Home

mikroreaktory

Mikroreaktory, the Polish term for microreactors, are small-volume reactors used for continuous-flow chemical synthesis. They employ microfabricated channels or capillaries with volumes typically in the microliter to milliliter range. The small scale provides a high surface-to-volume ratio, enabling efficient heat transfer, precise control of temperature and residence time, and safer handling of hazardous or highly exothermic reactions.

Most mikroreaktory designs rely on laminar flow, with mixing achieved through micromixing structures or chaotic advection.

Applications span pharmaceutical synthesis, fine chemical production, materials science, and specialty fields such as photochemistry and

Advantages of mikroreaktory include superior heat and mass transfer, improved safety profiles, reduced reagent consumption, and

Reagents
are
pumped
through
the
device,
and
temperature
is
regulated
by
jackets
or
integrated
heating
and
cooling.
Materials
for
construction
include
glass,
stainless
steel,
silicon,
and
various
polymers,
chosen
for
chemical
compatibility
and,
in
photochemical
applications,
optical
transparency.
Scale-up
is
generally
achieved
by
numbering
up—operating
many
identical
microreactors
in
parallel—or
by
integrating
multiple
reaction
stages
within
a
single
device.
electrochemistry.
Mikroreaktory
enable
rapid
reaction
screening,
inline
analytical
monitoring,
and
precise
control
of
residence
time,
temperature,
and
mixing,
contributing
to
reproducible
product
quality
and
easier
automation.
accelerated
process
development.
Challenges
include
potential
for
clogging
or
fouling,
complexity
of
equipment
and
control
systems,
higher
initial
capital
costs,
and
the
need
for
careful
reactor
design
and
process
integration.
In
pharmaceutical
manufacturing,
regulatory
considerations
further
shape
their
implementation.