Continuing Education: Bio-Based Materials https://buff.ly/3xDovNr #onlinelearning #elearning #onlineclass #workfromhome #virtuallearning #edutech
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Dear Students, Researchers, and Academicians, I am currently drafting a book on the field related to the "Sustainable management of environmental wastes and their use", which will be published by Springer and indexed in Scopus. I, therefore, request interested national and international authors to send a tentative title of the chapter you wish to publish by 15th September 2024. Please send the tentative chapter titles along with the author names and affiliations, corresponding author email ID, and contact details to pratyush.das@cutm.ac.in The book will cover topics related but not limited to the following themes - 1. Management of heavy metal wastes 2. Management of plastic/microplastic in the environment 3. Management and utilization of Agricultural wastes 4. Management and utilization of domestic and food wastes 5. Management of hospital wastes 6. Management of biological hazard wastes 7. Management of Nuclear Wastes 8. Management of antibiotics-contaminated wastewater 9. Management of different industrial wastes and effluents 10. Management of e-wastes and many more....
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Green Chemistry is the sustainable chemistry. Green Chemistry is basically the design of chemical products and products that eliminate or reduce the use of generation of hazardous substances. The aim of green chemistry is to make alternatives that are less harmful or harmless for human beings. To learn more, Click the link below 📚💕 #infohut #information #education #environment #environmentalawareness #environmentalengineering #environmentaleducation #environmentalchemistry #greenchemistry #green #sustainablechemistry #sustainableliving #greenliving #principles #importance #greenchemicals #foryou #foryoupage #highlights #everyone #highlightseveryone #usa #uk #uae #pakistan #europe #viralpost #trendingnow #viralcontent #trendingtopic https://lnkd.in/gVDhbUYW
Principles of Green Chemistry | Info Hut
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Green Chemistry: A Scientific Revolution Towards a Sustainable Future 🌱🌍 Have you ever imagined a world where we can produce everything we need without harming our planet? This isn't just a dream, it's what "Green Chemistry" promises! 🌱🔬 ?What is Green Chemistry Green Chemistry is a branch of chemistry aimed at designing chemical processes and products that reduce or eliminate the use and production of hazardous substances. Simply put, it's chemistry that cares about our environment and health as much as it cares about scientific advancements. Goals of Green Chemistry: Waste Reduction: Designing chemical reactions that produce minimal waste. Safe Materials: Using non-toxic and non-hazardous raw materials. Improving Efficiency: Increasing the efficiency of chemical reactions to achieve higher yields with fewer resources. Renewable Energy: Relying on sustainable energy sources like solar and wind power. Why is Green Chemistry Important Environmental Protection: Reducing pollution and toxic waste preserves our ecosystem. Human Health: Safe chemicals mean safer products and better health for humans. Sustainable Economy: Efficient and sustainable processes save costs in the long run and promote a green economy. :Applications of Green Chemistry Renewable Energy: Developing eco-friendly batteries and fuel cells. Pharmaceutical Industries: Producing drugs in ways that minimize environmental impact. Agriculture: Creating insecticides and fertilizers that are non-hazardous. 🔍💡 What about you? Are you excited about the possibilities of Green Chemistry? How can we apply these principles in our daily lives and industries? Share your thoughts and experiences on enhancing sustainability in your work and daily life. Let's contribute together to building a greener and more sustainable future! #GreenChemistry #Sustainability #Environment #CleanTechnology #Innovation #ScientificResearch #BetterFuture
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Postdoctoral Researcher at the Department of Chemical and Biochemical Engineering, Technical University of Denmark (DTU)
Dear Colleagues, In light of the evolving lifestyles and rapid industrialization, the input of both organic and inorganic pollutants into water bodies has been increased, posing a pressing environmental challenge. These pollutants, among emerging or micropollutants, exhibit high toxicity levels even at low concentrations, with certain contaminants' effects remaining elusive. Confronting such a concern, the effective treatment of wastewater derived from the agricultural, industrial, and food processing sectors emerges as crucial, targeting to the output minimization of these pollutants into water bodies and sludge. This Special Issue is devoted to exploring novel and robust pure or mixed cultures for the biological treatment of both wastewater and sludge. We invite submissions not only of original research papers but also of review