Events

    Green Catalysis and Sustainable Energy: Promoting Sustainability through Green Chemistry, November 15-16, 2018, Dubai, UAE

  • 15 November 2018 To 16 November 2018
  • Event Host : Conference Series LLC Ltd
  • Event Location : Abu Baker Al Siddique Rd, Deira, near Hamarain Shopping Center Box, Dubai, 16590, United Arab Emirates
UAE
Event Description

Green Catalysis 2018 invites all the scholars, researchers from all over the world to attend and present their respective scientific research at “Annual Conference on Green Catalysis and Sustainable Energy” held November 6-7, 2018 at Dubai, UAE which includes prompt Keynote presentations, Oral talks, Poster presentations, Delegate views, and Exhibitions.

Green Catalysis 2018 conference is all about providing a resourceful and knowledgeable ground for the associates in the field of Green Catalysis Research, Green Chemistry Application, and Sustainable resources in the latest generation. As the theme of the conference relates it serves as a global platform to converse concerning the current developments, recent advances, new approaches and future approaches in the field of Chemistry Research. Attempts are to provide a perfect stage to share knowledge and experiences and encourage people to carry out effective researches and works to combat the Chemistry Research & its application. It is all about Inspiring and get Inspired!! We have research expertise from different parts of the world coming to share their latest research works in the field of Chemistry Research, Chemical Engineering science. And to inspire the young minds we are glad to present a special category - The Young Researcher Forum (YRF).

Green Catalysis 2018 Conference purpose is to fill your head with the knowledge you can use: ideas, new trends, amazing ingenuity. Our focus is on Sustainable Development and Green Technologies, which we believe are foundational to the success of individual organizations as well as our cities, states, nations, and world. Attendees come to Green Catalysis Conference to learn from experts in their community and leave.

Meet Inspiring Speakers and Experts at our 3000+ Global Events with over 600+ Conferences, 1200+ Symposiums and 1200+ Workshops on Medical, Pharma, Engineering, Science, Technology and Business.

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Track 1: Green chemistry and catalysis
Green chemistry otherwise called as sustainable chemistry, which is part of chemistry and chemical engineering focused on designing products and by minimizing the generation and use of hazardous substances .whereas, environmental chemistry focuses on the effects chemicals polluting the nature, green chemistry focuses on technological ways to prevent pollution and by reducing the consumption of non-renewable resources.

Catalysis is the defined as the substance which only alters the rate of the reaction without changing is nature. In order to achieve objectives of the Green chemistry, catalysis plays a fundamental role. The main goal of green chemistry is to provide an eco-friendly, reusable, recyclable and minimum waste production and green catalysis design the chemical products in a way that reduces or eliminates the use and generation of hazardous substances.

Homogenous and Heterogeneous Green catalysis
Application of green chemistry in Catalysis
Green chemistry and Organocatalysis
Biocatalysis
Green Chemistry catalysis and sustainable energy development.

Track 2: New Trends in Green Chemistry
Green chemistry is a new trend to design safer chemicals and processes. It minimizes the negative impact of chemicals on the environment and helps in accomplishing sustainability in the generation of chemicals. The trends in green chemistry provide huge opportunity in exploring inventiveness in the attaining sustainability in the various fields of biochemistry, geochemistry, physics, organic chemistry and other allied fields to promote awareness and facilitate the practice of green chemistry which includes

Reduction in sources
Incorporate early Sustainability in the design process
To Create Industrial Processes that Avoid Hazard Problems
Development of environmentally friendly chemicals and materials
Analysis of the eco-toxicological and environmental effects of biomass processing
Use of the environmentally organic Solvent system
Regenerating of Waste materials
Track 3: Design of Next Generation Catalysis
Catalysis is the key to sustainability. The application of catalysis is to reduce the toxicity and renewable energy systems, and efficiency makes it a great area of research in green chemistry. Green and sustainable catalysts possess high adaptability and highly effective catalytic performances are stable and less expensive when compare to the expensive metals catalysts. The recent development of catalysts in replacing the conventional ones made a significant reduction in environmental pollution. Some catalysts are Nanocatalysts, green catalysts and perovskite-type catalysts are used in the advanced oxidation processes.

Catalysis for Sustainability
Catalysis of Plant-Based Chemicals and Fuels
Bio catalysis including Novel Enzymes
Phase-Transfer Catalysis
Photo catalysis
Track 4: Nanotechnology and Green catalysis
Green nanotechnology has a significant effect on developing 'green' and 'clean' technologies with significant environmental benefits. The two main goals of this technology are to produce nanomaterial and Nano products by using the principle of green chemistry and green engineering, without any toxic ingredients, at low temperatures using less energy. Development in Nanocatalysts is one of the most advanced and the latest research in Nanotechnology as it has proved to be highly fruitful in catalysis technology as nanomaterial have high surface area and any material behave differently in Nano state and these characteristics are utilized for the design of Nanocatalysts.

Isolation and recovery of Green Nanocatalysts are one of the biggest issues in modern days and research is still going on. To overcome this problem magnetic nanoparticle has immersed as they are insoluble and paramagnetic in nature which makes easy and efficient in the separation of the catalyst.

