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  • Liquid Analysis in Mineral Processing
    This paper describes the process applications that take place after mining and prior to refining as they relate to pH / ORP, dissolved oxygen and conductivity.The implementation of the proper analytical sensors in the common metal extraction processes used today in the minerals industry go far
  • Moisture Measurement for Natural Gas Liquid Extraction
    Plant Protection, Energy Efficiency and Cost Savings
  • Moving Beyond the Batch
    By Bill Swichtenberg, Senior Editor Phoenix Chemicals Proctor thinks it is important to consider the entire process as a candidate for continuous processing (much as Novartis-MIT is doing) and not just the reaction stage. For example, many chemical processes rely on a liquid-liquid extraction
  • When Less is Much, Much More
    , four-channel, and HPLC-integratable analysis configurations. These microreactors can interface with a liquid-liquid extraction module for rapid purification. Syrris focuses on development-worthy microreactors, preferring to leave systems for large-scale manufacturing to other companies. Nevertheless
  • Polymer Solvent Drying
    Problem: The production of many petroleum and biomass based polymers involves contact with chemical solvents. This contact may occur during the polymerization/reaction step, or to extract impurities from the final product. Typically, the liquid solvent is first removed mechanically by centrifuge
  • EXTENDING THE LIFE OF MOLECULAR SIEVE DEHYDRATION SWITCHING VALVES
    The molecular sieve dehydration unit is an important process in any plant that uses natural gas as. a feed stock. These units are critical in drying natural gas and the processes that follow such as. the extraction of Natural Gas Liquids and the production of Liquefied Natural Gas. Switching
  • Tuning in to New Solvents
    Operational Excellence & Lean Six Sigma Supercritical Fluid Extraction: Principals and Practice, Butterworth Publishers, Stoneham, Mass., 1986. York, P.; Kompella, U.; Shekunov, B., Supercritical Fluid Technology for Drug Product Development. Drugs and the pharmaceutical sciences ; v. 138 M. Dekker
  • A Microfluidic System for Biological Particle Enrichment Using Contactless Dielectrophoresis
    of re-diluting the sample. after it has passed through the region of concentration, further. complicating the extraction of a sample for off-chip. analysis. For DEP to truly represent an attractive alternative. to traditional sample-concentration techniques, it must be. devoid of these negative

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