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Theme : Innovation and Technologies in Chemical Engineering and Catalysis

ABOUT CONFERENCE

On behalf of the Organizing Committee and Advisory Board, we take immense pleasure in inviting Chemists and Chemical Engineers from academia and industry, young researchers and experts in Catalysis in Barcelona Spain at World Conference on Chemical Engineering and Catalysis (ECC 2020) during July 27-29th, 2020 at Toronto, Canada. 
ECC2020 will be a platform to discuss a broad range of topics related to Catalysis and Chemical Engineering for the academicians, scholars, investigators, Chemical Engineering Researchers, industrialists and associated experts in the field of Catalysis and Chemical Engineering from all over the globe for sharing familiarity, exchanging ideas, collaborate and to showcase their research results about all features of their work and application experiences, to establish research or business relations, and to find global partners for future relationship in the field of Catalysis and Chemical Engineering
The main aim of ECC2020 is to become a global communications for the world-renowned researchers to exchange top-notch research findings with one another with its in-depth discussions ranging from a comprehensive understanding to the applied methods. 

Scope of the Conference: 
Wide range of presentations in the fields of heterogeneous catalysis, homogeneous catalysis, synthesis, organometallics, electrochemistry, photochemistry, energy, fuels, environment, polymer discovery, drug discovery, material science, nanotechnology etc. in both experimental and theoretical research. For the details on sessions and session chairs please have a look into the scientific session’s page. 

Why to attend: 
This  Chemical Engineering and catalysis conference provides exposure to the on-going researches in Catalysis & Chemical Engineering and other related fields of science. It will also provide insight to the inventions and techniques. And Catalysis Conference is extremely beneficial for the scholars and fellowship owners due to the knowledge it provides about the sector. It also gives opportunities to the businesses to showcase their products and have face to face meetings with scientists. 
The Catalysis Conference may be a platform for Chemical students, faculty, deans, researchers, and leaders to collaborate on topics affecting Chemical Engineering. Attendees can: Take advantage of opportunities to learn about Chemical Engineering education research from a variety of oral and poster presentations. 

Target audience: 
 • Catalysis Researchers 
• Aspiring Chemical Engineers 
• Chemical Engineering Companies 
• Research faculties 
• Academic Scientists 
• Chemical Engineering Students 
• Biochemical Engineers 
• Chemical Engineering Associations, Societies and laboratory professionals 
• Business Entrepreneurs 
• Brand Manufacturers/ Marketers of Consumer Products 
• Marketing, Advertising and Promotion Agency Executives 
• Start-ups & Exhibitors 
• Software Developing Companies 
• Petroleum Engineers 
• Young Researcher Forum 

