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Global Congress on Advancements in Catalysis and Chemical Engineering Proce...

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Global Congress on Advancements in Catalysis and Chemical Engineering

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Pulsus Group performs 1000+ Global events annually, is delighted to welcome all the interested and enthusiastic participants across the globe to the prestigious Conference on “Global Congress on Advancements in Catalysis and Chemical Engineering Process” during August 27-28, 2018 at Madrid, Spain. Catalysis 2018 highlights the theme “Meeting the Challenge in the field of Chemical Engineering”.

Catalysis Conference provide a worldwide stage for trading most recent developments in the field of Chemical Engineering and offering opportunities to go to the presentations conveyed by eminent experts from everywhere throughout the globe. Participating in Catalysis Congress gives an approach to meet, cooperate with, and make contacts with different specialists in your claim to fame region. Most meetings will have creators, analysts, who are perceived specialists in the field. A catalysis conference unites people who have an enthusiasm for various fields of Chemical Engineering.

Chemical engineering is a multidisciplinary branch of applied engineering consisting of the application of physical science (Chemistry & Physics), life sciences including biochemistry with applied mathematics and economics to produce transform and use of chemicals, molecules materials, energy to make the whole production process successful with economic benefits. Basically it is the applied engineering dealing with the production process of chemical and biochemical products including design of process, plant, raw material processing, products formation, optimization, operation.

The product of chemical engineering ranges from basic chemical product to food and pharmaceutical having high economic value with greater sustainability. The advanced chemical process include some more interdisciplinary fields like nanotechnology, bioengineering, bimolecular engineering, material processing or meteorology and industrial design also. Chemical engineering is one of the booming fields of the advanced applied engineering with worldwide application in our day to day life

Pulsus Group performs 1000+ Global events annually, is delighted to welcome all the interested and enthusiastic participants across the globe to the prestigious Conference on “Catalysis 2018” going to held during August 27-28, 2018. Madrid, Spain

Target Audience

Aspiring Chemical Engineers
Chemical Engineering Companies
Research faculties
Academic Scientists
Chemical Engineering Students
Biochemical Engineers
Polymeric Engineers
Chemical Engineering Associations and Societies
Chemical laboratory professionals
Business Entrepreneurs
Industry professionals
Directors/Managers/CEO’s
Presidents & Vice Presidents
Brand Manufacturers/ Marketers of Consumer Products
Marketing, Advertising and Promotion Agency Executives

Who Should Attend?

Chemical Engineering Students, Scientists and professors
Chemical Engineering Researchers
Biochemical and Polymer Professors
Chemical Engineering Faculties
Chemical Engineering Colleges
Chemical Engineering Associations and Societies
Business Entrepreneurs
Software Developing Companies

Why to Attend???

The conference provides exposure to the on-going researches in Catalysis and related science. It will also provide insight to the inventions and techniques. And Catalysis Conference is very beneficial for the students and fellowship owners because of the knowledge it provides about the field. It also gives opportunities to the companies to showcase their products and have face to face meetings with scientists.

The Catalysis Conference is 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.

TRACK CATEGORIES
The track category is the heading under which your abstract will be reviewed and later published in the conference printed matters if accepted. During the submission process, you will be asked to select one track category for your abstract.

Track 1 : Chemical Engineering
Chemical Engineering deals with considering and designing the processes starting with experimentation in the lab took after by execution of the innovation in full-scale creation. Chemical engineering involves the study of plant design and operation, including safety and hazard assessments, process design and analysis, control engineering, chemical reaction engineering, construction specification and operating instructions. Chemical Reaction Engineering includes sorting out plant procedures and conditions to guarantee ideal plant operation to develop models for reactor process outline and investigation. Numerous uses in everyday life like elastic, plastic, concrete, sugar, detergents, the major key factor of our daily life which is petroleum and so on.

