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Recent advancements and applications in various separation techniques
- Separation Summit 2018

About Conference

Separation Summit 2018 is a platform to share their experience and their ideas for research work results to implement in further research work. As scientists, and other researchers all fascinated by the study of the global use of Separation Summit. We are particularly concerned about understanding the uses of Separation Summit in the field of chemistry and analytical science. We welcome you to our site to join with us. At this site, you can learn about membership in the society, the society journal, our newsletter and conferences.
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Target Audience:
Directors, Presidents, CEO’s from companies, Industrial Experts, Business Intelligence Experts, Scientists, Research Associates, Vice Presidents, Manufacturers, Brand Marketers, Advertising Agency Executives, Professors and Students from Academia.

Welcome Message

Separation Summit 2018 is a great pleasure and an honor to extend our warm invitation to attend the "International Conference and Expo on Separation Techniques”, on October 19-20, 2018 in Tokyo, Japan, which includes prompt keynote presentations, oral talks, poster presentations and exhibitions. This conference brings together individuals who are interested in fields of Separation Summit, proteomics, chromatography and analytical chemistry and approaching towards the conference gives best platform to explore the ideas and issues concerned to relevant topic and generate solutions. This unites all the participants from across the globe.
Separation Summit 2018 is a global annual event to discuss and learn about Novel Separation Techniques in Chemistry, Applications of Separation Techniques, Membrane Technology in Separation Processes, Separation Processes in Chemical Engineering, and Chromatography as a Separation Technique.
Separation Summit 2018  is a platform to share their experience and their ideas for research work results to implement in further research work. As scientists, and other researchers all fascinated by the study of the global use of Separation Summit. We are particularly concerned about understanding the uses of Separation Summit in the field of chemistry and analytical science. We welcome you to our site to join with us. At this site, you can learn about membership in the society, the society journal, our newsletter and conferences.


Track 01: Novel Separation Techniques in Chemistry
The process of separation is integral unit operation in most of the modern pharmaceutical techniques, chemical and other process plants. Among the separation processes, some are standard and conventional processes, like, distillation, absorption, adsorption, etc. These processes are quite common and the relevant technologies are well developed and well-studied. On the other hand, newer separation processes, like, membrane based techniques, super critical fluid extraction, chromato graphic separation, etc., are gaining importance in modern days plants as novel separation processes.
      Basic Separation Techniques in Biochemistry
      Development of innovative gas separation techniques
      External field induced membrane separation processes
      Supe rcritical fluid extraction
      Chiral Separation Techniques
      Extraction – Leaching, Liquid – Liquid extraction and Solid phase extraction
      Cloud point extraction and mi cellar enhanced separation
Separation Techniques are the part of separation science where separation of various mixtures is done .Mixtures come in many forms and phases. Most of them can be separated, and the kind of separation method depends on what kind of mixture it is. Thus, these Separation Techniques gain importance in different kinds of industries, different fields like Petroleum Industry, biotechnology, biochemical processes, forensic science, pharmaceutical industry, chemical industry.
      Theoretical Advancement in Chromatography and Related Separation Techniques
      Separation techniques in biochemistry
      Separation techniques in waste water treatment
      New Separation Chemistry Techniques For Radioactive Waste
      Separation techniques in biotechnology
      Separation techniques in forensic science
      Separation techniques in petroleum industry

