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» Generated Results for heat transfer
4/1/03
The software simulates the flow of fluid and the thermal transfer
07:43 - While using thermics-transfer technology, numerical, the top of table QLS-8100 Xe immediately prints labels of full-color, labels, pockets, and engages to 8.3 Po broad at the print speeds of up to 5 IPS. The unit prints articles up to 60 Po length directly of the PC and does not require any dish or materials make-loan. All the data are treated by the incorporated microcontrolor, making it possible the printer to print the variable labels of information in true the speed and volume of production.
NIKA announce new the solutionnor of flow of gas of EFD.Lab 3.1 and tool for optimization of the geometry in addition to the floating effectiveness Frankfurt of increase in support of licence, Germany (March 26, 2003) --- NIKA announced today the availability of EFD.Lab 3.1, the last release of its simulation program of flow of autonomous fluid of sale hotter and thermal transfer. Among the new improvements are the addition of a powerful solutionnor of gas flow, a tool for optimization of the geometry and the support floating of licence. With this new version, NIKA increases the liquid effectiveness of simulation of dynamics of technology on a level even higher. Roland indicated Feldhinkel, director of management of NIKA.s. The Aces a result, EFD.Lab now better are designed with the gathering the demanding needs for the flow of fluid integrated by cycle of design and for the thermal simulation of transfer. The new functionality added devices of EFD.Lab 3.1 much of new improvements. Among them is the new solutionnor for gas flows. EFD.Lab can now simulate gas flows extending from the incompressible flows of low-Reynolds until the strongly compressible supersonic flows including/understanding special physical effects such as waves shocks without any interaction of user. This new solutionnor of gas flow employs the numerical technologies sophisticated such as algorithms multigrilles for the stability of solutionnor, the effectiveness of convergence, the speed of not exceeded solutionnor and the exactitude of result. Moreover, EFD.Lab 3.1 can now carry out automated calculations of parameter of the geometry to meet criteria defined by the effects of flow of fluid. For example, this tool can be used to calculate the position of a piston of valve acting against a spring by using balance between the forces on the piston induced by the flow of fluid and the force of spring of valve.s. Finding positions optimal of the parts in a meeting of assembly defined criteria of flow, or the calculation of the form and size of the details of the geometry like nets or openings for a better design of flow could be between other applications of these new possibilities. A floating option of licence was also added for the last release of EFD.Lab. This option allows the flexible use of the multiple seats of the software at independent installed by network of the specific working stations. The cycle of design integrated the simulation of flow of fluid with EFD.Lab EFD.Lab is based on the principles of the liquid dynamics of technology (EFD). EFD is an approach radically different from data-processing liquid dynamics (CFD). _ while to base on same mathematics bases like CFD programs, EFD programs being not only powerful, but so extreme easy to employ. EFD.Lab comprises incompressible flows (liquid or gas) or compressible (of gas), laminar, turbulent, balanced and transitory écouements, external roughness, the combined thermal transfer, the particle detecting, and much more physical models. EFD.Lab is mainly employed for the development and the optimization of various products such as the parts of the motor vehicles, the residences of computer, the switching units, the devices electronic, the systems of the CAHT, the valves and the regulators, equipment medical, in addition to the building and of industries of fire-protection. EFD.Lab includes a preprocessor with modelling full parametric with the geometry, and a powerful post-processor for the easy treatment and the visualization of the results. The preprocessor imports the indigenous files of CAD of the systems of the most significant CAD and supports many standard formats of file. The geometry of CAD of a design can be directly employed without modelling a separate field of the space of flow. This single device combined with the automatic generation of mesh and the orders of convergence of solutionnor make it possible to the engineer to benefit from the entirely integrated simulation of flow in the cycle of design. About NIKA NIKA GMBH was founded in 1999 and specializes being studied and the marketing of the software of simulation for the flow of fluid and the thermal transfer (dynamic liquid data processing). NIKA GMBH is a world subsidiary company with registered offices in Frankfurt on Main, Germany. EFD.Lab is distributed by the authorized associates of sales of NIKA in to Germany, in France, in Italy, with the Benelux countries, in Spain, in Scandinavia, in the United States and Japan. NIKA actively seeks the additional qualified associates of distribution in the whole world. Contacts: General information: Director Of Management Of Roland Feldhinkel The United States
Company Information:
NIKA-USA LLC
221 Main Street, San Francisco, CA, 94105 USA
Phone: 415 537 0970 FAX: 415 537 0973
http://www.floworks.com
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