Chen Ru | Climate Change | Editorial Board Member

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Dr. Chen Ru | Climate Change | Editorial Board Member

Tsinghua University | China

Dr. Chen Ru is a scholar specializing in ecological economics, environmental management, and climate-related sustainability transitions, with research spanning carbon footprint analysis, agricultural sustainability, and policy-driven environmental performance. His work offers influential insights into how production systems particularly agricultural and food sectors interact with carbon emissions, climate risk, and broader environmental impacts. He has contributed substantially to advancing carbon footprint methodologies, especially through investigations of variable system boundaries, total factor productivity perspectives, and greenhouse gas accounting frameworks across diverse socio-ecological contexts. His studies explore whether agricultural production functions as a carbon sink or source, evaluate climate-neutral pathways for regional agricultural systems, and assess the carbon effects of modern agricultural cooperatives. Beyond agricultural systems, he has examined links between stringent environmental regulations, air pollution, and corporate innovation, revealing how policy design shapes organizational response and environmental outcomes. His research also addresses the role of compensation policies, cooperation mechanisms, and government intervention in enhancing farmers’ livelihood resilience, mitigating risk shocks, and improving cooperative performance under carbon-constrained conditions. Through interdisciplinary approaches blending ecological indicators, cleaner production principles, and environmental policy analysis, Dr. Chen provides actionable knowledge that bridges scientific assessment and real-world decision-making. His scholarly contributions support more sustainable production models, improved environmental governance, and enhanced climate resilience, positioning him as an important voice in the evolution of ecological sustainability and low-carbon development strategies.

Profile: Google Scholar

Featured Publications

Chen, R. (2024). Carbon footprint assessment of agricultural production systems under the variable system boundary scenarios. In Carbon Footprint Assessments: Case Studies & Best Practices (pp. 201–236).

Chen, R., & Kong, Y. (2022). Redefine carbon footprint performance with the total factor productivity: A case from a regional food production system. Ecological Indicators, 144, 109540.

Chen, R., & Kong, Y. (2023). A comprehensive review of greenhouse gas based on subject categories. Science of The Total Environment, 866, 161314.

Chen, R., Zhang, R., & Han, H. (2021). Where has carbon footprint research gone? Ecological Indicators, 120, 106882.

Chen, R., Zhang, R., Han, H., & Jiang, Z. (2020). Is farmers’ agricultural production a carbon sink or source?–Variable system boundary and household survey data. Journal of Cleaner Production, 266, 122108.

Brad Farmilo | Ecology | Editorial Board Member

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Dr. Brad Farmilo | Ecology | Editorial Board Member

Senior Scientist | Arthur Rylah Institute for Environmental Research | Australia

Dr. Brad Farmilo is a dedicated environmental scientist whose work spans ecological conservation, biodiversity management, and the study of plant community dynamics in fragmented landscapes. With a strong academic foundation in biological and environmental sciences, he has built a career marked by scientific leadership, field-based research, and collaborative problem-solving. His professional experience includes guiding multidisciplinary teams, designing and delivering ecological monitoring programs, conducting advanced data analyses, and contributing to conservation strategy development. His research has explored themes such as weed management in sensitive habitats, ecological responses within forest fragments, and patterns of species distribution across altered landscapes. Through publications in respected scientific journals, he has provided evidence-based insights that support conservation planning and environmental policy. Dr. Farmilo’s influence is reflected not only in his scientific outputs but also in his commitment to mentoring emerging researchers and fostering collaborative projects that bridge science and practice. His expertise with statistical analysis and geospatial tools enhances the precision and impact of his findings, while his contributions to grant development underscore his role in advancing innovative environmental research. Widely regarded for his thoughtful approach to ecological challenges, Dr. Farmilo continues to shape the understanding of landscape-scale biodiversity processes and supports the development of sustainable conservation initiatives that benefit both ecosystems and the scientific community.

Profiles: Scopus | Google Scholar

Featured Publications

Farmilo, B. J., Melbourne, B. A., Camac, J. S., & Morgan, J. W. (2014). Changes in plant species density in an experimentally fragmented forest landscape: Are the effects scale-dependent? Austral Ecology, 39(4), 416–423.

