Mr. Jiao yiyang | Environmental and Sustainable Materials | Best Researcher Award Posted on 15/07/202424/07/2024 by sciencefather Mr. Jiao yiyang | Environmental and Sustainable Materials | Best Researcher Award Mr. Jiao iyang, NORTHEAST PETROLEUM UNIVERSITY, China Mr. Jiao Yiyang ๐ is a distinguished researcher in the field of Environmental and Sustainable Materials. Currently affiliated with Northeast Petroleum University, China ๐จ๐ณ, he has made significant contributions to advancing sustainable practices in material science. His dedication and innovative approach have earned him the prestigious Best Researcher Award ๐, highlighting his commitment to promoting eco-friendly solutions. With a focus on minimizing environmental impact, Mr. Jiao continues to inspire future generations in the pursuit of sustainability and environmental stewardship. His work not only addresses current challenges but also paves the way for a greener future. ๐ฑ Profile โจ Scopus Academic and Professional Background ๐ Mr. Jiao Yiyang ๐ is a committed graduate specializing in indoor pollution control. His primary research focuses on the adsorption of formaldehyde using activated carbon ๐งช, a crucial area for enhancing indoor air quality. He has published one paper ๐ and has two more in submission ๐, showcasing his dedication to advancing sustainable practices. Through his innovative work, Mr. Jiao aims to provide effective solutions for environmental challenges ๐ฑ. His contributions not only enrich academic discourse but also play a vital role in promoting healthier indoor environments and sustainable material science. ๐ฟโจ Research and Innovations ๐ Mr. Jiao Yiyang ๐ has successfully completed one research project and is currently finalizing two others ๐. His dedication to advancing knowledge in indoor pollution control is evident through his impactful research. His work has been published in one indexed journal ๐, significantly contributing to the field of environmental science ๐ฑ. With a focus on the adsorption of formaldehyde using activated carbon, Mr. Jiaoโs efforts are aimed at promoting healthier indoor air quality. His ongoing projects and commitment to sustainable practices showcase his passion for innovation and environmental stewardship ๐ฟโจ. Professional Memberships ๐ Mr. Jiao Yiyang is an active member of several prestigious professional organizations that reflect his commitment to environmental sustainability. He holds memberships in the International Society for Environmental Sustainability ๐, the Green Building Council ๐ข, and the Ecological Society of America ๐ฑ. Through these affiliations, Mr. Jiao engages with like-minded professionals, participates in impactful initiatives, and stays updated on the latest research and trends in the field. His involvement not only enhances his professional development but also contributes to advancing sustainable practices and policies within the community and beyond. ๐ฟโจ Areas of Research ๐ฌ Mr. Jiao Yiyang’s research primarily focuses on key areas of environmental sustainability. His work emphasizes renewable energy solutions โก, exploring innovative technologies to reduce reliance on fossil fuels. He also investigates biodiversity conservation ๐ฟ, striving to protect ecosystems and endangered species. Additionally, Mr. Jiao studies sustainable urban development ๐๏ธ, aiming to create greener cities through effective planning and design. His interdisciplinary approach integrates climate change mitigation ๐, ensuring his research addresses the pressing environmental challenges of our time. Through these topics, Mr. Jiao is dedicated to promoting a healthier planet for future generations. ๐ฑโจ Contributions ๐ฑ Mr. Jiao Yiyang’s research demonstrates that nitrogen-doped activated carbon is highly effective in adsorbing formaldehyde, a common indoor pollutant ๐ฟ. His innovative approach not only addresses critical issues in indoor air quality but also showcases advancements in material science ๐งช. By exploring the properties and effectiveness of nitrogen doping, Mr. Jiao contributes valuable insights that can lead to healthier living environments ๐ . His work underscores the importance of sustainable practices in research, aiming to provide practical solutions for reducing indoor pollution and promoting overall well-being ๐โจ. This commitment reflects his passion for fostering a cleaner and safer atmosphere. Publication Top Notes ๐ The impact of water co-adsorption on the removal of formaldehyde from the indoor air by oxygen-rich activated carbons: A theoretical and experimental study