Scientific sessions: 
Track: 1 Chemical Engineering: 
Chemical engineering is a branch of engineering that uses principles of chemistry, physics, arithmetic’s, biology, and economics to expeditiously use, produce, design, transport and rework energy and materials. Chemical engineers square measure concerned in several aspects of plant design and operation, as well as safety and hazard assessments, process design and analysis, modeling, management engineering, chemical reaction engineering, nuclear engineering, biological engineering and construction specification. 
Related Societies: European Federation of Chemical Engineering |Catalysis of Society| National Organization for the Professional Advancement of Professional Black Chemist & Chemical Engineering 
Track: 2 Synthetic Chemistry Techniques: 
The study of the connection between structure and reactivity of organic molecules is Synthetic Chemistry. A study on how to build complex organic compounds from simple ones, is the main aim of Synthetic Chemistry. Generating organic compounds of economic means is that the application of Synthetic Chemistry. The structure of organic molecules is studied by applying physical chemical science onto the experimental tools of chemical science. These studies provides a theoretical framework that interprets however Synthetic Chemistry structure influences each mechanisms and rates of organic reactions. The research in Synthetic Chemistry will enable us to develop new strategies for enantioselective catalysis, C-H bond activation, the conversion of renewable resources to new feedstocks and fuels and for energy-efficient synthesis routes. The power of chemical and bio catalysis, is utilized in the context of biomedical research, in the area of sustainable energy, to develop sustainable chemical synthesis strategies. 
Related Societies: American Institute of Chemical Engineers | Institution of Chemical Engineers| Indian Institute of Chemical Engineers 
Track: 3 Catalysis for Renewable Sources: 
Renewable energy source is vitality that's gathered from renewable resources, which are normally renewed on a person's timescale, for instance, daylight, wind, rain, tides, waves, and geothermal heat. Renewable energy source frequently gives vitality in four 
• Wind power 
• Geothermal energy 
• Solar energy 
• Wind power development 
• Hydropower 
Related Societies: American Chemical Society| Association of Energy Engineers | Society for the Advancement of Material & Process Engineering 
Track: 4 Green Chemistry: 
Green chemistry, additionally known as Sustainable chemistry, is a district of chemistry and chemical engineering centered on the planning of product and processes that minimize or eliminate the utilization and generation of venturous substances. Whereas environmental chemistry focuses on the consequences of polluting chemicals on nature, inexperienced chemistry focuses on the environmental impact of chemistry, together with reducing consumption of unrenewable resources and technological approaches for preventing pollution. Green Chemistry Prevents pollution at the molecular level and may be a philosophy that applies to any or all areas of chemistry but not one discipline of chemistry which applies innovative scientific solutions to real-world environmental issues. 
Related Societies: Canadian Society for Chemical Engineering | National Society of Professional Engineers| European Association of Catalysis Societies 
Track: 5 Catalysis & Nanotechnology: 
Nanotechnology and Nanoscience include the capacity to ascertain and to regulate individual particles and atoms. Everything on Earth is comprised of atoms—the food we eat, the garments we wear, the buildings and houses we live in, and our own bodies. Catalysts, heterogeneous, homogeneous and chemical, are generally nanoparticles. Enthusiasm for nanoscience and nanotechnology was centered consideration round the chance to form catalysts that gives 100% result for the selected items, hence removing byproducts and wiping out waste. Regenerative nanomedicine is one of the medical applications of nanotechnology. It ranges from the medical applications of nanomaterials to Nano electronics biosensors, and the future uses of sub-atomic nanotechnology, for example, natural machines. Nanomedicine deals came to $16 billion out of 2015, with at least $3.8 billion in nanotechnology R&D being contributed each year. 
Related societies: National Catalysis Societies| Society of Chemical Engineers | Danish Chemical Society 
Track: 6 Catalysis for Energy: 
Catalysis has turned into a key issue in tackling a considerable lot of the present energy challenges. Multidisciplinary advances from chemistry, physics and materials science have given profound knowledge into catalyst synthesis, structural and compositional alteration, and robotic comprehension with sub-atomic and nuclear level exactness. At the nanoscale, the surfaces or interfaces of a catalytic material structure strongly impact the physical and compound properties of the material because of high surface-to-volume proportion. One of the specialized examination, describes the mechanical assembly as a "procedure and hardware to urge exothermal reactions, specifically from nickel and hydrogen". The gadget worked by implanting heated hydrogen into nickel powder, transmuting it into copper and delivering abundance heat. 
• Catalysis for Sustainable Energy 
• Chemical reaction engineering 
Related Societies: Mexican Institute of Chemical Engineers | Ethiopian Society of Chemical Engineers | Canadian Society for Chemical Technology 
Track: 7 Heterogeneous catalysis: 
A catalyst is another substance than reactants product extra to a reaction system to change the speed of a chemical process approaching an equilibrium. It interacts with the reactants in a very cyclic manner promoting maybe several reactions at the atomic or molecular level, however it's not consumed. One more reason for employing a catalyst is that it promotes the assembly of a particular product. A catalyst that's in a very separate section from the reactants is alleged to be heterogeneous, or contact, catalyst.  
