Tao Zhu | Air Pollution Control | Best Researcher Award China

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Prof Tao Zhu | Air pollution control | Best Researcher Award

Director, University of Mining & Technology-Beijing, China

Tao Zhu, Ph.D., is a distinguished professor and director of the Institute of Atmospheric Environment Management and Pollution Control at China University of Mining and Technology (Beijing). He has authored over 100 research papers, including more than 30 SCI-indexed publications in renowned journals such as Environmental Science & Technology and Journal of Hazardous Materials. Dr. Zhu has applied for 30 patents in the past five years, with over 10 authorized and six successfully implemented in industrial applications. He has also published eight books, including four monographs. His contributions to air pollution control include the development of plasma-based treatment technologies and the co-processing of PM2.5 and heavy metals. He has led numerous national and industrial projects, generating significant economic and environmental impacts. His work in ultra-high-temperature plasma gasification and hazardous waste treatment has been widely recognized.

PROFESSIONAL PROFILE

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EDUCATION

🎓 Ph.D. in Environmental Engineering – China University of Mining and Technology (Beijing)
🎓 Master’s in Environmental Science – China University of Mining and Technology (Beijing)
🎓 Bachelor’s in Chemical Engineering – China University of Mining and Technology (Beijing)

Dr. Tao Zhu’s academic journey has been marked by a focus on air pollution control, plasma catalysis, and sustainable environmental technologies. His doctoral research contributed to the advancement of plasma-assisted air pollution mitigation techniques. Through rigorous academic training, he developed expertise in non-thermal plasma technology, single-atom catalysis, and volatile organic compound (VOC) decomposition. His educational background laid the foundation for his groundbreaking work in environmental protection and atmospheric pollution control.

EXPERIENCE

👨‍🏫 Professor & Director – Institute of Atmospheric Environment Management and Pollution Control, CUMT (Beijing)
🔬 Principal Investigator – 4 National Vertical Projects, 15 Ministry-Level Projects, 20+ Industrial Projects
🛠️ Technology Developer – Developed three-stage plasma treatment technology for industrial air pollution control
🌍 Environmental Consultant – Led hazardous waste management projects using plasma gasification
📖 Author & Researcher – Published over 100 papers and eight books on environmental science and pollution control

Dr. Zhu has pioneered several cutting-edge environmental technologies, contributing to academia and industry through his extensive research, project leadership, and consulting efforts. His plasma-based pollution control solutions have been implemented in large-scale environmental projects, significantly impacting China’s industrial waste management and air quality improvement.

AWARDS & HONORS

🏆 Outstanding Talent of the New Century – China
🏆 Outstanding Talent Award – Beijing
🏆 Sun Yuezaki Energy Science & Technology Award – National Science and Technology Development Foundation
🏆 Young Science & Technology Award – Chinese Society of Environmental Sciences
🏆 3 Provincial & Ministerial Science & Technology Progress Awards (First Completer)

Dr. Zhu’s pioneering research has been recognized nationally and internationally. His contributions to environmental engineering, particularly in air pollution control and plasma-based treatment methods, have earned him prestigious accolades, solidifying his reputation as a leading scientist in his field.

RESEARCH FOCUS

🌱 Air Pollution Control – Development of advanced plasma-assisted VOC and PM2.5 mitigation technologies
⚛️ Single-Atom Catalysis – Design of catalysts for effective gas-phase pollutant decomposition
🔥 Plasma Treatment Technologies – Application of non-thermal plasma for industrial waste gas purification
♻️ Hazardous Waste Management – Implementation of ultra-high-temperature plasma gasification solutions
🏭 Environmental Impact Assessment – Research on emission reduction strategies in coal-fired power plants

Dr. Zhu’s research integrates innovative environmental engineering solutions with industrial applications. His work aims to enhance pollution control efficiency, reduce emissions, and develop cost-effective technologies for sustainable industrial practices.