Membrane technologies are progressively fetching useful components of pharmaceutical production processes. For some time, membrane separation technologies of reverse osmosis, ultra-filtration and micro-filtration have been used to concentrate and purify both small and large molecules. More recent applications of membrane technologies cover a broad range of separation, concentration and purification needs. For example, pharmaceutical waste streams can be treated by Nano-filtration or evaporation to detoxify them and/or reduce the volume of waste requiring incineration.
     Membrane gas separation
     Membrane technology and industrial separation techniques
     Separation and purification membrane based processes in see water and waste water treatment
     Membrane separation technology in food industry
     Techniques for membrane preparation and characterization in separation processes
     Processes of membrane separation and purification of bio-derived sources
     Membrane separation technology in petrochemical industry
     Hydrogen separation and purification processes via membrane reactors technology
     Separation processes through polymeric and hybrid membranes
     Modelling of separation and purification membrane processes
     CO2 capture via membrane technology
In the field of Chemical Engineering – separation process is the transfer of any mass that converts the substance mixture into distinctive product mixtures. “In some cases, a separation may fully divide the mixture into its pure constituents. Separation Techniques are carried out based on differences in chemical properties, or physical properties such as size, shape, mass, density, or chemical affinity, between the constituents of a mixture, and are often classified according to the particular differences they use to achieve separation. . The Separation Process in the chemical engineering includes Adsorption, Capillary electrophoresis, Centrifugation and cyclonic separation, Crystallization, Decantation, Distillation, Drying, Electrostatic Separation, Elutriation, Evaporation, Extraction, Field flow Fractionation, Magnetic separation, Precipitation, Recrystallization.
      Separation Techniques: Liquid-liquid systems
      Oil-water separation
      Extraction – Leaching, Liquid – Liquid extraction and Solid phase extraction
      Centrifugation & Cyclonic Separation
       Flotation – Dissolved air flotation, Froth Flotation, Drinking
       Zone refining
Chromatography is a method of separating compounds from a mixture. The technique is both preparative, analytical and is employed widely in laboratory as well as industrial standards. More than 70% of chemical analysis all over the world is done using Chromatography. It is a physical technique applied from basic organic chemistry to Forensic sciences. Some of the common applications include detection of cocaine in urine, alcohol in blood, PCB’s in fish, lead in water, etc. Chromatography is of various types-displacement chromatography, Paper chromatography, Thin layer chromatography, supercritical chromatography, expanded bed adsorption chromatography, liquid chromatography, Gas chromatography, Columnfluid chromatography in various combinations.
       Advancements in chromatography techniques
       Molecular exclusion as separation technique
       HPLC & UHPLC as a separation technique
       Use of chromatography in toxicology
       Gas chromatography
       Chiral chromatography
       Affinity chromatography
       TLC & HPTLC
Liquid-liquid extraction is one of the mostly employed and useful techniques in pharmaceutical sample preparation. This is because of number of characteristics, including rapid method development, simplicity, and reasonable selectivity. Another one is Solid phase extraction is a technique designed for rapid, selective sample preparation and purification prior to chromatographic analysis. The process of Crystallization is also a chemical solid–liquid separation technique, in which mass transfer of a solute from liquid solution to a pure solid crystalline phase occurs. In chemical engineering the process of crystallization occurs in a crystallizer. Therefore, Crystallization is an aspect of precipitation, obtained by the variation of solubility conditions of solute in solvent, as compared to precipitation due to chemical reaction.
       Recent advancements in sample preparation techniques
       Recent advances in micro-sample preparation with forensic applications
       Role of hyphenation in sample preparation
       Micro particle Sampling
The individual substances in a mixture can be separated using different methods, depending on the type of mixture. These methods include filtration, evaporation, distillation and chromatography. By Identify an appropriate separation technique to separate a mixture based on the physical properties of the components of the mixture. These properties include solubility, density, melting and boiling points, thermal stability, magnetic properties and particle size.
      Novel Water Treatment and Separation Methods
      Methods for separating mixtures
      Filtration separation method
      Separation methods Used in Biology Labs
      Separation methods and Technologies
      Chemical Separation Techniques
      Separation of Mixtures Using Different Techniques
      Separation by Chromatography Methods
      DNA separation methods
The Hyphenated Technique is developed by coupling of a separation technique and an on-line spectroscopic detection technology. The improvements in Hyphenated Analytical Methods over the decades have significantly broadened their applications in the analysis of biomaterials, mainly natural products. In this track recent advances in the applications of various hyphenated techniques, e.g., LC-FTIR, LC-NMR, CE-MS, GC-MS, LC-MS, etc. in the context of pre-isolation analyses of crude extracts or fractions from different natural sources, isolation and  detection of natural products, chemotaxonomic studies, DNA fingerprinting, quality control of herbal medicine, de-replication of natural products, and metabolomics studies are included.
      Use of hyphenated separation techniques
      Liquid chromatography-NMR spectroscopy. (LC-NMR)
      Gas chromatography-mass spectrometry (GC-MS)
      Liquid chromatography-infrared spectroscopy(LC-IR)
      Gas chromatography-infrared spectroscopy, (GC-IR)
      Capillary electrophoresis-mass spectrometry
      Liquid chromatography-mass spectrometry (LC-MS)
High Performance Liquid Chromatography (HPLC) is a part of Separation Techniques. It was formerly referred as high-pressure liquid chromatography, as a technique in analytical chemistry used to identify, separate, & quantify each component in mixture. It relies on pumps to pass the pressurized liquid solvent that contains the sample mixture through a column filled with solid adsorbent materials. Each component in the sample interacts slight differently with adsorbent material, thus cause different flow rates for the different components and lead to the separation of the components as they flow out the column. HPLC depends on pumps to pass pressurized liquid & sample mixture through column filled with a sorbent, leading to sample components separation.
When used with domestic wastewater, Membrane Reactor processes can harvest effluent of higher value enough to be let flow into to coastal, surface or 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 athigher mixed liquor suspended solids (MLSS) concentrations compared to conventional settlement separation systems, thus reducing the reactor volume to achieve the same loading rate.
       Advanced water treatment technologies
       Waste water Reclamation Process
       Latest water purification techniques
       Basic water purification techniques
       Industrial waste water treatment
       Agricultural wastewater treatment
There is a broad growing worldwide interest in step change Separation Technologies, in key areas of physical sorption, distillation, membranes, absorption and heat exchange. Many of the innovative research activities are initiated by growing concern with environment (e.g. Co2 capture), equipment and energy cost, A number of new technologies find applications in neigh boring processes. This new technologies include Industrial membrane filtration technology, Magnetic Separation Techniques in various fields, Cell Separation Techniques in microbiology, Distillation and filtration as separated techniques.
       Super-critical Fluid Chromatography
       Industrial membrane separation technology
       Magnetic separation techniques in various fields
       Cell separation techniques in microbiology