Contact catalysts are materials with the potential of sorb molecules of gases or liquids onto their surfaces. An example of heterogeneous chemical change is that the use of finely divided platinum to catalyse the reaction of carbon monoxide gas with oxygen to make CO2. This reaction is employed in catalytic converters mounted in automobiles to eliminate carbon monoxide gas from the exhaust gases. 
Related societies: International Associations of catalysis societies | Czech Society of Chemical Engineering | Joint Bioenergy Institute   
Track: 8 Analytical Methodologies: 
An understanding of attraction dipoles and also the various sorts of non-covalent unit forces to elucidate on a molecular level and lots of evident physical properties of organic compounds. Throughout this section, we square measure progressing to specialize in solubility, melting point and boiling purpose. Boiling happens once the chance of heat turning into internal energy and work to carry out vaporization becomes up to the chance of the reverse pathway. The boiling thermal property is higher the stronger the unit attractions as a results of the stronger the static force of attraction, the ton of energy is required to separate the particles and therefore the larger the static P.E. increase associated with vaporization. Ion-Ion forces or attractions area unit the strongest. They entail the attraction between species bearing a minimum of a full charge and a species bearing a minimum of a full charge. 
Related societies: Sandia National Laboratories | European Federation of Chemical Engineering| Catalysis of Society 
Track: 9 Nuclear Chemistry: 
Nuclear chemistry is that the sub-field of chemistry handling radioactivity, nuclear processes, and transformations within the nuclei of atoms, like nuclear transmutation and nuclear properties. It is the chemistry of radioactive elements like the actinides, radium and radon alongside the chemistry related to equipment which are designed to perform nuclear processes. This includes the corrosion of surfaces and therefore the behavior under conditions of both normal and abnormal operation. An important area is that the behavior of objects and materials after being placed into a nuclear waste storage or disposal site. 
Related Societies: National Organization for the Professional Advancement of Professional Black Chemist & Chemical Engineering | American Institute of Chemical Engineers | Institution of Chemical Engineers 
Track: 10 Radio chemistry:  
Radio chemistry is that the chemistry of radioactive materials, whatever radioactive isotopes of components are used to study the properties and chemical reactions of non-radioactive isotopes. Abundant of nuclear chemistry deals with the employment of radiation to check standard chemical reactions. This is often terribly totally different from radiation chemistry wherever the radiation levels are unbroken too low to influence the chemistry. 
Related Societies: Indian Institute of Chemical Engineers| American Chemical Society| Association of Energy Engineers 
Track: 11 Catalysis and Applications:  
Catalysts are substances which, when added to a response, increment the rate of reaction by furnishing other response pathway with a lower activation energy. They do this by advancing legitimate introduction between responding particles. In natural chemistry, catalysts are known as chemicals. Catalysis impacts the world by expanding the proficiency of mechanical procedures, however catalysis additionally assumes an instantaneous part in nature. There is reactant part of chlorine free radicals in the breakdown of ozone. These radicals area unit framed by the activity of bright radiation on chlorofluorocarbons. A standout amongst the clearest uses of catalysis is that the hydrogenation of fats utilizing nickel catalyst to create margarine. Numerous different foodstuffs are prepared through bio catalysis. 
• Electro catalysts 
• Homogeneous catalysts 
• Nano catalysts 
• Tandem catalysis 
• Autocatalysis 
Related Societies: Society for the Advancement of Material & Process Engineering| Canadian Society for Chemical Engineering | National Society of Professional Engineers 
Track: 12 Environmental Catalysis:  
Environmental catalysis plays a crucial role in sustainable development by the design of novel catalytic materials and technologies. Several environmental issues are addressed by catalytic processes such as decomposition of pollutants for air, water and soil remediation, hydrogen production, CO2 reduction and biomass valorization, just to name a few. This contribution aims to provide a general overview of the main concepts and current advances in the environmental catalysis field. Special attention has been paid to photo catalysis and electro catalysis, as sub-areas of catalysis with tremendous potential in sustainable applications, in particular with regard to the promotion of sustainable energies. In this contribution, the partnership between Catalysis and Green Chemistry is presented, in a comprehensive way, as an open research line which is imperative and decisive for a more sustainable future. 
Related Societies: European Association of Catalysis Societies | National Catalysis Societies | Society of Chemical Engineers 
Track: 13 Photo chemistry and Electrochemistry: 
Photochemistry and electrochemistry are two powerful tools in organic synthesis as reflected by the recent resurgence of both research areas. Despite the impressive advances achieved so far, both synthetic technologies suffer from innate disadvantages. The constructive merging of photochemistry and electrochemistry, therefore, offers the potential to overcome the distinct flaws of one method through the advantages of the other, so that novel reaction pathways that are unachievable with individual methods can be envisioned. This Highlight article describes recent breakthroughs using this promising concept of merging photochemistry with electrochemistry in organic synthesis. 
