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hotmodellering

Hotmodellering is a Dutch term used in engineering and science to refer to the modelling of thermal processes. It encompasses the formulation, solution, and interpretation of models that describe how heat is generated, transferred, and stored in a system. While the literal translation is “heat modelling,” the precise meaning can depend on the field, and in English-language literature the equivalent concept is commonly called heat transfer modelling or thermal modelling.

Typical approach involves defining geometry and material properties, including how they vary with temperature, and applying

Applications of hotmodellering span numerous sectors. In building physics, it helps assess energy efficiency and comfort.

Tools commonly used include commercial software such as ANSYS, COMSOL, and ABAQUS, as well as OpenFOAM and

governing
equations
for
heat
transfer.
These
include
conduction,
convection,
and
radiation,
sometimes
coupled
with
fluid
flow
or
structural
equations.
Solutions
can
be
analytical
for
simple
problems
or
numerical
for
complex
ones.
Transient
simulations
capture
time-dependent
behavior,
while
steady-state
models
describe
long-term
conditions.
In
many
contexts,
lumped-parameter
or
reduced-order
models
are
used
for
faster
approximations.
In
electronics
and
automotive
engineering,
it
supports
cooling
design
and
thermal
management.
Process
engineering,
energy
systems,
and
environmental
studies
also
rely
on
thermal
modelling
to
predict
temperatures,
heat
fluxes,
and
thermal
stresses.
MATLAB-based
workflows.
Key
data
requirements
include
material
properties
(thermal
conductivity,
specific
heat,
density),
boundary
conditions,
and
experimental
data
for
calibration
and
validation.
Challenges
include
nonlinear
material
behavior,
phase
changes,
anisotropy,
and
the
integration
of
thermal
models
with
structural
or
fluid
dynamic
models,
all
of
which
impact
accuracy
and
computational
demands.