Whats new in TRISCO version Physibel TRISCO version
What’s new in TRISCO version Physibel TRISCO version 13 w
New performances summary Physibel TRISCO version 13 w
Superposition allows to minimise the Blocks input. To define the external corner junction above using superposition only 6 blocks are required. However, for a correct cavity equivalent thermal conductivity, 2 cavity colours are required. Physibel TRISCO version 13 w
Use > Arrange Blocks > Use juxtaposition Physibel TRISCO version 13 w
Now 11 blocks describe the object. The appropriate colour for the second cavity is now applied. Physibel TRISCO version 13 w
Use > Arrange Blocks > Use superposition to return to a minimised number of blocks. Physibel TRISCO version 13 w
Using juxtaposition (left image) 43 block definitions are required. Using superposition (right image) only 15 block definitions are required. The window was modeled starting from a 2 D section, applying the revolve and transformation functions. This results in a lot of blocks in juxtaposition. At the end of the 3 D modeling the superposition arrangement is applied to minimise the number of blocks. Physibel TRISCO version 13 w
The roof junction is clipped from the total object. … … Physibel TRISCO version 13 w
The roof junction is clipped from the total object. The data are reduced to the clip (and saved under a new name), … Physibel TRISCO version 13 w
The roof junction is clipped from the total object. The data are reduced to the clip (and saved under a new name), ready for the roof junction analysis. Physibel TRISCO version 13 w
3 D junctions are composed of multiple 2 D junctions for which the linear thermal transmittance ( -value) needs to be calculated. The example above shows the conventions - external dimension system (left) - internal dimension system (right). Physibel TRISCO version 13 w
The 3 D junction is clipped 3 times, once for each 2 D junction. Physibel TRISCO version 13 w
The 3 D junction is clipped 3 times, once for each 2 D junction. Above the clipping for one of both vertical sections is shown. Physibel TRISCO version 13 w
For each 2 D junction the -value is derived. Physibel TRISCO version 13 w
From the 3 D simulation and the 3 -values the point thermal transmittance or -value can be derived. Physibel TRISCO version 13 w
All colours, except colour 11 (stainless steel) are clipped. The data are reduced to the clip (and saved under a new name). Physibel TRISCO version 13 w
The clipped object can be used for input into other TRISCO data (Menu Blocks > Insert File). Physibel TRISCO version 13 w
In the 3 D model above some void space occurs. In the simulation void space is considered as adiabatic (perfect insulation) and therefore a false result will be obtained. Physibel TRISCO version 13 w
Void space can be detected and converted into blocks ! Physibel TRISCO version 13 w
Block size 0. 3 m x 3. 5 m x 0. 8 m Physibel TRISCO version 13 w
Colour volume 11 m 3 Physibel TRISCO version 13 w
Physibel TRISCO version 13 w
Physibel TRISCO version 13 w
Physibel TRISCO version 13 w
Physibel TRISCO version 13 w
Physibel TRISCO version 13 w
3 D modeling using v 12 & v 13 functionality Physibel TRISCO version 13 w
3 D modeling using v 12 & v 13 functionality 2 D section from Trisco. Dxf or from BISCO ! Physibel TRISCO version 13 w
3 D modeling using v 12 & v 13 functionality Use revolve function to make 3 D corner Physibel TRISCO version 13 w
3 D modeling using v 12 & v 13 functionality Use revolve function to make 3 D corner Physibel TRISCO version 13 w
3 D modeling using v 12 & v 13 functionality Use copy and transform functions to complete 3 D junction Physibel TRISCO version 13 w
3 D modeling using v 12 & v 13 functionality Add 3 D elements (such as screws). Calculate. Physibel TRISCO version 13 w
In the example above all blocks with colour 11 (stainless steel) are converted at once into blocks with colour 13 (steel). Physibel TRISCO version 13 w
Physibel TRISCO version 13 w
Physibel TRISCO version 13 w
Program module TRISCO 64 bit version Allows solving huge systems, > 10 000 nodes Physibel TRISCO version 13 w
Program module RADCON Advanced thermal simulations conduction – convection – radiation Physibel TRISCO version 13 w
Program extension SOLIDO Steady state heat transfer simulation in any shape 3 D object Physibel TRISCO version 13 w
Program extension SOLIDO Blocks are defined as - solids: prism, pyramid, parallelepiped, sphere, cylinder, cone, … - files in STL format (Stereolithography Tessellation Language) Physibel TRISCO version 13 w
Program extension SOLIDO Blocks are defined as - solids: prism, pyramid, parallelepiped, sphere, cylinder, cone, … - files in STL format (Stereolithography Tessellation Language) Physibel TRISCO version 13 w
Program extension SOLIDO: What ‘s new in version 4 ? Physibel TRISCO version 13 w
Thank you for your attention ! made visible by PHYSIBEL Heirweg 21 B-9990 Maldegem Belgium phone +32 50 711432 www. physibel. be mail@physibel. be Physibel TRISCO version 13 w
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