Related Societies: Danish Chemical Society| Mexican Institute of Chemical Engineers | Ethiopian Society of Chemical Engineers 
Track: 14 Catalysis and Zeolites:  
Zeolites square measure the foremost necessary heterogeneous catalysts with varied large-scale applications together with cracking, petro chemistry, fine chemical synthesis, and environmental protection. This themed issue evidences the many impact of zeolites in catalysis, new trends in catalytic applications of zeolites and their potential in catalysis.Zeolites are used as catalysts in petrochemical industries for cracking of hydrocarbons and isomerization. An important zeolite catalyst utilized in the petroleum industry is ZSM-5. It converts alcohol directly into gasoline (petrol) by dehydrating them to give a mixture of hydrocarbons. Electron microscopic investigations of zeolites are reviewed. Scanning microscopy can show the looks of zeolite crystals, e.g. their sizes and morphologies, and may even be wont to check out the cores of crystals revealing any abnormal microstructures, which frequently help us to elucidate actual crystal growth mechanisms. 
Related Societies: Canadian Society for Chemical Technology | International Associations of catalysis societies| Czech Society of Chemical Engineering 
Track: 15 Catalytic Materials:  
Catalytic materials are those solids that alter the substance response to happen proficiently and cost-adequately. Photocatalytic properties of metal oxide nano particles enriched with metallic element clusters which show great oxidative properties upon illumination with UV or light. Our materials support chemical reactions which will degrade organic contaminants and other pollutants, as well as pathogens. Porous materials consisting of organic linkers connected by metal ions offer framework scaffolds for heterogeneous catalysis that relies on the organic, or inorganic elements. 
Related Societies: Joint Bioenergy Institute| European Federation of Chemical Engineering| Sandia National Laboratories 
Track: 16 Separation Processes in Chemical Technology:  
Chemical Engineering separation method is that the mass transfer that converts the substance mixture into specific product mixtures. In some cases, a separation could absolutely divide the mixture into its pure constituents. Separation Techniques are conducted supported the variations between chemical properties, or physical properties like size, shape, mass, density and chemical affinity, between the constituents of a combination, and are typically differentiated in keeping with the precise variations they use to attain. The Separation method within the chemical engineering includes adsorption, Capillary electrophoresis, centrifugation and cyclonic separation, Crystallization, Decantation, Distillation, Drying, static Separation, Elutriation, Evaporation, Extraction, Field flow Fractionation, Magnetic separation, Precipitation, Recrystallization. 
Related Societies: Catalysis of Society| National Organization for the Professional Advancement of Professional Black Chemist & Chemical Engineering| American Institute of Chemical Engineers 
Track: 17 Advances in Catalysis:  
All aspects of chemical action and includes heterogeneous and unvaried chemical action, and biocatalysts. Fashionable investigation of chemical process reactions needs a multi-technique approach wherever every experimental tool, also as theoretical models, offer specific data 
• Chemical Catalysis 
• Applied Catalysis 
• Thermodynamics Catalysis 
• Homogenous and heterogenous catalysis 
• Photoelectrocatalysis 
Related Societies: Institution of Chemical Engineers| Indian Institute of Chemical Engineers| American Chemical Society 
Track: 18 Organometallics and Organocatalysis: 
Organometallic chemistry explores the chemistry of the usually be wildering sort of compounds featuring metal-carbon bonds. A field that has underpinned the development of new synthetic methods and materials, it is also central to our understanding of catalysis. Organometallic compounds are wide used each stoichiometrically in analysis and industrial chemical reactions. The novel metal free catalysts are referred to as organocatalysts, for the synthesis of industrially relevant products with carbon dioxide as a C1-building block. Combining those catalysts with metal-catalyzed or enzyme-catalyzed procedures in one pot reactions leads to innovative and sustainable catalytic systems with high selectivity and energy efficiency respectively. These alternative methods, taking steps in the upstream and downstream phases, are targeted at changing and extending the raw material base, utilizing CO2. 
• Organic chemistry 
• Inorganic chemistry 
• Novel Organocatalyzed
• Reforming Other Petroleum Refining Catalysts 
Related Societies: Association of Energy Engineers | Society for the Advancement of Material & Process Engineering| Canadian Society for Chemical Engineering 
Track: 19 Enzyme and Microbial Technology: 
Enzymes are the biological substance or organic macro molecules are created by a living organism which matches about as a catalyst to realize a particular biochemical reaction. These resemble the chemical catalysts during a compound reaction which accelerate the organic/biochemical reactions inside and also outside the cell. Enzymes are the massive biomolecules that are required for the varied compound interconversions that sustain life. They quicken all the metabolic procedures in the body and do a specific task. Enzymes are very effective, which may expand reaction rates by 100 million to 10 billion times speedier than any ordinary chemical reaction. Enzyme engineering or protein engineering is the way toward planning proteins or catalysts by alternating the arrangement of amino acids through recombinant deoxyribonucleic acid transformation. 