Farmilo, B. J., & Nimmo, D. G., & Morgan, J. W. (2013). Pine plantations modify local conditions in forest fragments in southeastern Australia: Insights from a fragmentation experiment. Forest Ecology and Management, 305, 264–272.

Schultz, N., Keatley, M., Antos, M., Wong, N., Moxham, C., Farmilo, B., … (2017). The golf ball method for rapid assessment of grassland structure. Ecological Management & Restoration, 18(2), 134–140.

Morgan, J. W., & Farmilo, B. J. (2012). Community (re)organization in an experimentally fragmented forest landscape: Insights from occupancy–scale patterns of common plant species. Journal of Vegetation Science, 23(5), 962–969.

Moxham, C., Dorrough, J., Bramwell, M., & Farmilo, B. J. (2016). Fire exclusion and soil texture interact to influence temperate grassland flora in south-eastern Australia. Australian Journal of Botany, 64(5), 417–426.

Rehan Abid | Clean and Renewable energy | Editorial Board Member

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Mr. Rehan Abid | Clean and Renewable energy | Editorial Board Member

Research Scholar | International Islamic University Islamabad | Pakistan

Mr. Rehan Abid is a dedicated researcher in physics and materials science whose work centers on advanced materials, electrochemical energy storage, and device fabrication. His expertise spans the synthesis and modification of nanostructured materials, including conducting polymers, two-dimensional materials, and inorganic nanomaterials, applying techniques such as chemical oxidative polymerization, in-situ bulk polymerization, and bottom-up synthesis. He has contributed significantly to the development of supercapacitive materials and flexible energy-storage devices through hands-on experience in electrode design, electrolyte formulation, and device assembly, supported by strong capabilities in material characterization and laboratory instrumentation. His research involvement includes contributions to collaborative projects on energy harvesters and self-powered systems, where he played an active role in material preparation, device fabrication, data interpretation, and manuscript development. Alongside his research, he has demonstrated academic leadership through teaching and mentoring roles, guiding undergraduate and graduate learners in physics coursework and laboratory practices, and supporting students in experimental design and research execution. His scientific output includes multiple peer-reviewed publications in reputable journals, reflecting his commitment to advancing knowledge in energy materials and applied physics. Known for his multidisciplinary skill set, he effectively integrates theoretical understanding with practical experimentation, contributing to innovative material solutions for energy storage and sensing applications. Mr. Abid continues to build a strong research presence through his work on nanocomposites, electrochemical systems, and emerging materials, positioning himself as a promising contributor to the evolving landscape of materials science and applied physics.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Khan, M. A., Siddique, M. A. R., Sajid, M., Karim, S., Ali, M. U., Abid, R., & Bokhari, S. A. I. (2023).
A comparative study of green and chemical cerium oxide nanoparticles (CeO₂-NPs): From synthesis, characterization, and electrochemical analysis to multifaceted biomedical applications. BioNanoScience.

Haider, S., Abid, R., Murtaza, I., & Shuja, A. (2023).
Unleashing enhanced energy density with PANI/NiO/graphene nanocomposite in a symmetric supercapacitor device, powered by the hybrid PVA/Na₂SO₄ electrolyte. ACS Omega.

Raza, A., Abid, R., Murtaza, I., & Fan, T. (2023).
Room temperature NH₃ gas sensor based on PMMA/RGO/ZnO nanocomposite films fabricated by in-situ solution polymerization. Ceramics International.

Fan, T., Jian, L., Liu, C., Murtaza, I., Abid, R., Shuja, A., Liu, Y., & Min, Y. (2022).
Controlled synthesis of the state-of-the-art quasi one-dimensional graphene nanostructure for high performance supercapacitor. Synthetic Metals.

Muhammad, G., Murtaza, I., Abid, R., & Ahmad, N. (2022).
Effect of different catalysts and growth temperature on the photoluminescence properties of zinc silicate nanostructures grown via vapor-liquid-solid method. Chinese Physics B.

