Technology
Enormous thermal storage capacity in the smallest of spaces
MELT Plates are filled with phase change material. As a result, they have an enormous heat storage density. A 1,2 cm thick MELT Plate replaces the storage capacity of a solid concrete wall with a thickness of 20 – 30 cm in the building envelope.
Large-area thin macroencapsulation
In addition to the high storage capacity of the phase change materials, the fast, secure delivery and absorption of the stored energy is also important.
MELT-Ing GmbH can produce particularly stable, thin panels that are several square meters in size. Due to an even distribution of the material and a particularly large transfer surface, the MELT Plate enables high heat flows.
Adapted to contemporary new buildings and renovations
Thanks to standard formats and sizes of MELT Plates that can be adapted for B2B customers, MELT-Ing GmbH meets all requirements for modern prefabricated construction and renovation.
The construction of lightweight houses varies from manufacturer to manufacturer and end customers also expect flexibility. Together with our customers, we develop solutions for incorporating our plates into individual wall, ceiling or floor constructions.
How it works
Materials require large amounts of thermal energy to melt, which is released again when solidifying. MELT products take advantage of this effect. By introducing a material tailored to the different needs into the building envelope - with a specific melting point - it buffers exactly at the desired feel-good temperature. This means tailor-made heat storage according to your preferences and the climatic conditions on site.
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So your heating system can also take a break on cloudy days.
Products that scale with your project
More informations coming soon
Benefits all year round
Form and positioning
In addition to the substance class and flexibility of MELT products, there are other aspects to consider
The positioning of the products is optimally adapted to the customer's problem. In particular, the temperature gradients and interactions with other materials play a role here.
For the building application, the panels are integrated into the outer shell. Here, the material acts particularly efficiently as a STOP shield for heat or cold.