  • Track 1-1Petrochemical Engineering
  • Track 1-2Unit Operations
  • Track 1-3Chemical Reactions Engineering
  • Track 1-4Catalysis Engineering

Track 2 : Advanced Catalytic systems
Catalysis is the expansion in the rate of a synthetic response because of the cooperation of an extra substance called a catalyst. As a rule, responses happen speedier with a catalyst since they require less enactment vitality. Moreover, since they are not expended in the catalyzed response, impetuses can keep on acting over and over. Frequently just little sums are required on a basic level. A portion of the biggest scale chemicals are delivered by means of reactant oxidation, frequently utilizing oxygen. Cases incorporate nitric corrosive (from alkali), sulfuric corrosive (from sulfur dioxide to sulfur trioxide by the load procedure), terephthalic corrosive from p-xylene, and acrylonitrile from propane and smelling salts. Many fine chemicals are readied by means of catalysis; techniques incorporate those of overwhelming industry and additionally more specific procedures that would be restrictively costly on a vast scale. Cases incorporate the Heck response, and Friedel-Crafts responses. Since most bioactive mixes are chiral, numerous pharmaceuticals are created by enantioselective catalysis (synergist hilter kilter amalgamation).

  • Track 2-1Heterogeneous catalytic process
  • Track 2-2Catalyst formulation and preparation methods
  • Track 2-3Catalysts characterization methods
  • Track 2-4Design of catalysts and simulation techniques
  • Track 2-5Mechanism of catalytic reactions

Track 3 : Homogeneous and 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 in same stage from the reactants. Homogeneous catalysis applies to reactions in the gas stage and even in solids. Control over the local chemical environment condition of a particle can be accomplished by encapsulation in supramolecular host systems. In supramolecular catalysis, this control is utilized to gain preferences over established homogeneous catalysis in bulk arrangement. Two of the fundamental points concern impacting reactions as far as substrate and product selectivity. Because of size and additionally shape recognition, substrate selective transformation can be figured it out.

  • Track 3-1Supramolecular Catalysis
  • Track 3-2Molecular thermodynamics
  • Track 3-3Theoretical and Computational Science
  • Track 3-4Molecular Catalysis Enzymatic

Track 4 : Heterogeneous catalysis
A catalyst is another substance than reactants products added to a reaction system to alter the speed of a chemical reaction approaching a chemical equilibrium. It interacts with the reactants in a cyclic manner promoting perhaps many reactions at the atomic or molecular level, but it is not consumed. Another reason for using a catalyst is that it promote the production of a selected product. A catalyst that is in a separate phase from the reactants is said to be a heterogeneous, or contact, catalyst. Contact catalysts are materials with the capability of adsorbing molecules of gases or liquids onto their surfaces. An example of heterogeneous catalysis is the use of finely divided platinum to catalyze the reaction of carbon monoxide with oxygen to form carbon dioxide. This reaction is used in catalytic converters mounted in automobiles to eliminate carbon monoxide from the exhaust gases.

Track 5 : Biochemical Engineering
Biochemical engineering is the application of Chemical Engineering in the industrial processes with the help of biological methods such as making use of bilogical organisms or cells. Antibiotics, amino acids and some medicinally important chemicals are synthesised by usage of enzymes and microbes for examples. Sometimes the cells themselves are the final product such as SCP (Single Cell Protein). Fermentation which yields a lot of valuable products is also a biochemical process.

  • Track 5-1Designing Bioreactors like Fermenters
  • Track 5-2Water Treatment
  • Track 5-3Tissue Engineering
  • Track 5-4Genetic Engineering and Immunology

Track 6 : Chemical Polymer Technology
Polymerization is the process of combination of many small biochemical molecules known as monomers into a covalently bonded chain. During the polymerization process, few chemical groups may be lost from each monomer. Polymer Technology is nothing but the manufacture, processing, analysing and application of long chain molecules. Plastics, paints, rubber, foams, adhesives, sealants, varnishes are the materials that are said to be polymers. Nowadays all these polymer products became very essential as we depend on these polymers for our daily day to day life. The industries that makes use of the polymers are information technology, aerospace, music, clothing, medical, motor manufacturing, building, packaging, etc.