Muhammad Ibrahim | Environmental Science | Best Researcher Award

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Dr. Muhammad Ibrahim | Environmental Science | Best Researcher Award

Researcher | Hohai University | China

Dr. Muhammad Ibrahim is an environmental scientist whose research focuses on emerging pollutants, water quality, ecological risk assessment, and nature-based remediation strategies. His work spans the toxicological behavior of PFAS, heavy metals, antibiotics, and nutrient pollution, with special emphasis on their interactions, dispersal pathways, and ecological consequences in freshwater systems. He investigates semiconductor-based photocatalysis, bio-electrochemical remediation, phytoremediation, and biogeochemical processes in reservoirs, advancing innovative approaches for pollution control and sustainable water-environment management. His scholarship also extends to environmental modeling, microalgal bloom dynamics, atmospheric pollution assessment, and the ecological impacts of industrial effluents. In parallel, he contributes to interdisciplinary studies linking environmental protection with public health, climate indicators, agricultural sustainability, and data-driven solutions such as federated learning frameworks for environmental and healthcare applications. Professionally, he has developed strong expertise in scientific analysis, laboratory research, data interpretation, environmental monitoring, and team leadership. He has participated in multiple international conferences, contributed to collaborative research networks, and published extensively in high-impact journals across environmental science, engineering, and sustainability. His work is recognized through several competitive awards for academic excellence, innovative research, and global environmental solutions, reflecting his commitment to advancing scientific understanding and real-world applications that support cleaner ecosystems and resilient communities.

Profiles: Scopus | Orcid | Google Scholar

Featured Publications

Li, Y., Ibrahim, M., Yue, C., Wang, Y., Hongzhe, P., Hassan, A. W., & Chunmin, Y. (2025). Exploring the impact of seasonal variation on the toxicological profile of Σ2PFAS in surface water bacterioplankton communities. Journal of Hazardous Materials, 140464.

Li, Y., Wang, Y., Hu, X., Cheng, Y., Zhu, Y., Zhou, Y., Pan, H., Li, R., Ibrahim, M., & Gualtieri, C. (2025). Reservoir water-level operations to manage biogeochemical turnover. Water Research, 124225.

Ibrahim, M., Li, Y., Usman, M., Adnan, M., Danjaji, H. A., & Jibo, A. U. (2025). Effect of nitrate on the semiconductor-based photocatalytic degradation of azithromycin. Journal of Environmental Engineering, EEENG-8063.

Li, Y., Zhu, Y., Chen, Y., Wang, C., Zhao, G., Pan, H., Wang, C., Bao, H., Ibrahim, M., & Norgbey, E. (2025). Heavy metals contamination in water-sediment systems of a large drinking water reservoir in southern China: Large-scale assessment and risk-based management. Journal of Cleaner Production, 146557.

Chen, D., Ibrahim, M., Soroma, M., Danjaji, H. A., Jibo, A. U., & Yang, Y. (2025). Season-based phytoremediation potential of brown mustard for lead decontamination: effect of EDTA chelation and antioxidant enzyme activity. International Journal of Phytoremediation.

Rabia Benaddi | Environmental Science | Outstanding Contributions in Academia Award

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Dr. Rabia Benaddi | Environmental Science | Outstanding Contributions in Academia Award

Agence Du Bassin Hydraulique De Tensift | Morocco

Dr. Rabia Benaddi is a Moroccan researcher specializing in environmental chemistry, water quality management, and material sciences. His research focuses on the synthesis and characterization of phosphate-based materials and their application in the adsorption and removal of phenolic and organic pollutants from wastewater, contributing significantly to sustainable water treatment technologies. He has co-authored multiple peer-reviewed publications in international journals such as the Journal of Hydrology: Regional Studies, Journal of African Earth Sciences, and Ecological Engineering & Environmental Technology. His work also encompasses the assessment of wastewater treatment systems, natural lagoon performance, groundwater contamination, and the environmental impacts of industrial effluents in arid and semi-arid regions. Professionally, he has extensive experience in water quality monitoring, environmental impact assessment, and management of wastewater reuse projects. He has actively contributed to research collaborations, student supervision, and capacity-building initiatives in water resource management, climate change adaptation, and environmental sustainability. Through numerous conference presentations and international training programs, he has demonstrated a strong commitment to advancing scientific understanding and practical solutions for sustainable water and environmental systems.