articles, and case studies covering but not limited to the following topics: · Biological processes for wastewater and sludge management and valorization for their conversion to bioenergy and/or added-value products. · Unraveling the fate and transport mechanisms of organic pollutants in water and sludge matrices. · Mechanistic mathematical modeling of biological processes for application in wastewater treatment. · Identification and characterization methods of pollutants of municipal, industrial, and agricultural wastewater and/or sludge. · Sustainability analysis (techno-economic analysis and/or Life Cycle Assessment) of applied biological methods for waste and wastewater management. · Zero waste and circular economy approach on wastewater and sludge valorization, with emphasis on biological methods application. Your valuable insights will significantly contribute to shaping effective solutions and advancing knowledge in the critical field of wastewater and sludge management through biological processes. Water MDPI MDPI
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Dear Colleagues, In light of the evolving lifestyles and rapid industrialization, the input of both organic and inorganic pollutants into water bodies has been increased, posing a pressing environmental challenge. These pollutants, among emerging or micropollutants, exhibit high toxicity levels even at low concentrations, with certain contaminants' effects remaining elusive. Confronting such a concern, the effective treatment of wastewater derived from the agricultural, industrial, and food processing sectors emerges as crucial, targeting to the output minimization of these pollutants into water bodies and sludge. This Special Issue is devoted to exploring novel and robust pure or mixed cultures for the biological treatment of both wastewater and sludge. We invite submissions not only of original research papers but also of review articles, and case studies covering but not limited to the following topics: · Biological processes for wastewater and sludge management and valorization for their conversion to bioenergy and/or added-value products. · Unraveling the fate and transport mechanisms of organic pollutants in water and sludge matrices. · Mechanistic mathematical modeling of biological processes for application in wastewater treatment. · Identification and characterization methods of pollutants of municipal, industrial, and agricultural wastewater and/or sludge. · Sustainability analysis (techno-economic analysis and/or Life Cycle Assessment) of applied biological methods for waste and wastewater management. · Zero waste and circular economy approach on wastewater and sludge valorization, with emphasis on biological methods application. Your valuable insights will significantly contribute to shaping effective solutions and advancing knowledge in the critical field of wastewater and sludge management through biological processes.
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🌍 Embracing Sustainable Practices in Environmental Chemistry 🌱 As a PhD student in environmental chemistry, I’m continually inspired by the innovative strides we are making towards a more sustainable future. Sustainable practices are not just a trend; they are essential for the health of our planet and future generations. Here are a few key sustainable practices that are making a significant impact in our field: Green Chemistry: By designing chemical products and processes that reduce or eliminate the use and generation of hazardous substances, green chemistry aims to minimize the environmental and human health risks associated with chemical manufacturing. Renewable Energy Sources: Transitioning to renewable energy sources such as solar, wind, and bioenergy is crucial. These sources not only reduce greenhouse gas emissions but also help conserve natural resources. Waste Reduction and Management: Effective waste management strategies, including recycling and composting, are vital. In the lab, this can mean reducing single-use plastics and properly disposing of chemical waste to prevent environmental contamination. Water Conservation: Implementing techniques to reduce water usage in both industrial and agricultural settings can significantly impact water conservation. Methods such as rainwater harvesting and wastewater recycling are becoming more prevalent. Sustainable Agriculture: Practices such as crop rotation, organic farming, and the use of biopesticides help maintain soil health, reduce the need for chemical fertilizers, and promote biodiversity. Environmental Impact Assessment (EIA): Conducting thorough EIAs before embarking on new projects ensures that potential environmental impacts are identified and mitigated early in the planning process. Public Awareness and Education: Raising awareness and educating communities about the importance of sustainability can lead to more environmentally conscious behaviors and policies. By integrating these sustainable practices into our daily lives and research, we can contribute to a healthier planet. Let’s continue to innovate, educate, and advocate for a sustainable future! 🌱🌏 Feel free to share your thoughts or any sustainable practices you’re passionate about in the comments below! #Sustainability #GreenChemistry #EnvironmentalScience #RenewableEnergy #WasteManagement #WaterConservation #SustainableAgriculture #EnvironmentalImpactAssessment #EcoFriendly #PhDLife