  • Track 6-1Physical and Chemical Structures
  • Track 6-2Polymers for Biosensors
  • Track 6-3Bio Composites
  • Track 6-4Bio Elastomers

Track 7 : Biofuels in Chemical Engineering
Biofuel is the easiest available and the purest form of fuel. These fuels are classified into gas, liquid and solid form derived from biomass. The main advantage of biofuels is that they are better than other form of fuels like petrol or diesel that is manufactured by most of the big oil manufacturing companies. Over the world, there has been a phenomenal enthusiasm for biofuels over the previous decade. The primary purpose behind this is the unpredictability in raw petroleum costs, which is influencing the monetary state of numerous nations that don't have critical oil and gas stores to boost their developing economy. A few creating and created economies to consume biofuels to counterbalance the developing natural dangers connected with routine powers.

  • Track 7-1Source of Biofuels
  • Track 7-2Biomass Conversion
  • Track 7-3Four Generation of Biofuels
  • Track 7-4Bioethanol ,Green Diesel,Vegetable Oil, etc
  • Track 7-5Green House Gas Emissions and Air Pollution

Track 8 : Organic Chemistry
The scientific study with the aspect of chemistry which deals with the structure, properties and reactions of the organic matter which is nothing but the matters which contains atleast one carbon atoms in their chemical structure. Organic chemistry is useful in the field of medicine, pesticides, textiles, petroleum etc. Organic chemistry is key which enables us to analyze a substance to its elemental stage. It helps to test a compound for impurities and processes like chromatography and to completely analyze a substance.Not only for the artificial compounds we produce, but also to synthesize naturally occurring substances in large quantities, Organic Chemistry enables us to recreate the required substance in quantities we need with various processes.

  • Track 8-1Structure and Bonding
  • Track 8-2Alkanes, Alkenes and Alkynes
  • Track 8-3Aromatic Compounds
  • Track 8-4Stereochemistry
  • Track 8-5Amines,Ethers and Aldehydes
  • Track 8-6Acid-Base Chemistry

Track 9 : Industrial catalysis
In the chemical industry and industrial research, catalysis assume an essential part. Distinctive catalysts are in consistent advancement to satisfy financial, political and natural requests. When utilizing catalyst, it is conceivable to replace a contaminating chemical reaction with an all the more environmentally friendly alternative. Today, and in future, this can be crucial for the chemical industry. For an organization, a new and improved catalyst can be an enormous preferred standpoint for a competitive assembling cost. It's amazingly costly for an organization to shut down the plant because of a blunder in the catalyst, so the right choice of a catalyst or another change can be critical to industrial achievement.

  • Track 9-1Catalyst for a green industry
  • Track 9-2High temperature Shift (HTS) catalyst
  • Track 9-3Low Temperature Shift (LTS) Catalyst
  • Track 9-4carbon Monoxide

Track 10 : Catalytic Reactions Engineering
Catalytic reactions lie at the center of numerous chemical processes and biochemical procedures. The test research in designing the catalyst is to expand its viability and soundness. Substance response building is the capacity to judiciously outline and control synthetic responses. In this way one ought to comprehend reactor plan, catalysis, and divisions. Seeing how to control the profitability and selectivity of responses for chemical production, contamination decrease, restorative combination, and so forth, is basic for present day ventures and for the change of the human conditions.

  • Track 10-1Steps of Catalytic Reactions
  • Track 10-2Rate Limiting Step
  • Track 10-3Type of Catalyst Deactivation
  • Track 10-4Chemical Vapour Deposition

Track 11 : Catalysis and Zeolites
Zeolites are the most important heterogeneous catalysts with numerous large-scale applications including cracking, petrochemistry, fine chemical synthesis, and environmental protection. This themed issue evidences the significant impact of zeolites in catalysis, new trends in catalytic applications of zeolites and, in particular, their potential in catalysis. Zeolitesis used as catalysts in petrochemical industries for cracking of hydrocarbons and isomerization. An important zeolite catalyst used in the petroleum industry is ZSM-5. It converts alcohols directly into gasoline (petrol) by dehydrating them to give a mixture of hydrocarbons. Electron microscopic investigations of zeolites are reviewed. Scanning electron microscopy can show the appearance of zeolite crystals, e.g. their sizes and morphologies, and can also be used to look into the cores of crystals revealing any abnormal microstructures, which often help us to elucidate actual crystal growth mechanisms. High resolution transmission electron microscopy is a powerful tool to directly image many pore systems and local defects in zeolites.