PUBLICATION TOP NOTES 📚

📖 Decomposition of benzene by non-thermal plasma processing: Photocatalyst and ozone effectInternational Journal of Environmental Science & Technology (2008)

📖 Life cycle carbon emission modelling of coal-fired power: Chinese caseEnergy (2018)

📖 An improved approach to estimate methane emissions from coal mining in ChinaEnvironmental Science & Technology (2017)

📖 Synergistic mechanism of Ce-Mn in ZSM-5 carrier catalysts for catalytic oxidation of tolueneFuel (2023)

📖 Gaseous phase benzene decomposition by non-thermal plasma coupled with nano titania catalystInternational Journal of Environmental Science & Technology (2009)

📖 Plasma-catalyzed combined dynamic wave scrubbing: A novel method for highly efficient removal of multiple pollutants from flue gas at low temperaturesJournal of Hazardous Materials (2024)

📖 Volatile organic compounds decomposition using nonthermal plasma coupled with a combination of catalystsInternational Journal of Environmental Science & Technology (2011)

📖 Preparation of zeolite X by the aluminum residue from coal fly ash for the adsorption of volatile organic compoundsFrontiers in Chemistry (2019)

📖 CO2 and SO2 emission characteristics of the whole process industry chain of coal processing and utilization in ChinaInternational Journal of Coal Science & Technology (2020)

📖 Effects of Mn, Cu, Sb, La on V–Mo–Ce/Ti SCR catalystsJournal of Rare Earths (2020)

📖 VOCs decomposition via modified ferroelectric packed bed dielectric barrier discharge plasmaIEEE Transactions on Plasma Science (2011)

📖 Porous materials confining single atoms for catalysisFrontiers in Chemistry (2021)

📖 Volatile organic compounds emission control in industrial pollution source using plasma technology coupled with F-TiO2/γ-Al2O3Environmental Technology (2015)

📖 Selective Catalytic Reduction of NO by NH3 Using a Combination of Non-Thermal Plasma and Mn-Cu/ZSM5 CatalystCatalysts (2020)

📖 Study on decomposition mechanism of toluene by non-thermal plasma coupled with catalysisJournal of Chemical Engineering of China (2011)

CONCLUSION

Dr. Tao Zhu is a leading researcher in atmospheric environment management and air pollution control, making significant contributions through innovative plasma treatment technologies and catalysis research. His extensive academic and industrial experience has led to impactful environmental solutions, shaping policies and practices in pollution control. With numerous prestigious awards, over 100 research publications, and multiple patents, he continues to push the boundaries of environmental science. His pioneering work in ultra-high-temperature plasma gasification and hazardous waste management has established him as a key figure in sustainable environmental engineering.

Michel KERE | Climate change | Innovative Solutions for Environmental Challenges Award

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Assoc. Prof. Dr. Michel KERE | Climate change | Innovative Solutions for Environmental Challenges Award

Dr. Michel Kere is an Associate Professor of Zootechnics at the Institute of Rural Development, Nazi BONI University, Burkina Faso. He specializes in zootechnics, reproductive biotechnology, animal breeding, climate change studies, and the development of mechanization tools for smallholder farmers. With a focus on research and innovation, Dr. Kere has contributed significantly to the advancement of livestock sector development in Burkina Faso and beyond. He plays a vital role in implementing and coordinating research projects, training students at various academic levels, and disseminating innovations to farmers. As a leader in agricultural research, he has been involved in several international collaborations and projects focused on sustainable development and climate adaptation in agriculture. His work supports sustainable agricultural practices while addressing environmental challenges in West Africa.

Profile 

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Education 

Dr. Kere holds a Ph.D. in Animal Science from the prestigious National Chung Hsing University, Taichung, Taiwan (2014). Prior to that, he earned a Master’s degree in Rural Development Science and Techniques from Université Polytechnique de Bobo-Dioulasso (now Nazi BONI University), Bobo-Dioulasso, Burkina Faso (2006). His academic journey has provided him with deep knowledge in zootechnics, animal breeding, reproductive biotechnology, and agricultural sciences, laying the foundation for his research and teaching career. Dr. Kere’s advanced education has enabled him to make impactful contributions to agricultural development in West Africa, particularly in the fields of livestock productivity, climate change adaptation, and innovative farming practices. His commitment to higher education is reflected in his role as a mentor to both undergraduate and graduate students, guiding them in their research endeavors related to sustainable agricultural practices.

Experience 

Since 2014, Dr. Kere has been an Associate Professor at the Institute of Rural Development, Nazi BONI  University, where he has significantly influenced agricultural research and education. He supervises master’s and Ph.D. students, guiding research focused on improving the livestock sector in Burkina Faso. He is responsible for identifying research priorities, designing research projects, and collaborating with international institutions. Dr. Kere also serves as the Director of Experimental Stations at Nazi BONI University, overseeing research implementation and providing hands-on training for students. His leadership extends to project management, where he has contributed as a Co-Principal Investigator (Co-PI) in several international agricultural development projects. These include projects like SustainSahel, Appropriate Scale Mechanization Consortium, and Pro-RUWA, aimed at improving agricultural sustainability and rural livelihoods. His work is rooted in the practical application of scientific knowledge to solve challenges faced by smallholder farmers in West Africa.

