AnTherm Transient Periodic (Harmonic) Option
Periodic State thermal bridge assessment option (Harmonic option) for AnTherm. The software implementation covers the generalisations of thermal conductance matrix towards
dynamic heat transfer mechanisms involving thermal storage within buildings.
Dynamic numerical indicators, such as “amplitudes” and “phase lags,” for two- and three-dimensional problems leading to equation systems of anywhere from hundreds of thousand to several million equations, are derived from the concept of harmonic thermal conductance and are calculated
directly, i.e. neither with the need to know nor to supply any boundary conditions.
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Features
- » matrix of harmonic thermal conductances calculated directly
- » effective execution after a short learning period
- » ISO 13370 conformant
Supported Technologies
Software
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Pricing
Module
300 € to 1000 €
antherm@antherm.eu
+43.1.6157099
Base AnTherm Heat2D/Heat3D Steady State required:
http://www.softscout.com/software/Engineering/Engineering-Simulators-and-Modeling/AnTherm-Heat2D3D-steady-state.html
Resources
Additional Product Information
AnTherm is a powerful innovative software application for building physics that integrates new
visualisation capabilities, which have their origins in supercomputing and in the scientific visualisation
of large sets of physical data, in the daily life of a civil engineer. Features unavailable to building physicists only a short time ago (due to the high complexity and unacceptable learning costs involved) are provided in AnTherm in an intuitively graspable way. It employs extensive automation of the numerical models used, meaning that calculation results are (almost) immediately assessable and high quality visualisations can be transferred directly into the reports.
The integrated implementation allows effective execution after a short learning period and ensures conscious control of the tool without specialised knowledge. The tool should integrate itself into the everyday work process of an engineer, architect, building specialist or assessment expert, even if it is used only occasionally. Computation may take only seconds or, at most, a few minutes when executed on typical office hardware.
When used in the classroom, it should support and facilitate insightful learning. The application of advanced simulation and visualisation techniques significantly enhances the enjoyment of exploring the thermal performance of buildings and encourages the user to create optimised component variations.