Spectroscopy is study of materials interaction with light, generally through scattering, absorption, or transmission and is very powerful tool in material science.  The amount of material interaction depends on energy or wavelength of light and can provide a wealth of information about physical properties of those materials. The track session includes various spectroscopic techniques along with improved Hyphenated techniques developed using spectroscopy cover under it.
       Mass spectroscopy
       Ultraviolet and visible absorption spectroscopy
       Laser induced bombardment spectroscopy
       Hyphenated techniques developed using spectroscopy
       Nuclear magnetic resonance spectroscopy
       Raman spectroscopy
Desalination is a process that extracts mineral components from saline water. More generally, desalination refers to the removal of salts and minerals from a target substance, as in soil desalination, which is an issue for agriculture. Seawater desalination is an increasingly key solution for the scarcity of water. Saltwater is desalinated to produce water suitable for human consumption or irrigation. One by-product of desalination is salt. Most of the modern interest in desalination is focused on cost-effective provision of fresh water for human use. Along with recycled wastewater, it is one of the few rainfall-independent water sources. Currently, approximately 1% of the world's population is dependent on desalinated water to meet daily needs, but the UN expects that 14% of the world's population will encounter water scarcity by 2025.
      Ion exchange
      Membrane processes
      Solar desalination
      Geothermal desalination
Analytical chemistry is that the study of the separation, identification, quality control and quality assurance of the chemical parts of natural and artificial materials. Analytical chemistry is overwhelmed by instrumental examination. There are such huge numbers of various sorts of instruments today that it can appear like a confounding cluster of acronyms as opposed to a brought together field of study. Numerous investigative physicists concentrate on a solitary sort of instrument. Scholastics have a tendency to either concentrate on new applications and revelations or on new strategies for examination. The revelation of a compound present in blood that builds the danger of tumour would be a disclosure that an investigative scientific expert may be engaged with. A push to build up another strategy may include the utilization of a tune able laser to expand the specificity and affectability of a spectrometric technique.
      Analytical Biochemistry Techniques
      Spectrometric Technique
      LC-MS Principles
      Quality Analysis
·     Quality control
Most of the materials in our surroundings are mixture of two or more components. Mixtures are either heterogeneous or homogeneous. Homogeneous mixtures are uniform in composition, but Heterogeneous mixtures are not uniform in composition. The choice of Separation Techniques is based on the mixture type and difference in the chemical properties of the constituents in mixture. This track includes all the basic Separation Techniques like crystallization ,distillation, centrifugation, filtration and other methods along with their advancements.
      Simple distillation
      Fractional distillation
 Analytical & Bio analytical Techniques deals with the analytical methods used for characterization, release, and stability testing of the chemical compounds as well as the biotechnological/biological products. Since the last two decades, the concept of bio analysis has evolved into bio pharmaceuticals which also takes into consideration larger peptides and proteins. As Bio analytical techniques revolutionise measurement of minute quantities of metabolites and their impact, the subsequent findings are of significance for applying Analytical and Bio analytical techniques in clinical and medical procedures.
      Pharmaceutical Analytical Techniques
      Bio pharmaceuticals
      Analytical Methods
      Biotechnological products
      Bio analysis
Chromatography and mass qualitative analysis is employed for analysis of organic compounds. Electro sprayionization (ESI)
could be a technique employed in mass spectroscopic analysis. As compare to chromatography and mass spectrometry, HPLC is more flexible informative and trusted by the industry people. Recent advances in sample preparation techniques to beat difficulties encountered throughout measuring of little molecules from bio fluids mistreatment LC-MS. For Measuring, observation and protective your important Investments analytical chemistry instruments are used. Global Bio analysis seminars are conducted and those specifically applied for chromatography assays, ligand binding assays to know more advances.
       New Approaches in Mass Spectrometry
       Chromatography and its Applications
       Mass Spectrometry with Proteomics
       ESI Techniques
       Thin-Layer Chromatography
       Applications of Mass Spectrometry
       Infrared absorption spectroscopy
       X-ray photoelectron spectroscopy