Awards and Honors 

Dr. Kere’s exceptional contributions to agricultural science, particularly in the areas of livestock development, climate change adaptation, and rural development, have earned him recognition and respect within the academic community. Although specific awards and honors are not mentioned, his role in leading and collaborating on high-impact projects like SustainSahel and Pro-RUWA has contributed to the advancement of sustainable agricultural practices in West Africa. His research and leadership in improving agricultural productivity, mechanization for smallholder farmers, and addressing environmental challenges have garnered significant attention. Dr. Kere’s extensive publication record in international journals underscores his recognition as an expert in zootechnics and agricultural development. His ability to coordinate and collaborate in multi-national projects, and his ongoing contributions to the education and training of future researchers and farmers, reflect his strong reputation in his field, even if formal awards are not listed.

Research Focus 

Dr. Kere’s research focuses on zootechnics, emphasizing animal breeding, reproductive biotechnology, and feed and forage management for improving livestock productivity. His work integrates climate change studies, exploring the adaptation of agricultural practices to environmental shifts, especially in West Africa. He is particularly interested in developing mechanization tools that are appropriate for smallholder farmers, thereby enhancing agricultural productivity and sustainability. Dr. Kere’s involvement in the SustainSahel and Appropriate Scale Mechanization Consortium projects reflects his commitment to synergistic farming systems that combine crops, livestock, and natural resource protection. He has also investigated enteric methane emissions in grazing livestock, contributing to environmental sustainability. By focusing on local agricultural practices, he helps design solutions that support rural livelihoods, improve food security, and reduce environmental impacts. His work is centered on innovative agricultural solutions that balance productivity and environmental sustainability, with a focus on improving conditions for smallholder farmers in Burkina Faso and surrounding regions.

Publication Top Notes

  • Ascorbic acid improves the developmental competence of porcine oocytes after parthenogenetic activation and somatic cell nuclear transplantation 🌱🐖
  • Disbudding pain: The benefits of disbudding goat kids with dexmedetomidine hydrochloride 🐐💉
  • Production of viable cloned miniature pigs by aggregation of handmade cloned embryos at the 4-cell stage 🐖🔬
  • Putative porcine embryonic stem cell lines derived from aggregated four-celled cloned embryos produced by oocyte bisection cloning 🧬🦠
  • Vascular endothelial growth factor A improves quality of matured porcine oocytes and developing parthenotes 🐖❤️
  • Morpho-biometric evaluation of the genetic diversity of local chicken ecotypes in four regions (Centre-East, Sahel, Centre-North and South-West) of Burkina Faso 🐔🌍
  • Derivation and characterization of putative embryonic stem cells from cloned rabbit embryos 🐰🧬
  • Genetic diversity and population structure of local chicken ecotypes in Burkina Faso using microsatellite markers 🐔🧬
  • Ultrastructural characterization of porcine growing and in vitro matured oocytes 🐖🔬
  • Assessment of Water distribution Efficiency Using Solar Powered Drip Irrigation System Convenient for West Burkina Faso Small Scale Farming 💧☀️
  • Household food consumption profile of maize farmers in rural areas: Burkina Faso’s Hauts-Bassins region case 🌾🍽️
  • Balanites aegyptiaca (L.) Delile leaves nutritional value for local Mossi sheep in Burkina Faso 🐏🌿
  • Méthodes de conservation des fourrages: qualités nutritives et performances des ovins en embouche paysanne 🌾🐑
  • Characterization of Agropastoralist Production Systems and the Potential for Improving Livestock Productivity with Improved Feeding in Western Burkina Faso 🐄🌱
  • Évaluation de la force et de la vitesse de travail des bœufs de trait à l’aide d’un dynamomètre numérique en début de campagne agricole au Burkina Faso 🐂🔧
  • Cattle Teats’ Milk Quality and Prevalence of Mastitis by Electronic Mastitis Detector in Burkina Faso 🐄💧
  • Simulation and Optimization of Available Local Feed Resources for Dairy Cattle in Burkina Faso 🐄🍽️
  • Valeurs bromatologiques des fourrages ensilés en fûts plastiques et consommation volontaire chez les chèvres Djallonké au Burkina Faso 🐐🌾
  • Estimating net energy requirements of male Djallonke sheep 🐑⚡
  • Laying and growth performance of local chicken (Gallus gallus domesticus) ecotype Konde in Burkina Faso 🐔📈