Transcript Document
What’s new in TRISCO version Physibel TRISCO version 13w New performances summary Physibel TRISCO version 13w 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 13w Use > Arrange Blocks > Use juxtaposition Physibel TRISCO version 13w Now 11 blocks describe the object. The appropriate colour for the second cavity is now applied. Physibel TRISCO version 13w Use > Arrange Blocks > Use superposition to return to a minimised number of blocks. Physibel TRISCO version 13w 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 2D section, applying the revolve and transformation functions. This results in a lot of blocks in juxtaposition. At the end of the 3D modeling the superposition arrangement is applied to minimise the number of blocks. Physibel TRISCO version 13w The roof junction is clipped from the total object. … … Physibel TRISCO version 13w 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 13w 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 13w 3D junctions are composed of multiple 2D 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 13w The 3D junction is clipped 3 times, once for each 2D junction. Physibel TRISCO version 13w The 3D junction is clipped 3 times, once for each 2D junction. Above the clipping for one of both vertical sections is shown. Physibel TRISCO version 13w For each 2D junction the -value is derived. Physibel TRISCO version 13w From the 3D simulation and the 3 -values the point thermal transmittance or -value can be derived. Physibel TRISCO version 13w 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 13w The clipped object can be used for input into other TRISCO data (Menu Blocks > Insert File). Physibel TRISCO version 13w In the 3D 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 13w Void space can be detected and converted into blocks ! Physibel TRISCO version 13w Block size 0.3 m x 3.5 m x 0.8 m Physibel TRISCO version 13w Colour volume 11 m3 Physibel TRISCO version 13w Physibel TRISCO version 13w Physibel TRISCO version 13w Physibel TRISCO version 13w Physibel TRISCO version 13w Physibel TRISCO version 13w 3D modeling using v12 & v13 functionality Physibel TRISCO version 13w 3D modeling using v12 & v13 functionality 2D section from TriscoDxf or from BISCO ! Physibel TRISCO version 13w 3D modeling using v12 & v13 functionality Use revolve function to make 3D corner Physibel TRISCO version 13w 3D modeling using v12 & v13 functionality Use revolve function to make 3D corner Physibel TRISCO version 13w 3D modeling using v12 & v13 functionality Use copy and transform functions to complete 3D junction Physibel TRISCO version 13w 3D modeling using v12 & v13 functionality Add 3D elements (such as screws). Calculate. Physibel TRISCO version 13w In the example above all blocks with colour 11 (stainless steel) are converted at once into blocks with colour 13 (steel). Physibel TRISCO version 13w Physibel TRISCO version 13w Physibel TRISCO version 13w Program module TRISCO 64 bit version Allows solving huge systems, > 10 000 000 nodes Physibel TRISCO version 13w Program module RADCON Advanced thermal simulations conduction – convection – radiation Physibel TRISCO version 13w Program extension SOLIDO Steady state heat transfer simulation in any shape 3D object Physibel TRISCO version 13w Program extension SOLIDO Blocks are defined as - solids: prism, pyramid, parallelepiped, sphere, cylinder, cone, … - files in STL format (Stereolithography Tessellation Language) Physibel TRISCO version 13w Program extension SOLIDO Blocks are defined as - solids: prism, pyramid, parallelepiped, sphere, cylinder, cone, … - files in STL format (Stereolithography Tessellation Language) Physibel TRISCO version 13w Program extension SOLIDO: What ‘s new in version 4 ? Physibel TRISCO version 13w Thank you for your attention ! made visible by PHYSIBEL Heirweg 21 B-9990 Maldegem Belgium phone +32 50 711432 www.physibel.be [email protected] Physibel TRISCO version 13w