Fractionation is a separation technique in terms of phase transition. It most probably used in all research and industrial sectors. Magnetic separation is used to separate materials which are susceptible to the magnetic field. Magnetic Separation is the way toward utilizing attractive drive to expel metallic or ferrous materials from a mixture. This track deals with separations based on the magnetic field coupled with electric current, electrostatic separation, and polarizing separation.
        3D BioManipulation  Using Microgrippers
        Optical Manipulation Techniques
        Atomic Force  Microscopy for Liquid Applications
        Magnetic Manipulation of Biological Structures

Nanotechnology is the emerging field that deals with Nano particles this track confers the information about the separation techniques used in nanotechnology. It is a branch of science that exploring the new dimension in the Nano level which leads into the discovery of new drugs, treatments, user friendly equipment, technologies, etc. This generation is now focusing on the Nano & Pico level experiments & technologies which leads to newer version of science. 
        Purification of nanoparticles by centrifugation
        Separate nanoparticles from solution
        Nano Liquid Chromatography
        Purification of nanoparticles by size and shape
 Mineral ores are one of the basic raw materials which should be separated and purified to their mineral forms. Mineral ore can be   separated according to their particle sizes, physical properties and chemical properties. Separations are made by chemical treatments     and they are subject to quality control in each sector to reach its economic grade by separating all other impurities. 
        Heavy mineral separation using bromo form
        Heavy mineral analysis methods
        Gravity separation mineral processing technique
        Heavy Media separation and Analysis

