Choosing the right spray dryer
GEA Niro has significant expertise within process equipment,
including spray drying plants for the Food & Dairy industry. When selecting
a spray drying plant, it is important to know the requirement to the end
product. Should it be a regular product, or should it be agglomerated and
instantly soluble in cold water?
The spray drying process
The spray
drying process depends entirely on the composition of the product. Some are
very easy and others very difficult to dry. In this context it should be stated
that a GEA Niro dryer is designed and the process parameters selected to ensure
as long operation time as possible, before it is necessary to stop the plant
for cleaning.
Below some basic principles are given to be used when a
GEA Niro dryer is designed:
1. The total moisture content in the exhaust
air is one of the most important parameters. It depends on the composition of
the product, e.g. a product with high protein content can be dried at high
total moisture content in the exhaust air, whereas a high carbohydrate content
requires low moisture content to avoid sticking of powder in the chamber, ducts
and cyclones.
This is also why the total moisture content in the
ambient air is an important parameter to know before the plant is designed, as
the "drying potential" is reduced if the ambient total moisture is high.
2. Another important parameter to know is the maximum solids content in
the concentrate. This is viscosity-driven and as such also depending on the
composition of the product. As a rule of thumb the following applies:
High fat content
• allows higher solids content.
• requires
lower drying temperature in order to avoid sticking (i.e. low total moisture
content in the exhaust air).
High protein content
• requires lower
solids content due to viscosity (except for hydrolysed proteins).
• allows
higher drying temperature without sticking (i.e. high total moisture content in
the exhaust air).
• The higher protein content, the more difficult becomes
the agglomeration process. This is, however, counteracted, if the MSD™ or IFD™
dryers are selected.
High carbohydrate content
• Allows higher
solids content (except for starch, due to its high viscosity) of the
concentrate.
• Allows higher spray drying temperature without sticking, if
the carbohydrates are of the high molecular weight type (e.g. maltodextrins and
starches), which results in an increase of the glass transition temperature.
The moisture content of the chamber exhaust air can be higher when drying
powders with higher glass transition temperatures resulting in a more
economical drying.
• If the carbohydrates are of the low molecular weight
type (e.g. sugar, lactose and glucose syrup), it results in a decrease of the
glass transition temperature, which requires lower spray drying temperature in
order to avoid sticking (i.e. low total moisture content in the exhaust air)