  • Track 11-1Disruptive catalysis by zeolites
  • Track 11-2Hierarchical Zeolites
  • Track 11-3Two-dimensional Zeolites
  • Track 11-4Zeolites in Industrial Catalysis
  • Track 11-5Zeolite Membranes in Catalysis

Track 12 : Crystallization
Crystallization is the process in which a crystal gets formed (which is a solid form) from precipitating a liquid solution or melting or from gas deposition.The crystallization process involves two major steps namely Nucleation and Crystal Growth. Nucleation is process of formation of crystalline phase from either a supercooled liquid or a supersaturated solvent.The capability of molecules to get crystallised strongly depends on the intensity of atomic forces (in the case of mineral substances), intermolecular forces (organic and biochemical substances) or intramolecular forces (biochemical substances). In chemical engineering, crystallization process takes place in a crystallizer. There the Crystallization is related to precipitation, although the result is not amorphous or disordered, but a crystal.

  • Track 12-1Nucleation and Crystal Growth
  • Track 12-2Amorphous solids
  • Track 12-3Polarity and Ionic Strength
  • Track 12-4DTB Crystallizer
  • Track 12-5Evaporative Crystallizers

Track 13 : Chemical Reaction Engineering
Chemical Reaction Engineering is the field in which the optimal conditions for the chemical processes is ensured which helps in design models for the plant reactors accordingly. Many applications of chemical engineering involves in day to day life like rubber, plastic, cement, sugar, ceramic etc. Research in chemical reaction engineering incorporates the energy and flow of chemical and biochemical procedures combined with sub-atomic mass Transport Phenomena. Other imperative research fields are turbulence displaying connected to chemical reaction, maturation forms, impetus deactivation, process control, steadiness and streamlining.

  • Track 13-1Stoichiometry and Ideal Reactors
  • Track 13-2Reactor Designs
  • Track 13-3Homogeneous and Heterogeneous Catalysis
  • Track 13-4Pressure Reactors
  • Track 13-5Applications in Petrochemical Industries

Track 14 : Catalysis for Renewable Chemicals
Renewable energy source is vitality that is gathered from renewable resources, which are normally renewed on a human timescale, for example, daylight, wind, rain, tides, waves, and geothermal heat. Renewable energy source frequently gives vitality in four vital regions: electricity generation, air and water heating /cooling, transportation, and rural energy services. Rapid deployment of renewable energy and energy efficiency is bringing about significant energy security, environmental change relief, and economic benefits. Renewable energy source frameworks are quickly ending up more productive and less expensive.

  • Track 14-1Wind power
  • Track 14-2Geothermal energy
  • Track 14-3Solar energy
  • Track 14-4Wind power development
  • Track 14-5Hydropower

Track 15 : Catalysis and Nanotechnology
Nanotechnology and Nanoscience include the capacity to see and to control 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 in nanotechnology as of late centered consideration around the chance to create catalysts that display 100% selectivity for required item, 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 Nanoelectronics 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.

  • Track 15-1Diffusion in Nanocatalysis
  • Track 15-2Liquid-Phase Synthesis of Nanocatalysts
  • Track 15-3Nano-Oxide Mesoporous Catalysts in Heterogeneous Catalysis
  • Track 15-4Oxidations with Nanocatalysis
  • Track 15-5Nano Materials
  • Track 15-6Nanomedicine
  • Track 15-7Nanocatalysis in the fast Pyrolysis of Lignocellulosic Biomass

Track 16 : Heat and Mass Transfer in Chemical Engineering
The process wherein the heat moves from one body or substance to the another by radiation, conduction, convection or a mix of these techniques. Heat transfer streams from a body with high vitality (high temperature) to bring down vitality (bring down temperature). Mass transfer portrays the vehicle of mass starting with one point then onto the next and is one of the fundamental columns in the subject of Transport Phenomena. Mass exchange may occur in a solitary stage or over stage limits in multiphase frameworks. A chemical species moves from areas of high chemical potential to areas of low chemical potential. Mass transfer occurs in many processes, such as absorption, evaporation, drying, Crysatllization, membrane filtration, and distillation.

