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2nd International Conference on Separation Techniques (CSE)

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2nd International Conference on Separation Techniques

About Conference

We are hosting the International Conference on Separation Techniques slated on June 06-07, 2019 in London, UK that consists of prompt Keynote Presentations, Special Sessions, Workshops, Symposiums, Oral talks, Poster Presentations, and exhibition.

Separation Summit 2019 aims to gather the principal investigators, experts and researchers working under academia and industry, Business Delegates, Scientists and students from the field of chemistry and analytical science all over the world to give a worldwide discussion so that the dissemination of original research results, new ideas, and practical development experiences.

The theme of the conference is based on ”Launching the innovative ideas and technologies of Separation Techniques” which covers a wide range of critically important sessions on Separation Technique and Analytic Chemistry.

Why London?
London is the capital and the most popular city in England and the United Kingdom, standing on the river Thames in the south-east of the island of Great Britain. London is one of the main global cities in the arts, commerce, education, entertainment, fashion, finance, healthcare, media, professional services, research and development, tourism and transportation. It is the world's massive financial center and has the fifth or sixth largest metropolitan area GDP in the world. London generates approximately 22 percent of the UK’s GDP.

London is oft-times regarded as a world cultural capital. It is the world's most-visited city as measured by international arrival and has the world's immense city airport system measured by passenger traffic. It is the world's leading investment destination hosting international retailers and ultra-high-net-worth individuals than any other city. London's universities are the largest concentration of higher education institutes in Europe. In 2012, London became the first city to have organized the modern Summer Olympic Games three times.

Benefits of attending the conference:
This event will be providing an opportunity to build and expand your network with various people and gives chance to make collaboration with other universities, research labs and industry too. It also helps you to meet the experts in the relevant field of study. It gives access to novel instruments in the market. This conference plays a major role in your business development and maximizes the profit.

Target Audience:
Directors and Head of Analytical Chemistry
Directors and Scientists of Analytical Instruments companies
Eminent Scientists who work with separation instruments
Principal Investigators, Research lab Scientists, Research Scholars
Professors & Associate Professors of Analytical, Organic Chemistry, Geochemistry, Refining Chemistry
Experts in Chromatography, Mass Spectrometer, Spectroscopy, NMR etc.
Theoretical Scientists working on deriving analytical hypotheses
Industrial Experts related to Separation Instruments.
Experts from Pharmaceutical, Chemical Industries
Research lab scientists, scholars working with separation Instruments.
Relevant Post-graduates, Graduates, Technicians, Students.


Current Trends in Separation Techniques

Separation technique is associate degree approach to attain any development that converts the combination of a chemical substance into 2 or additional distinct product mixtures. Separation techniques play a significant role in the majority process and sectors like oil, chemical, pharmaceutical, food technology, biotechnology, mining industries, and waste management. The separation between constituents is often done by the quality and ancient strategies like distillation, alluviation, drying, absorption, and surface assimilation method.

High-throughput separations are in great demand in several fields, like clinical, forensics, toxicology, environmental and pharmaceutical analysis. On the opposite hand, extremely efficient separations are necessary for several applications, together with metabolomics, proteomics, and genomics. Terribly advanced samples, like biological materials, cryptic digests or natural plant extracts need extremely efficient and quick analytical procedures to yield high resolution within an appropriate analysis time. The growing demand to reinforce potency and reduce analysis speed directed several researchers to develop innovations within the ancient separation system.

Advancements in Separation Techniques

Separation techniques are associate degree approach to attain any development that converts a combination of a chemical substance into 2 or additional distinct product mixtures. Separation techniques play a significant role in the majority process and sectors like oil, chemical, pharmaceutical, food technology, biotechnology, mining industries, and waste management. The separation between constituents is often done by the quality and ancient strategies like distillation, alluviation, drying, absorption, and surface assimilation method.

Spectroscopic Methods in Separation Techniques

Spectroscopy is the study that describes between the particles and electromagnetic radiation where it involves scattering, absorption, reflection or transmission of materials. The intensity of reciprocity between these materials gives the data about the physical properties of the substance. This session deals with various spectroscopy techniques which act as a basic analysis before separation.

Analytical Chemistry

Analytical chemistry is that the study of the separation, identification, and quantification of matter for the aim of chemical characterization of matter. The associate chemical analysis provides an identification of the identity of chemical species within the sample. The quantitative chemical analysis determines the number of certain elements within the substance.