Green Nanotechnology Synthesis
Immerging materials for Green Catalysis
Organocatalysis: Key Trends in Green Synthetic Chemistry
Cleaning Up Oil Spills
Solar cells
Nano remediation and water treatment
Environmental remediation
Nanofiltration
Track 5: Green Synthesis designing
In a synthesis of a target molecule, under appropriate conditions, the starting materials are made to react with a reagent. Until the final result, all the possible methods are considered that can give the desired product. The same product can also be obtained by modifying the conditions. The method of choice should eliminate the use of toxic materials and avoid waste materials and by-products. Most synthesis use petrochemicals which are a non-renewable energy source.so use of alternative like agricultural biological origin eg; corn, potatoes, soya are transformed through various processes into textiles and nylon.

Choice of raw material
Choice of reagents
Choice of catalysts
Choice of reagents
Track 6: Biocatalysis
Biocatalysis is the main Green chemistry technology which adopts its application by producing fine chemicals and pharmaceuticals with higher yield. Biocatalysis is the chemical process which uses biological or natural enzymes such as proteins or organic components. These enzymes are either isolated or reside inside the living cells. Biocatalysts are fast, consume less time and yield a high specific product. The three major selectivities of biocatalysts are

Chemoselectivity
Regioselectivity and diastereoselectivity
Enantioselectivity
Track 7: Green Chemistry in Pharmaceuticals
The process provides an innovative way to traditional extractive procedures and highlights the increasing biotechnology applications in greener drug manufacturing. With improved process conditions and incorporating Green chemistry in the synthesis of active pharmaceutical ingredients is the importance of the pharmaceutical industry. Biocatalysis, solvent reduction and replacement are the same tools used in optimizing active pharmaceutical ingredient syntheses. With the applications of this technology synthetic oligonucleotide are emerging as a class of drug molecules with a broad spectrum in therapeutic application.

Track 8: Green catalysis in Petrochemical Industries
Green chemistry and green catalysis principles play a key role in developing a number of chemicals but in an alternative way from petroleum and other non-renewable sources of energy. With growing advancement in the field of biotechnology, genetics, chemistry, and engineering leading to a new concept for converting renewable biomass into valuable products and fuels through innovations by producing bio-based chemicals, which is a result of a coupling reaction of chemical and biological products.

Track 9: Green catalysis and Pollution control
Pollution control is a process of reduction or elimination of waste at the source level by modifying the production process by using less or non-toxic substances, by implementing new conservation techniques and reusing of materials rather than releasing into water bodies or land. Pollution control is an environmental management which means the control of effluents and emission of wastes in water, air, and soil. By the application of green chemistry, the hazardous chemicals are eliminated at the molecular level.

Track 10: Green chemistry metrics
Green chemistry metrics measure the aspects of a chemical reaction in relation to Green chemistry and quantify the effect of the environmental performance of a chemical process which in turn allows the changes in performance to be measured.

Effective mass yield
Carbon efficiency
Atom economy
Reaction mass efficiency
Environmental (E) factor
Track 11: Green chemistry catalysis and fuel cell
A fuel cell is one of the tools for converting the sustainable energy sources like solar radiation, wind, and biomass into a usable form of energy. Fuel cells are the devices which convert chemical energy into one form or other because of the efficiency and ability to harvest energy from the diverse source. The fuel cells are one of the keys to sustainable power generation and are used in space shuttles to generate water and electricity required for the mission. Green catalysis and fuel cell technology offer the opportunity to eliminate expenses by providing electricity in an efficient manner and make use of waste by-products which is produced in a treatment process.

Track 12: Green chemistry catalysis and Sustainable energy
Application of Green chemistry and its application strongly support the development of greener concepts in process parameters, selection of compounds and resulting environmental aspects. Successful implementation of green chemistry research helps in analyzing of new and existing green chemistry technologies are improving the environmental impacts of chemical products and processes with qualitative and quantitative benefits to the environment.

Track 13: Green energy
Green energy also referred as Renewable energy are the energy that that are originated from natural sources such as sun, water, wind rain, waves, tides, plants, geothermal heat and many more. The energy generated from these resources is Clean, Varied, Renewable, Stable, and Inexpensive, which makes it more effective and demanding. The energy from these resources is utilised readily for purposes such as generating electricity, water heating, solar cooling, and a variety of commercial and industrial uses. The development in renewable energy technology has increased the efficiency of energy production by the renewable resources and at the same time it has also decreased the dependence on non-renewable sources like oil, gas, coal and utility which gets depleted with use.

Solar Energy
Hydropower
Wind Energy
Geothermal Energy
Ocean Energy
Bioenergy
Track 13: Green economy
The green economy strives to use alternative methods to promote sustainability in the reduction of energy and demand of raw materials, to prevent environmental pollution, to reduce Greenhouse emission, minimize waste by conversion of industrial wastes by microbial actions and effective recycling of wastes and by-product. The global market for Green economy technology has grown for years. The fastest growing sector includes energy storage, transportation, energy generation, energy efficiency, recycling and waste treatment. The emphasis on green economic growth provides an opportunity for the advancement of Green chemistry approaches.


  • Host Company/Organization Name
    • Conference Series LLC Ltd
  • Event type
    • Conference

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