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Which drier is the right
one?
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A lot of
manufacturers and processors of food, chemical and
pharmaceutical products face the problem that they have to
dry their products to make them storable and to preserve
them for trade and the consumer for a time long enough. With
a lot of different driers on the market, the decision is not
easy.
If the investment costs for a drier are to keep within
reasonable bounds, normally a convection drier is the only
one to take into consideration. The function principle of
the convection driers is based on hot, dry air flowing
around the product. The air temperature, on the one hand,
should be high enough so that the water absorption rate is
as high as possible, on the other hand, however, the product
to be dried must not be damaged.
Generally, the following applies: the lower the temperature
must be, the higher is the necessary air-flow. As the air
speed through the product can only be so high that the
product is not carried along by the air flow, the whole
drying time is extended and thus the size of the drier and
consequently the investment costs are increased.
In general, there are four different types of drying plants
on the market: The classic flatbed drier, the belt drier,
the duct drier with transverse ventilation or as cascade
drier and the rotary drier. We do not go into the tray drier,
which is mainly used for smaller batches.
The flatbed or feed-and-turn drier essentially consists of a
fixed screen deck, on which the product is fed in a certain
bulk height. The air is pressed through the screen deck and
through the product from below and escapes freely into the
surrounding air after having flown through the complete bulk
height or the air is exhausted and lead off by an exhaust
fan.The principle is taken over from the well-tried wagon
drying system, i. e. drying the product in one batch without
motion and mixing.
A flatbed drier has additionally a feed-and-turn device
moving the product continuously forward and mixing it. Thus
the feed-and-turn drier can be used as a batch drier on the
one hand, drying one drier filling completely to the
required final moisture; subsequently, the drier is emptied
completely and filled with product again. Hereby, the turn
device serves for mixing and emptying only. On the other
hand, a feed-and-turn drier can be used as continuous mixed
flow drier. At one side, fresh product is fed onto the
screen, at the other side, the product is discharged. The
feed-and-turn device conveyes and mixes the product.
The flatbed drier was nearly forgotten in the eighties and
nineties, as its original function of drying grain was taken
over almost completely by the more efficient cascade drier.
It has recently, however, gone through a renaissance in
drying non-trickling products like e. g. herbs, pumpkin seed
etc. Here it is nearly unrivalled for smaller up to medium
capacities when it comes to costs and flexibility.
The belt drier is unmatched in flexibility. There is
virtually no product that cannot be dried on a belt drier,
also non-trickling, bulky, sticky or sensitive products.
Similar to the flatbed drier, the product is ventilated
through the trellis or perforated plate of the belt. In
contrast to the flatbed drier, the product is not moved over
the screen, but rests on the belt, which carries the product
through the whole drier. Depending on the capacity of the
plant and the available space, a belt drier can be designed
as one, two or multi belt drier. The belt speed and the bulk
heights can be adjusted individually depending on the kind
of product. The grain size of the product is basically the
only technical limitation.
As a rule, the grain has to be bigger than the mesh width or
the hole diameter of the belt. Even if the product
agglomerates easily, i. e. sticks together, drying is
possible. Some special chemical products having this
characteristic can even be dried with a grain size of > 3
m!
A belt drier is flexible in air adjustment and ducting. In
only one plant, many things can be combined, to start with a
various temperature and air flow up to the alternating upper
and lower ventilation of various belt zones. The fields of
application of the belt drier include food and petfood
industry as well as the chemical, pharmaceutical and
recycling industry.
The drier used most for trickling bulk goods is the tunnel
or vertical drier. Its main field of application is the
drying of grain, corn, oil seed etc. The product runs
through the drier from above downwards, the air flowing
through the bulk material. Simple tunnel driers consist of
vertical, parallel perforated plates with the product
between them. The air flows through the perforated plate on
the hot air side, then through the product and escapes
through the perforated plate on the exhaust side.
The cascade drier dries the product more carefully and
consistently; the air is distributed in the product by
roof-shaped air ducts. The cascades are arranged in such a
way that a virtual “bulk height” develops between inlet and
exhaust air roof; this “bulk height” is constant throughout
the drier. In the course of the drying process, every single
grain is dried constantly and carefully because of the
product passage and the permanent change of the ventilation
direction. Usually, cascade driers are installed outside
because of their size. Therefore, great importance has to be
attached to high-quality material. Aluminium has become
technical standard, it resists corrosions or mechanical
stress when it is high-quality alloyed.
For very high capacities of water evaporation, a drum drier
is used in many cases. The product is transported in the
rotating drum mainly by paddle installations, the free
product overflow to the discharge and the intake air. The
drier the product becomes, the further the air flow carries
the product to the drier discharge.
A drum drier can dry large product quantities with higher
temperatures in a relatively short time. Basically, drum
driers, similar to belt driers, are suitable for a vast
number of products. Related to the capacity, the purchase
costs are approximately identical with those of a belt
drier. There is, however, a relatively great amount of
energy involved. Prior to the final decision for a drum
drier, the product to be processed and its precise
parameters have to be considered exactly.
The following table should give an overview of the various
drying plants and their fields of application.
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