Related Societies: National Society of Professional Engineers| European Association of Catalysis Societies | National Catalysis Societies 
Track: 20 Biocatalysis and Biotransformation: 
The impact of bio catalysis within the future are going to be the enlarge of ability to use enzymes to catalyse chemical reactions in industrial processes, as well as the manufacture of drug material, flavors, fragrances, electronic chemicals, polymers—chemicals that virtually impact nearly each side of your life. It’s become a substitute methodology of selection for the production of fine chemicals at high yields and glorious property beneath delicate reaction condition. 
 • Biotransformation of xenobiotics 
• Proteomics and Enzymology 
• Biocatalysis and Agricultural Biotechnology 
• Natural Catalysts
• Drug Metabolism and Disposition 
Related Societies: Society of Chemical Engineers | Danish Chemical Society| Mexican Institute of Chemical Engineers 
Track: 21 Chemical Kinetics and Catalysis: 
Chemical kinetics is key for understanding various procedures, for instance how food is metabolized, how pharmaceuticals assume a delightful part in the biological system, and how pollutants which are delivered by gas ignition are changed over for release into the air. Chemical Kinetics and Catalysis addresses this difficulty and provides a appropriate content to the up and coming generation of researchers during this field. The atomic expansion of hydrogen particle to ethylene may be a prototype of symmetry forbidden reaction. Besides, late hypothetical computations have demonstrated that the obstruction for a lessened symmetry path isn't high, therefore in this procedure catalysis for the response is in particular. 
• Deterministic kinetics 
• Towards computational catalyst design 
• Bonding of adsorbates on surfaces 
• Mechanisms for prototypical catalytic processes 
Related Societies: Ethiopian Society of Chemical Engineers | Canadian Society for Chemical Technology| International Associations of catalysis societies 
Track: 22 Homogeneous catalysis, Molecular Catalysis:  
In chemistry, homogeneous catalysis will be catalysis in a solution by a solvent catalyst. Entirely, homogeneous catalysis alludes to catalytic reactions where the catalyst is within the same stage from the reactants. 
Homogeneous catalysis applies to reactions within the gas stage and even in solids. Control over the local chemical environment condition of a particle can be accomplished by encapsulation in supra molecular host systems. In supra molecular catalysis, this control is employed to realize preferences over established homogeneous catalysis in bulk arrangement. Two of the fundamental points concerns impacting reactions as far as substrate and product selectivity. Because of size and additionally shape recognition, substrate selective transformation are often found out. 
Related Societies: Czech Society of Chemical Engineering | Joint Bioenergy Institute | Sandia National Laboratories 
Track: 23 Advanced synthesis, Catalytic systems and new catalyst designing:  
Catalysis is that the expansion within the rate of an artificial response due to the cooperation of an additional substance called a catalyst. As a rule, responses happen speedier with a catalyst since they need less enactment vitality. 
• Heterogeneous catalytic process 
• Catalyst formulation and preparation methods 
• Catalysts characterization methods 
• Design of catalysts and simulation techniques 
• Mechanism of catalytic reactions 
• Organocatalysis 
• Raman spectroscopy 
Related Societies: European Federation of Chemical Engineering| Catalysis of Society| National Organization for the Professional Advancement of Professional Black Chemist & Chemical Engineering 
Track: 24 Chemical Synthesis & Catalytic Synthesis:  
This field of study amalgamates facet of organic, organometallic, and inorganic chemistry. Synthesis forms a substantial component of most programs during this area. Mechanistic scrutiny is usually undertaken to get how an unexpected product is made or to rearrange the recital of a catalytic system. Because synthesis and catalysis are essential, to the development of latest materials, Catalysts are more and more employed by chemists busy in fine chemical synthesis among each trade and academia. Today, there prevail large decisions of high-tech catalysts, which add hugely to the repertoire of artificial prospects. However, catalysts are intermittently fickle, sometimes grueling to use and almost always require both skill and experience in order to achieve optimal results. 
• Catalyst for Organic Synthesis Reaction 
• CBS Catalysts for Chemical Synthesis 
• Safety and Reliability 
• Risk Management 
• Advanced Oxidation Process 
Related Societies: American Institute of Chemical Engineers| Institution of Chemical Engineers| Indian Institute of Chemical Engineers 
Track: 25 Petroleum & Petrochemical Engineering:  
Petrochemicals are chemical products developed from Petroleum. Some chemical compounds made up of Petroleum also are obtained from fossil fuels, like coal or gas, and renewable sources like corn or sugar cane. The most common petrochemicals are olefins and aromatics, Synthesis gas. Petroleum refinement processes are nothing, however Chemical Engineering processes utilized in crude refineries to alter oil into helpful product like Liquefied crude Gas, gasoline, kerosene, jet fuel, diesel oil, and fuel oils. 
Related Societies: American Chemical Society| Association of Energy Engineers | Society for the Advancement of Material & Process Engineering
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MARKET RESEARCH


