposure, Wang is poised to become a leader in environmental research and a catalyst for sustainable change in the years to come.