Proifles: Scopus | Orcid

Featured Publications

Benaddi, R., Osmane, A., Zidan, K., El Harfi, K., & Ouazzani, N. (2023). A review on processes for olive mill wastewater treatment. Ecological Engineering & Environmental Technology, 24(7).

Benaddi, R., Osmane, A., Zidan, K., El Harfi, K., & Ouazzani, N. (2023). A review on the adsorption of phenol derivatives from wastewater. Ecological Engineering & Environmental Technology, 24(6).

Benaddi, R., Aziz, F., El Harfi, K., & Ouazzani, N. (2022). Column adsorption studies of phenolic compounds on nanoparticles synthesized from Moroccan phosphate rock. In Advances in Science, Technology and Innovation (pp. 181–192). Springer.

Benaddi, R., Ferkan, Y., Bouriqi, A., & Ouazzani, N. (2022). Impact of landfill leachate on groundwater quality – A comparison between three different landfills in Morocco. Journal of Ecological Engineering, 23(5), 213–223.

Benaddi, R., Aziz, F., El Harfi, K., & Ouazzani, N. (2021). Adsorption and desorption studies of phenolic compounds on hydroxyapatite–sodium alginate composite. Desalination and Water Treatment, 227, 1–11.

Sahassawas Poojeera | Energy and Sustainability | Best Researcher Award

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Assist. Prof. Dr. Sahassawas Poojeera | Energy and Sustainability | Best Researcher Award

Lecturer Rajamangala University of Technology Isan, Khon Kaen Campus Thailand

Mr. Sahassawas Poojeera is an Assistant Professor at Rajamangala University of Technology Isan, Khon Kaen Campus. His expertise lies in mechanical engineering, renewable energy, biomechanics, and finite element analysis (FEA). With a strong academic and research background, he has significantly contributed to biofuels, thermoelectric cooling, and alternative energy solutions. He has authored numerous publications in high-impact journals and actively supervises graduate students in mechanical and biomedical engineering.

Profile

Google Scholar

🎓 Education

  • Ph.D. in Mechanical Engineering (2014–2020) – Khon Kaen University
  • M.Eng in Mechanical Engineering (2012–2013) – Khon Kaen University
  • B.Eng in Mechanical Engineering (2008–2011) – Khon Kaen University
  • High School (Math & Science) (2002–2007) – Khon Kaen Wittayayon School

💼 Experience

  • Assistant Professor (2022–Present), Rajamangala University of Technology Isan, Khon Kaen Campus
    • Conducts research on renewable energy, biomechanics, and sports injuries
    • Supervises graduate students in mechanical and biomedical engineering
    • Publishes research in high-impact journals

🔬 Research Interests

  • Biofuels & Alternative Energy 🔋
  • Renewable Energy Applications in Agriculture 🌱
  • Finite Element Analysis (FEA) & Heat Transfer 🔥
  • Biomechanics & Sports Injury Prevention 🏃‍♂️

🏆 Awards & Nominations

  • Recognized for outstanding contributions to renewable energy and mechanical engineering
  • Active reviewer for top-tier journals in energy and thermodynamics
  • Recipient of research grants for biogas burner and Yang-Na oil fuel studies

📚 Publications Top Notes:

Experimental investigations on bio-diesel from Schleichera oleosa operated indirect injection and direct injection diesel engine: a combined application of ANN and RSM-based optimization (2025) – Discov Appl Sci (Q1)

Embedded Copper Foam Effect on the Nanofluids Thermal Cooling Performance of the Electric Vehicle Battery Pack (2025) – Engineered Science (Q1)

Modeling Airflow and Temperature in a Sealed Cold Storage System for Medicinal Plant Cultivation Using CFD (2024) – Agronomy 14(12), 2808 (Q1)