  • Track 16-1Condution and Convection
  • Track 16-2Heat Exchangers
  • Track 16-3Vapour Liquid Equilibrium
  • Track 16-4Distillation,Absorption and Adsorption
  • Track 16-5Distillation and Drying

Track 17 : Catalysis Process Engineering
Catalysts are the materials that have to fulfil many criteria on multiple scales, in order to be successfully used in catalytic processes. There are different types of catalysis process like photo catalysis, Thermo catalysis, and Nano catalysis etc. Heterogeneous catalysts act in a different phase than the reactants. The R&D exercises in the Department are gone for the change of existing and production of new mechanical procedures. An essential reason for existing is the improvement of physicochemical premise of reactant advancements and operation of new catalysts.

  • Track 17-1Catalysis for Sustainable Systems
  • Track 17-2Chemical Intermediates
  • Track 17-3Hydrogenation
  • Track 17-4Structured Catalysts
  • Track 17-5Methane Aromatization

Track 18 : Petroleum and Petrochemical Engineering
Petrochemicals are chemical products developed from Petroleum. Some chemical compounds made from Petroleum are also obtained from fossil fuels, such as coal or natural gas, and renewable sources such as corn or sugar cane. The most common petrochemicals are olefins and aromatics (including benzene, toluene and xylene isomers), Synthesis gas. Petroleum refining processes are nothing but Chemical Engineering processes used in petroleum refineries to change crude oil into useful products such as Liquefied Petroleum Gas (LPG), gasoline (petrol), kerosene, jet fuel, diesel oil and fuel oils.

  • Track 18-1Fuels and Refining
  • Track 18-2Production and Storage Unit
  • Track 18-3Coastal Engineering
  • Track 18-4Petroleum Economy
  • Track 18-5Environmental Hazards and Safety Measures

Track 19 : Applications of Chemical Technology
The branch that deals with the technological methods of large scale chemical production and manufacturing of products from raw materials using chemical process. The usage of chemical technology lead to a lot of innovations in various fields such as nanotechnology ,fuels in aerospace, biomedical etc. Chemical technology is also used for medicinal purposes such as delivering drugs to specific tissues and cells,to treat damaged tissues etc. Plastics which are high efficient and light weight are employed in the field of aerospace. The touch screens that are daily used in mobiles, LCD's and computers are enabled by plastics, adhesives and 0ther chemical products.

  • Track 19-1Applications in Drugs and Pharmacy
  • Track 19-2Alternative Fuels
  • Track 19-3Food Processing and Preservation Technology
  • Track 19-4Nanomaterials and Aerospace materials

Track 20 : Chemical Synthesis and Catalysts Synthesis
This field of study amalgamate facet of organic, organometallic, and inorganic chemistry. Synthesis forms a considerable component of most programs in this area. Mechanistic scrutiny are often undertaken to discover how an unexpected product is formed or to rearrange the recital of a catalytic system. Because synthesis and catalysis are essential, to the construction of new materials, Catalysts are progressively used by chemists busy in fine chemical synthesis within both industry and academia. Today, there prevail huge choices of high-tech catalysts, which add enormously to the repertoire of synthetic possibilities. However, catalysts are intermittently fickle, sometimes grueling to use and almost always require both skill and experience in order to achieve optimal results.

  • Track 20-1Green Chemistry for Chemical Synthesis
  • Track 20-2Catalyst for Organic Synthesis Reaction
  • Track 20-3CBS Catalysts for Chemical Synthesis

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