Process scale-up is a critical activity that enables a fermentation process achieved in research and development to operate at a commercially viable scale for manufacturing.
1. Scale up of fermentation
Dr. Pavan J Kundur, M.Sc., Ph.D.,
Assistant Professor
Department of Biotechnology
P C Jabin Science College,
Hubballi, Karnataka, India
2. Scaleup•Scale up studies refers to the act of using
results obtained from laboratory studies for
designing a prototype and a pilot plant
process; construction a pilot plant and using
pilot plant data for designing and
constructing a full scale plant.
5. Why conduct Scale up 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.
• Scale up studies are studies carried out at the laboratory or
even pilot plant scale fermentors to yield data that could
be used to to extrapolate and build the large scale
industrial fermentors with sufficient confidence it will
function properly with all its behaviours anticipated.
6. Importance of scale up studies
• More important during scale up exercises is that we are trying
to build industrial size fermentor capable or close of producing
the fermentation products as efficient as those produced in
small scale fermentors.
• It must be appreciated as the size of fermentation increases
during scale up various parameters measured might not show
a predictable linear co-relationships. Certain parameters
changes. Some remained constant. Some parameters need to
be modified and adjusted during scale up studies. The
objective is to try to get the same fermentation efficiency as
obtained in small scale fermentors at the most economical
values.
7. •Determining the various operational parameters
for optimized oxygen supply to the fermentation
process.
•Selection of optimum operative modes of the
fermentor
•Determining the changes in rheological properties
and its effect on the fermentation process.
•Modeling and formulation of process controls
•Sensors and controls
There are few crucial studies which will only be
answered by carrying it out on the pilot plant such
as:
8. 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
9. INITIAL SCALE UP STUDIES
Most scale up studies are usually carried at different phases
involving different scales of fermentors.
Preliminary work are carried out at the level of petri dishes and small
scale laboratory fermentors to establish whether the process is
technically viable, meaning it is possible to produce such
fermentation process and the products on the small scale.
Additional parameters not provided by petri dishes studies and for
more confidence are obtained by carrying further studies using
submerged liquid fermentation using various sizes laboratory scale
fermentors and even a pilot plant fermentor.
10. Rules followed while doing scale-up
• There are a few rules of the thumb followed when doing scale
up studies such as:
1. Similarity in the geometry and configuration of fermentors
used in scaling up
•
2. A minimum of three or four stages of increment in the
scaling up of the volume of fermentation studies. Each jump in
scale should be by a magnitude or power increase and not an
increase of a few litres capacity. Slight increase in the working
volume would not yield significant data for scale up operation
11. 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
12. Studies carried out during scale up
1. Inoculum development
2. Sterilization establishing the correct sterilization
cycle at larger loads
3. Environmental parameters such as nutrient
availability, pH, temperature, dissolved
oxygen, dissolved carbon dioxide,
4. Shear conditions, foam production