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REACTIVE EXTRACTION OF ORGANIC ACIDS BY SUPERCRITICAL CO2

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Published/Copyright: December 1, 1999
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Reviews in Chemical Engineering
From the journal Reviews in Chemical Engineering Volume 15 Issue 4

Published Online: 1999-12

©2011 by Walter de Gruyter GmbH & Co.

Articles in the same Issue

  1. DEGRADATION OF TRIFLURALIN BY USING TiO2 PHOTOCATALYST
  2. REACTIVE EXTRACTION OF ORGANIC ACIDS BY SUPERCRITICAL CO2
  3. THERMOCHEMICAL DECOMPOSITION OF DESULPHOGYPSUM WITH OIL SHALE IN A FLUIDIZED-BED REACTOR: A KINETIC STUDY
  4. IMPROVING THE EFFICIENCY OF AN UREA-FORMALDEHYDE FERTILIZER BASED ON 15N TRACER TECHNIQUE
  5. MATHEMATICAL MODELING OF A PACKED BED BIOREACTOR FOR THE CITRIC ACID PRODUCTION
  6. SIMULATION OF ROTATIONAL ISOMERIC STATE MODELS FOR POLYPROPYLENE MELTS ON A HIGH COORDINATION LATTICE
  7. THE EFFECTS OF BIOPROCESS PARAMETERS ON THE YIELD IN EXTRACTIVE ETHANOL FERMENTATION
  8. DYNAMICS OF PROTEINS AND BIOMOLECULAR COMPLEXES: INFERRING FUNCTIONAL MOTIONS FROM STRUCTURE
  9. SORPTION CHARACTERISTICS OF ORGANIC COMPOUNDS ON THREE HEXADECYL-TRIMETHYLAMMONIUM-SMECTITES HAVING DIFFERENT CATION EXCHANGE CAPACITIES
https://doi.org/10.1515/REVCE.1999.15.4.233

Articles in the same Issue

  1. DEGRADATION OF TRIFLURALIN BY USING TiO2 PHOTOCATALYST
  2. REACTIVE EXTRACTION OF ORGANIC ACIDS BY SUPERCRITICAL CO2
  3. THERMOCHEMICAL DECOMPOSITION OF DESULPHOGYPSUM WITH OIL SHALE IN A FLUIDIZED-BED REACTOR: A KINETIC STUDY
  4. IMPROVING THE EFFICIENCY OF AN UREA-FORMALDEHYDE FERTILIZER BASED ON 15N TRACER TECHNIQUE
  5. MATHEMATICAL MODELING OF A PACKED BED BIOREACTOR FOR THE CITRIC ACID PRODUCTION
  6. SIMULATION OF ROTATIONAL ISOMERIC STATE MODELS FOR POLYPROPYLENE MELTS ON A HIGH COORDINATION LATTICE
  7. THE EFFECTS OF BIOPROCESS PARAMETERS ON THE YIELD IN EXTRACTIVE ETHANOL FERMENTATION
  8. DYNAMICS OF PROTEINS AND BIOMOLECULAR COMPLEXES: INFERRING FUNCTIONAL MOTIONS FROM STRUCTURE
  9. SORPTION CHARACTERISTICS OF ORGANIC COMPOUNDS ON THREE HEXADECYL-TRIMETHYLAMMONIUM-SMECTITES HAVING DIFFERENT CATION EXCHANGE CAPACITIES
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