Bioanalytical Techniques

Bioanalytical Techniques specifically relate to determining the concentration of drug in the biological matrices. The quantitative determination of a drug and metabolic in the biological material is to establish in pharma kinetic and toxicokinetic studies. It also deals with the human clinical pharmacology, bioavailability, bioequivalence, and non-human clinical pharmacology.


Electrophoresis is a separation technique applied to the analysis of biological and polymeric samples. It works on the principle of migration of charged proteins in an electric field and separates the organic molecules based on their different interaction with a gel under an electric potential. It is also used for finer protein separation and visualization of separated proteins. Variations of this methodology are being used in DNA sequencing, fingerprinting, isolating biological factors associated with some diseases such as cystic fibrosis, sickle-cell anemia, and leukemia.


Chromatography is the separation of a mixture by passing it in solution or suspension or as a vapor (as in gas chromatography) through a medium in which the components move at different rates. Thin-layer chromatography is a special type of chromatography used for separating and identifying mixtures that are or can be colored especially pigments.

High-performance liquid chromatography has stood on a rock laborious foundation and has seen many inventions that have met the growing expectations in separation techniques. It has been employed in a very wide selection of analytical strategies and it is not possible to convey a comprehensive set of examples that will illustrate its wide applicability in every type of matrices. Some fascinating features through many innovations that have created an interesting contribution to the recognition of the HPLC technique in laboratories across the world, like, high separation efficiencies with lowest column back pressures, separations over wide temperature ranges etc.

Emerging Sample Preparation Process

Many advanced instruments employ various sample preparation techniques and it’s also specific to each instrument. Separation techniques like chromatography, electrophoresis, and mass spectrometry need samples which suit the instrument. Discussion on this topic of Emerging Sample Preparation Process gives the clear knowledge about the sample preparation and it can be used effectively for the analysis.

Pollution & Wastewater Treatment

Wastewater treatment is a process used to convert Sewage water into an effluent that can be returned to the water cycle with minimum impact on the environment, or directly reused. The Latter is called water reclamation because treated wastewater then can be used for other purposes. This treatment process takes place in a wastewater treatment plant (WWTP), often referred to as a Water Resource Recovery Facility (WRRF) or a sewage treatment plant. Pollutants in the municipal wastewater (households and small industries) are removed.

When used with domestic wastewater, Membrane Reactor processes can harvest effluent of higher value is enough to be let flow into to coastal, brackish watercourses or to be domesticated for urban irrigation. Other benefits of MBRs over conventional processes include small footprint, easy retrofit, and upgrade of old wastewater treatment plants. It is possible to operate MBR processes at higher mixed liquor suspended solids (MLSS) concentrations that compared to conventional settlement separation systems, thus reducing the reactor volume to achieve the same loading rate.

Desalination & Water Treatment

Desalination is a method of removing salts from water in order to produce process water, ultrapure or potable water. This is accomplished through using membranes (reverse osmosis and Nanofiltration) and thermal processes (multi-effect distillation, evaporation, and crystallization).

Water desalination processes tailored for use in industrial water treatment are discharged in the form of small scale package water treatment plants. These desalination package plants are used by some municipalities for residents in remote areas not connected to the municipal pipeline infrastructure. Both the large scale and the small scale desalination plants can be tailored to treat either brackish water or seawater.

Separation Techniques in Environmental Science

The most common reason for separating wastes at the supply is for recycling. To reduce the environmental impact of waste disposal, the Environmental Protection Agency (EPA) encourages communities to develop methods to decrease landfill use and lower the risks and inefficiencies of combustion. Waste reduction and recycling are the foremost environmentally useful strategies to manage waste. Increasing concentrations of greenhouse gases (GHGs) corresponding to carbon dioxide in the atmosphere may be global warming.

Carbon capture and storage (CCS) could be a major strategy that may be used to reduce greenhouse gas (GHG) emissions. Separations could also be used to concentrate contaminants for ultimate destruction or immobilization and to get rid of contaminants and concentrate or purify them to the aim where they will be used once more and no longer be thought of contaminants.

Membrane Separation Techniques

Membrane separation is a technology which selectively separates (fractionates) materials by pores or minute gaps in the molecular arrangement of a continuous structure. Membrane separations are also classified by pore size and by the separation driving force. Membrane separation is a technique that separate solvent and solute particles with the help of semi-permeable membranes. Membrane innovation is a non-specific term for the various extraordinary, exceptionally trademark partition forms. These procedures are similar kind, in light of the fact that in each of them a film is utilized. Membrane films and Membrane Technologies are utilized frequently for the purification of groundwater, surface water, and wastewater. Recent advances in membrane separation technology attained an advanced dimension in this era.