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PhD course (hybrid) at SLU - Swedish University of Agricultural Sciences starting on November 15. Within the PhD courses, students are offered broad knowledge and insight in the field of sustainable systems of food, energy, and biomaterials. The courses typically include lecturers from university researchers, public authorities, trade organizations and industries. The current food system is associated with severe sustainability challenges such as climate change, eutrophication, resource depletion and biodiversity loss. A profound transformation of the food system is thus urgently needed, both in the production and consumption phase. For facilitating such transformation, tools and indicators are required for measuring status and trends, and for benchmarking against goals at different levels. This course aims to provide students with tools and indicators for monitoring of food system sustainability, with particular emphasis on environmental performance, at different scales and from different perspectives. In the course, the PhD students will learn about indicators and tools by applying them in their own research and by critically reflecting on strengths and weaknesses of different approaches. The course starts on November, 15, and is given as a hybrid course. The first three days of lectures (18-20 November) as well as the final mandatory seminar on December, 12 are given on Ultuna campus. This interdisciplinary course is given in collaboration with the Research School on Sustainable Systems for Food, Energy and Biomaterials. Eligible participants. The course is primarily intended for PhD students at SLU, but is also open for PhD students from other universities, and other researchers at SLU, as space allows. The course is free of charge. Application. Email Ingrid.Strid@slu.se. Deadline: 20 August, 2024. Applicants outside SLU must also provide a certificate stating that you are admitted as PhD student. Send by email to Ingrid.Strid@slu.se. Course organiser and contact information Pernilla Tidåker pernilla.tidaker@slu.se, +46-(0)18-67 18 69 (course leader) Department of Energy and Technology, SLU - Sveriges lantbruksuniversitet Ingrid Strid Ingrid.strid@slu.se, +46-(0)18-67 15 59 (course leader) Department of Energy and Technology, Swedish University of Agricultural Sciences (SLU)
Sustainable systems for food, energy and biomaterials (SSFEB) | slu.se
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BSc 1st Year Chemistry Enthusiast at Shri Shivaji Science College | Studying Chemistry, Botany, & Zoology | Top Performer in HSC '23 (87%) & SSC '21 (99.60%) | Building a Strong Foundation for the Future
🌿 Green Chemistry: Paving the Way for Sustainable Science 🌿 As chemists, we have a unique opportunity to contribute to a sustainable future. Here are some key principles and innovations in green chemistry: 🌍 Atom Economy: Designing chemical processes that maximize the incorporation of all materials used in the process into the final product. ♻️ Less Hazardous Chemical Syntheses: Using and generating substances with little or no toxicity to human health and the environment. 🌱 Use of Renewable Feedstocks: Prioritizing the use of raw materials derived from renewable sources. 🔄 Catalysis: Employing catalysts to reduce energy consumption and waste production. 💧 Safer Solvents and Reaction Conditions: Selecting the safest possible solvents and reaction conditions to minimize risk. 🧪 Design for Degradation: Creating chemical products that break down into innocuous substances after use. Let's commit to green chemistry and drive sustainable innovation. What’s your favorite principle of green chemistry and how do you apply it? Follow me on LinkedIn for more insights on sustainable practices in chemistry! 🌟🌿 #GreenChemistry #Sustainability #EcoFriendly #ChemistryInnovation #LinkedInScience
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What is green chemistry? 🧪 Green Chemistry refers to the development and application of chemical products and processes that aim to minimise environmental impact and protect the health of people and ecosystems. The concept was introduced in the early 1990s and is based on 12 principles that provide guidelines for the environmentally friendly design of chemical processes and products. Here are the most important aspects of Green Chemistry: 1. waste prevention 2. sustainable raw materials 3. reduction of hazardous substances 4. energy efficiency 5. use of safe solvents 6. design for degradation 7. avoidance of derivatives 8. integrated prevention 9. catalysis 10. atomic efficiency 11. risk analysis 12. renewable materials #Cosichem #Chemistry #greenChemistry #environment #health #ecosystem #sustainable
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