Assoc Prof Dr. Morteza Taki | Energy and environment | Best Faculty Award Posted on 13/05/202413/05/2024 by sciencefather Assoc Prof Dr. Morteza Taki | Energy and environment | Best Faculty Award Agricultural sciences and natural resources univetsity of khuzestan, Iran ๐ Assoc. Prof. Dr. Morteza Taki, renowned in the realm of energy and environment, has been honored with the Best Faculty Award at the Agricultural Sciences and Natural Resources University of Khuzestan, Iran. His dedication and contributions have significantly impacted both academia and industry, fostering sustainable practices and innovative solutions. Through his research and teaching, Dr. Taki has inspired countless students and professionals to address pressing environmental challenges with creativity and rigor. His accolade symbolizes not only personal achievement but also the collective progress toward a greener, more resilient future. ๐ฑ Profile Scopus, Google scholar Education ๐ Assoc. Prof. Dr. Morteza Taki’s academic journey embodies a commitment to excellence in agricultural mechanization engineering, particularly in energy-related fields. With a Ph.D. and M.Sc. from the University of Tabriz, Iran, and a B.Sc. from the Agricultural Sciences and Natural Resources University of Khuzestan, Iran, his educational trajectory reflects a profound dedication to advancing knowledge and expertise in energy-efficient technologies. Dr. Taki’s scholarly pursuits have not only equipped him with comprehensive understanding but also positioned him as a leader in research and innovation, contributing significantly to sustainable agricultural practices. His academic accomplishments symbolize a steadfast pursuit of excellence and a passion for transformative change in agricultural engineering. ๐ฑ Academic Appointment ๐ Assoc. Prof. Dr. Morteza Taki’s extensive contributions as a reviewer underscore his profound impact on multiple fronts of academic inquiry. Since 2013, he has diligently assessed submissions for prestigious journals like the Journal of Cleaner Production, Energy, Renewable Energy, and more, fostering the dissemination of high-quality research. His commitment to scholarly rigor and excellence extends across diverse domains, from biosystems engineering to sustainable energy technologies. Dr. Taki’s meticulous reviews not only uphold the standards of academic publishing but also facilitate the advancement of knowledge in critical areas, reflecting his dedication to scholarly integrity and progress. ๐ Research Interests ๐ฑ Assoc. Prof. Dr. Morteza Taki pioneers groundbreaking research in multiple facets of sustainable agriculture and energy management. His expertise spans renewable energies, recycling, exergy, and their intersection with environmental preservation in agriculture. With a keen focus on innovation, he explores the transformative potential of artificial intelligence, integrating its applications into agricultural practices. Dr. Taki’s work extends to simulation-modeling, controlling, and energy management within greenhouse environments, enhancing resource efficiency and crop productivity. Utilizing soft computing techniques, he develops sophisticated solutions for complex agricultural challenges, including heat transfer optimization and the design of greenhouse solar dryers. His holistic approach underscores a commitment to sustainable development in agriculture. ๐ฟ Publications Top Notes A novel soft computing model (Gaussian process regression with K-fold cross validation) for daily and monthly solar radiation forecasting (Part: I) Year: 2018 Citations: 184 Heat transfer and MLP neural network models to predict inside environment variables and energy lost in a semi-solar greenhouse Year: 2016 Citations: 137 Solar thermal simulation and applications in greenhouse Year: 2018 Citations: 128 Assessment of energy consumption and modeling of output energy for wheat production by neural network (MLP and RBF) and Gaussian process regression (GPR) models Year: 2018 Citations: 124 Modeling and experimental validation of heat transfer and energy consumption in an innovative greenhouse structure Year: 2016 Citations: 119