Current cost of making chemical plants and the uncertainty of future market demand has increased the risk associated with new investment. The major factor of affecting project returns is the future sales volume of the product. Market Research assists assessment of this and provides a major input to project decision making. Other chemical producers/manufacturers also provide chemicals to consumers through the use of many synthesis and production methods, which are combined through related chemical outputs and inputs. 
In 2019 chemicals, including pharmaceuticals, it became the second largest industry in Spain, resulting for 13.4% of manufacturing gross product. It generated value of about €20 billion on sales of €65 billion outpaced.

WHY TO ATTEND?


This Catalysis, Chemical Engineering conference provides exposure to the on-going researches in Catalysis & Chemical Engineering and other related fields of science. It will also provide insight to the inventions and techniques. And Catalysis Conference is extremely beneficial for the scholars and fellowship owners due to the knowledge it provides about the sector. It also gives opportunities to the businesses to showcase their products and have face to face meetings with scientists. 

The Catalysis Conference may be a platform for Chemical students, faculty, deans, researchers, and leaders to collaborate on topics affecting Chemical Engineering. Attendees can: Take advantage of opportunities to learn about Chemical Engineering education research from a variety of oral and poster presentations.

REGISTRATION

699

Plenary Speaker

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799

Delegates

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399

PhD Students (Below 30 Years)

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Great Event Schedule

Time Session
9:00-9:15 Registrations
9:15-9:30 Keynote Forum Opening Ceremony
9:30-11:30 Session Keynote Forum
11:30-11:45 Networking and Refreshment Break
11:45-13:00 Sessions
13:00-13:40 Lunch Break
13:40-15:30 Sessions
15:30-15:45 Networking and Refreshment Break
15:45-17:45 Sessions
17:45-18:00 Panel Discussion
Time Session
9:30-11:30 Session Keynote Forum
11:30-11:45 Networking And Refreshment Break
11:45-13:00 Sessions
13:00-13:40 Lunch Break
13:40-15:30 Sessions
15:30-15:45 Networking And Refreshment Break
15:45-17:45 Sessions
17:45-18:00 Panel Discussion
Time Session
9:15-10:45 Keynote Forum
10:45-11:15 Networking And Refreshment Break
11:15-13:00 Sessions
13:00-13:45 Lunch Break
13:45-15:30 Sessions
15:30-15:45 Networking And Refreshment Break
15:45-17:00 Poster Presentations And Panel Discussion
Time Session


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