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Bioseparation Engineering Introduction

Bioseparation Engineering Introduction. Biotechnology. built on the genetic manipulation of organisms to produce commercial products or processes. Biochemical Engineering. r esponsible for the implementation of the products and processes. Two Disciplines of Biochemical Engineering.

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Bioseparation Engineering Introduction

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  1. Bioseparation Engineering Introduction

  2. Biotechnology built on the genetic manipulation of organisms to produce commercial products or processes Biochemical Engineering responsible for the implementation of the products and processes Two Disciplines of Biochemical Engineering Upstream Engineering (Fermentation) Downstream Engineering (Bioseparation or Purification)

  3. Figure 1. Relation between starting product concentration in completed broth or medium, and final selling price of the prepared product (Dwyer JL, 1984).

  4. Figure 2. Primary factors affecting separation vs. particle size (Atkinson B and Mavituna F, 1983)

  5. Separation Process Design • mimic/similar process/case • new concept process • yield and purity • cost of production • scalability (scale-up, scale-down) • Easy maintenance Separation Process Synthesis Approaches must be made if future scale-up is in mind *design software *information from equipment vendor

  6. Separation Process Synthesis Ex : Penicillin Production Figure 3. Penicillin production. After fermentation the biomass is separated by filtration. The antibiotic, which is in the filtrate, is isolated and purified by extraction. It is then polished by crystallization and dried.

  7. Separation Process Synthesis Increasing amount of washing water increases recovery but thus the amount of wastewater generated Vacuum Filter Temperature: material degradation and yield Solvent: type of solvent, solvent to water ratio Mode of Operation: Single or multiple stage Extraction Optimization of operating condition is essential!! Are there other novel concepts of separation???

  8. Separation Process Synthesis Microfiltration Ultrafiltration Reverse Osmosis Product (Penicillin G) Broth Biomass Solvent Figure 4. Possible alternative scheme for penicillin purification. Ex : Spray drying Air: flowrate, temperature, moisture content Slurry: physical properties, feed rate, moisture content - Drying Efficiency: moisture content, powder in vent air Multiple Input Multiple Output (MIMO) problem with interaction Spray Dryer

  9. Criteria for Process Synthesis Used in evaluating and designing a bioseparation process • product value, purity, impurities acceptable • cost of production as related to yield • scalability • robustness with respect to process stream variables • Alternative process/technology

  10. Stages of Bioseparation: An idealized process (1)removal of solids (or recovery), (2)isolation of product, (3)purification, and (4)polishing constitute a sequence of events applied to nearly every product preparation Table 1. Objectives and Typical Unit Operations of the Four Stages in Bioseparation (Harrison et al., 2003)

  11. Intracellular, extracellular product • Fermentation – broth components • In situ separation with fermentation (Ex : ethanol, antibiotics, taxol) • Separation for next step (Ex : lactic acid for polymer)

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