Microfluidics & Flow Process Technology

Microfluidics is an emerging technology with the potential to the streamline of workflows and processes in the food and health sciences. Because of this extreme miniaturization, less reagent consumption and more efficient sample-to-answer protocols are not only attainable but in many cases demonstrated. In this track, we present some key examples of relevant research at the Micro/Nano Fluidics Fundamentals Focus (MF3) Center that has direct applications in food, environmental, and physiological health monitoring were discussed.

Hyphenated Techniques

Hybrid separation techniques or hyphenated techniques is that the combination of mass spectrometry and chromatography within which the particles may be detected then separated consequently by chromatographic separation technique. Typically, this can be often helpful for pre-isolation analyses of crude extracts or fraction from varied natural sources, isolation and on-line detection of a natural product, chemotaxonomic studies, chemical fingerprinting, quality control of the herbal product, depreciation of natural product, and metabolomics.

Advanced Analysis of Food and Beverages

Food chemistry is the study of chemical processes and interactions of all biological and non-biological components of food and beverages. The biological substances incorporate such items as meat, poultry, lettuce, beer, and milk. Analysis of food is similar to biochemistry in its main components such as carbohydrates, lipids, and protein, but it also includes areas such as water, vitamins, minerals, enzymes, food additives, flavors, and colors. This discipline encompasses how products change under certain the food processing techniques and ways either to enhance or to prevent them from happening.

Exploiting Separation Science and Mass Spectrometry

Mass spectrometry is an analytical technique which ionizes molecules and sorts those ions based on their mass to charge ratio. Basically, it measures the mass of the sample and used to investigate the structure of materials to attain the quality spectra. Identification of unknown peaks in gas chromatography (GC/MS)-based discovery to find the protein metabolomics is challenging, and it remains necessary to permit discovery of novel or unexpected metabolites in the Signalling pathways and further our understanding of how genotypes relate to a phenotype of that genomic series. It also considered being important for the protein discovery and further research process. Mass spectrometry is an analytical tool that which is used for measuring the molecular mass of a sample. New mass spectrometry (MS) methods collectively known as an independent analysis and hyper reaction monitoring, have recently emerged.

Separation Techniques in clinical / Pharmaceutical Chemistry

The foremost common instrumental chromatographic technique employed in the clinical laboratory is that the gas-liquid chromatography. Clinical Chemistry Separation Techniques could also be an intensive single-source guide for an analytical, pharmaceutical, organic, physical, surface, medicinal and colloid chemists and biochemists. Four detection strategies commonly used with gas-chromatography are thermal conductivity, flame ionization, nitrogen/phosphorous, and mass spectrometry. The thermal conduction detector takes advantage of variations in thermal conductivity between the carrier gas and the gas being measured. Advances in Chromatographic Techniques for Therapeutic Drug monitoring may be a comprehensive reference describing the speculation and application of therapeutic drug monitoring in clinical laboratories.

Separation Techniques in Chemical Engineering & Nanotechnology

Chemical processes comprise separation stages during which the method streams area unit separated and refined. Heterogeneous mixtures comprise two or additional phases that have a completely different composition. These mixtures comprise parts that don't react with chemicals and have clearly visible boundaries of separation between the various phases. Parts of such a mixture will be separated using one or additional applicable techniques. Nanotechnology is that the rising field that deals with Nanoparticles. It is a branch of science that exploring the new dimension at intervals of the Nano level that leads to the discovery of recent medication, treatments, user-friendly instrumentation, technologies, etc. The generation is currently focusing on the Nano & Pico level experiments & technologies that result in a newer version of science. This track confers the information regarding the separation techniques used in applied science.

Industrial Separation & Chemical Separation Technologies

Separation method area is a unit technical procedure that is employed in the trade to separate a product from impurities or different product to get the product with required qualities. The initial mixture could either be a resource (like ore, oil or sugar cane) or the product of a chemical change (like a drug or organic solvent). Separation processes are having high economic importance in operation prices in trade. Typically, many separation processes are performed in turn. Separation operations are having many different functions.

Applications of Separation Techniques

Separation techniques play a significant role in all aspects of our daily life products it became a part and parcel of the environment. Raw materials that are of various forms and phases, however, is separated to its purest constituent. The importance of separation techniques of assorted fields like biotechnology, forensic studies, food technology, pharmaceutical trade, petroleum industries.

Please contact the event manager Marilyn (marilyn.b.turner(at)nyeventslist.com ) below for:
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