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SCALE-UP

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A pilot plant can be used for Considerations in pilot plant development SIMILITUDES IN SCALE-UP EXAMPLE YEAST FERMENTATON Yeast Scale-up Example ... – PowerPoint PPT presentation

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Title: SCALE-UP


1
SCALE-UP
  • Definition
  • Act of using results obtained from laboratory
    studies for designing a prototype and a pilot
    plant processconstruction a pilot plant and
    using pilot plant data for designing and
    constructing a full scale plant or modifying an
    existing plant

2
Problems in Scale up an Food Production Processes
  • Fundamental knowledge of chemical and physical
    interactions among complex ingredients is either
    scarce or non-existent
  • There is usually a lack of data of physical
    properties for complex food formulations
    (specific heat capacities, thermal
    conductivities, phase relationship, rheology, etc)

3
Steps in Scale-Up
  • Define product economics based on projected
    market size and competitive selling and provide
    guidance for allowable manufacturing costs
  • Conduct laboratory studies and scale-up planning
    at the same time
  • Define key rate-controlling steps in the proposed
    process
  • Conduct preliminary larger-than-laboratory
    studies with equipment to be used in
    rate-controlling step to aid in plant design
  • Design and construct a pilot plant including
    provisions for process and environmental
    controls, cleaning and sanitizing systems,
    packaging and waste handling systems, and meeting
    regulatory agency requirements
  • Evaluate pilot plant results (product and
    process) including process economics to make any
    corrections and a decision on whether or not to
    proceed with a full scale plant development

4
Why conduct Pilot Plant Studies?
  • A pilot plant allows investigation of a product
    and process on an intermediate scale before large
    amounts of money are committed to full-scale
    production
  • It is usually not possible to predict the effects
    of a many-fold increase in scale
  • It is not possible to design a large complex food
    processing plant from laboratory data alone with
    any degree of success

5
A pilot plant can be used for
  • Evaluating the results of laboratory studies and
    making product and process corrections and
    improvements
  • Producing small quantities of product for
    sensory, chemical, microbiological evaluations,
    limited market testing or furnishing samples to
    potential customers, shelf-live and storage
    stability studies
  • Determining possible salable by-products or waste
    stream requiring treatment before discharge
  • Providing data that can be used in making a
    decision on whether or not to proceed to a
    full-scale production process and in the case of
    a positive decision, designing and constructing a
    full-size plant or modifying an existing plant

6
Considerations in pilot plant development
  • Kind and size depends on goals evaluating
    product and process producing samples of product
    for evaluation market testing or furnishing to
    potential customers
  • Location near RD facility? At an existing
    plant? Close liaison between RD and pilot plant
    staff is essential
  • Labor requirements and costs engineering staff,
    skilled operations and maintenance staff- pilot
    plant costs may exceed those of usual plant
    production costs. The pilot plant may be used
    for training personnel for a full- scale plant

7
SIMILITUDES IN SCALE-UP
  • 4 DIMENSIONS FORCE, MASS, DISTANCE AND LENGTH
  • LACK OF DIFFERENTIAL EQUATIONS DURING PILOT PLANT
    TRIALS LIMITS USEFULLNESS
  • DYNAMIC EQUALITY BETWEEN DIMENSIONLESS NUMBERS
  • NOT ALWAYS POSSIBLE TO ACHIED DYNAMIC SIMILARITY
    BETWEEN SCALES. DIFFERENCES SUCH AS VORTEXING AND
    SURFACE TENSION CAN EFFECT RESULTS.
  • CHEMICAL- OFTEN IMPOSSIBLE TO DETERMININE RATE
    LIMITING REACTIONS IN FOOD SYSTEM
  • DIFFUSION AND TEMPERATURE CAN BE IMPORTANT AND
    NOT ALWAYS COMPARABLE AT DIFFERENT SCALES

8
EXAMPLE YEAST FERMENTATON
  • DEFINE DESIRED RESULTS
  • PRODUCTION SIZE
  • FERMENTER SIZE
  • RAW MATERIALS
  • SOLIDES AFTER CENTRIFUGING
  • LAB SCALE DATA AVAILABLE
  • EVALUATION INFORMATION AT HAND
  • SCALE UP REQUIRED FOR
  • HOLDING TANKS
  • FERMENTER FOR SEED INOCULUM
  • 4 SCALES TO FULL PRODUCTION OF FERMENTERS,
    CENTRIGUGES, FILTRATION AND DRYING

9
  • Yeast Scale-up Example
  • Production goal 7200 kg (dw)/14 hr. run
  • Fermenter-150 m3 (120 m3 working volume),
  • 14 h run., fed batch operation
  • Solids after centrifugation, filter pressing
    and
  • drying, 96

10
  • Yeast Scale-up Example
  • Production goal 7200 kg (dw)/14 h run
  • Fermenter-150 m3 (120 m3 working volume),
  • 14 h run., fed batch operation
  • Solids after centrifugation, filter pressing
    and
  • drying, 96

11
Yeast Scale-up Example
  • Laboratory Scale Data
  • Fermenter, 15 L (12 L working volume).
  • H/D 21, t 30C., pH 4.5, heat output 3-4.4
  • kcal/ g yeast solids, dissolved O2 7 ppm.
  • Specific growth rate, 0.2/h, yield 0.55kg/kg
  • fermentable sugars, cell conc. 0.65 g (dw)/L
  • Pilot plant fermenter, 150 L
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