Optimized performance of closed-loop control electromagnetic field for electric generators with energy storage (2024) – Engineered Science (Q1)

Heat transfer and flow analysis for square tube with oscillating electromagnetic field with ANN (2024) – Cogent Engineering 11(1), 2430431 (Q1)

Oscillating electromagnetic field effect on Nusselt number and pressure drop of ferrofluid in fluted tubes (2024) – Engineered Science 32, 1307 (Q1)

Development of rubber mattresses with cooling systems to reduce pressure sores for the elderly (2024) – Engineered Science 30, 1153 (Q1)

Numerical and experimental study on PPE suit cooling in COVID-19 with a thermoelectric module (2023) – Engineered Science 26(2), 990 (Q1)

Performance and emission characteristics of diesel engine fueled by Yang oleoresin blended diesel fuel (2024) – Energy Sources, Part A (Q1)

Study on Thermal Performance of Small-Scale Air Conditioning with Thermoelectric Cooling (2022) – Mathematical Modelling of Engineering Problems 9(4) (Q2)

Miaomiao Wen | Environmental Science | Women Researcher Award

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Ms. Miaomiao Wen | Environmental Science | Women Researcher Award

senior engineer China Classification Society China

Wen Miaomiao, born on April 4, 1981, is a senior engineer from China. With a Ph.D. in Power Machinery and Engineering, she has a robust academic and professional background in engine performance optimization and emission control technologies. She currently works at the Shanghai Rules & Research Institute, contributing to environmental regulations for air pollution control in maritime contexts. Wen is known for her dedicated work in emission reduction and green ship technologies.

profile

Scopus.com

Education 🎓

Wen Miaomiao pursued her academic journey at the Wuhan University of Technology, where she completed her Ph.D. in Power Machinery and Engineering (2005-2009). Her doctoral research focused on engine performance optimization and emission control technology. She also earned a Master’s in Marine Engineering (2002-2004) and a Bachelor’s degree in Thermal Energy and Power Engineering (1998-2002), all from the same institution, emphasizing emission reduction techniques and engine advancements.

Experience 💼

Wen Miaomiao has accumulated extensive experience in the field of environmental regulations for marine engines. Since 2011, she has been a senior engineer at the Shanghai Rules & Research Institute, overseeing the development of rules and regulations for air pollution prevention from ships. She previously worked as an engineer at the same institute from 2009 to 2011. Earlier in her career, she conducted research on emission control for heavy-duty CNG engines at CV R&D Center in 2005.

Research Interests 🔬

Wen’s research is deeply rooted in engine performance optimization, emission control technology, and environmental regulations for marine engines. She has worked on projects related to Selective Catalytic Reduction (SCR) technology for NOx emission reduction, combustion optimization for CNG engines, and the development of green ship technologies. Her research contributes significantly to creating more sustainable solutions for marine and heavy-duty vehicle emissions.

Awards 🏆

Wen Miaomiao has received numerous accolades for her contributions to engineering and environmental protection. These include the Excellent Graduate Student Award from Wuhan University of Technology (2002-2003), First Prize in Science and Technology Progress Award from the China Shipbuilding Industry Corporation (2016), and Grand Prize of Science and Technology Progress Award from the Chinese Society of Naval Architects and Marine Engineers (2022). Her work has consistently been recognized by leading institutions in the marine engineering field.

Publications Top Notes 📚 :

Modeling of Urea-SCR Exhaust Aftertreatment System for Diesel. Transactions of CSICE, 2009. Cited by 30 articles.

Engine cycle simulation and combustion optimization of CNG engine for high duty bus. 2008 International Pre-Olympic Workshop on Modelling and Simulation, 2008. Cited by 20 articles.

One-dimensional numerical simulation of CNG engine cycle. Journal of Wuhan University of Technology, 2007. Cited by 15 articles.

Engine Cycle Simulation and development of a gasoline Engine. SAE paper 2007-01-4103, 2007. Cited by 25 articles.

Analysis of induction distribution non-evenness of EQD180N-20 engine. Journal of Wuhan University of Technology, 2006. Cited by 12 articles.