Market Analysis

Market related to Protein separation: Global Protein Purification Market: North America expected to dominate the global market for protein purification by 2014–2020 North America dominates the global market for protein purification due to increasing research and development in the pharmaceutical, biotechnology industry and technological advancement in protein purification in the region. Asia is expected to show high growth rates in the next five years in the global protein purification market, with India, China being the fastest-growing markets in the Asia Pacific region.
Market related to Hyphenated techniques: The research work on the world hyphenated analytical instruments market provides most comprehensive & in-depth study of majorly used hyphenated analytical instruments. Research shows the market of hyphenated techniques is showing rapid growth and is estimated to reach $2.80 billion, with the major changes in competitive structure and new opportunities in emerging economies.
Market related to Membrane separation: The global membrane separation technology market in pharmaceutical, life science and bio pharmaceutical industries has reached approx. value of 7,029.9 million US$ in 2014. Furthermore, growing at the rate of 9.1% CAGR during the forecast period, 2014 to 2019, the market is expected to reach 10,886.0 US$ million by 2019.Geographically, the most dominant membrane technology market in bio pharmaceutical, pharmaceutical and life science is North America,  it is to Witness Highest Growth by 2019 followed by Europe.
Why to attend?
Separation techniques conference could be an exceptional event which will lay a platform for the interaction between experts around the world and aims for accelerating scientific discoveries and major milestones in the field of analytical,pharmaceutical and bioinformatics, creating the conference an ideal platform to share expertise, foster collaborations across trade, world and assess rising technologies across the world.
Major Societies:
·         American Society for Mass Spectrometry
·         An International Separation Science Society
·         Association of Analytical Communities (AOAC) International
·         Association of Separation Scientists and Technologists
·         Australian and New Zealand Society for Mass Spectrometry
·         Austrian Society for Analytical Chemistry
·         California Separation Science Society (CaSSS)
·         Canadian Society for Analytical Sciences
·         Chinese American Chromatography Association (CACA)
·         Chromatographic Society of India (CSI)
·         Cooperation on International Trace ability in Analytical Chemistry (CITAC)
·         International Council of Chemical Associations
·         Mendeleev Russian Chemical Society
·         Royal Australian Chemical Institute
·         Royal Society of Chemistry
·         Society for Applied Spectroscopy
·         Society for Chromatographic Sciences (SCS, Japan)
·         South African Chromatography Society (ChromSA)
·         The International Association for the Advancement of High Performance Thin  Layer   Chromatography (HPTLC Association)
Separation Techniques are those techniques that can be used to separate two different states of matter such as solid and liquid. Such separation techniques include evaporation or filtration.Separation process, or a separation method, or simply a separation, is a methodology to attain any mass transfer phenomenon that converts a mixture of substances into two or more distinct product mixtures.
The Separation Techniques industry is indicating development quickly, with esteem anticipated that would hit 240 billion dollars by 2017, up from 164 billion dollars in the year 2010, stamping yearly development of about 7%, as per a current modern research report. Geologically, worldwide detachment innovations advertise has been portioned into four zones to be specific, North America, Europe,Asia-Pacific and Rest of the World. Separation techniques industry which is comprised of several equipment like chromatography, spectrometry, electrophoresis, is one of the emerging field which shows the greater impact in the market.
Market related to Electrophores is technique: The world market for electro phoresis equipment and supplies predicts a CAGR of 4.8% for the period of 2013-2017.North America is the leading market with highest share in the total electrophoresis equipment and supplies market owing to increasing innovation. Asia-Pacific is expected to show the highest growth rate because of overall developments in the healthcare infrastructure and research facilities in region. Rest of World has   including countries like Mexico, Brazil and others are expected to contribute in the growth of electro phoresis equipment and supplies market.

Organizing Committee
OCM Member
Xindu Geng
Director, Chemistry and Biochemistry
Northwest University
Xian, China
OCM Member
Marine Michel
Imperial College London
Kensington, United Kingdom
OCM Member
Dr. Rehab Mohammed Atta El-Desoukey
assistant professor/ reasearcher, microbiology and immunology
Shaqraa University; National Research Center in Egypt
Cario, Egypt
OCM Member
Associate Professor , Analytical Chemistry
Istanbul University,
Istanbul, Turkey
OCM Member
Dr. Saeeda Nadir Ali
NED University of Engineering and Technology, Karachi
Karachi, Pakistan
OCM Member
Professor, Chemist
Banat’s University of Agricultural Sciences and Veterinary Medicine ,Romania
Strada Atomistilor, Romania
OCM Member
Ain Shams University
cairo, Egypt
OCM Member
Dr R.Ravichandra babu
Professor, Chemical Industry
GITAM University
Hyderabad, India
OCM Member
Syzonenko O.
Institute of Pulse Processes and Technologies of NAS of Ukraine
Odessa, Ukraine
OCM Member
Dr. M. Jamaluddin Ahmed†
University of Chittagong
Dhaka, Bangladesh
OCM Member
Mohd Amin Mir
Professor, Dean of Sciences
Professor in the Department of Chemistry at Uttaranchal University, Premnagar Dehradun
Rishikesh, India
OCM Member
Registered Doctorate
SRM University
Vellore, India
OCM Member
Dr. Goutam Mukhopadhyay
Associate professor , pharmacy sciences
Maulana Azad Medical College
New Delhi, India

To Collaborate Scientific Professionals around the World

Conference Date October 19-20, 2018
Speaker Oppurtunity Day 1 Day 2
Poster Oppurtunity Available
e-Poster Oppurtunity Available
Sponsorship Opportunities Click here for Sponsorship Opportunities

Address: Raddison Hotel Narita,286-0221 Chiba Prefecture, Tomisato, Nanae, Tokyo, Japan, 650-35.

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