The SciFEMM interface is automatically included in every installation.
Programa scilab install#
Recent builds of Octave install the Windows package automatically, but in some older versions, Octave-Forge must be selected manually during install:Īfter installation, you'll need to add FEMM's mfiles directory to Octave's search path:
Programa scilab download#
You can download the most recent distribution of GNU Octave from įEMM needs the Octave-Forge "Windows" package to efficiently communicate with Octave. The FEMM 4.2 distribution includes toolboxes for interacting with FEMM from Octave/Matlab, Scilab, Mathematica, and Python.įor Matlab, add the mfiles directory with the interactive pathtool command. Old versions of FEMM, Bela, and Mirage are also still available on the OldVersions page. Test / Developmental builds are available on the NewBuild page. However, there is an independent FEMM user's group at and many frequently asked questions are addressed in the FAQ. The program comes with no warranty or support.
Besides, the new program implemented in Scilab® has shown up to be a really efficient tool in the application of the method, facilitating the learning of users recent presented to Pinch technology and also being useful to more experienced designers, presenting satisfactory results regarding energy optimization of processes.A Windows finite element solver for 2D and axisymmetric magnetic, electrostatic, heat flow, and current flow problems with graphical pre- and post-processors. Thus, energy savings associated to capital savings are possible, making it easier to exist a quality deal between the environment and profitability of chemical industries. From this work, it can be concluded that Pinch analysis is a relatively simple and efficient way to the retrofit and synthesis of heat exchanger networks, being able to be used in the solution of a several range of problems. Furthermore, some of the main properties of this technique are presented, proving to be very interesting and inspiring for the rising or new researches in the area. Five case studies were presented to illustrate and test the performance of the new program. The purpose of this work was to create a computer program in Scilab® language, for application of basic principles of Pinch analysis.
Programa scilab software#
For that effect, there is the need to use software s to execute faster the initial calculations that Pinch method demands, in order to make it easier the future project of heat exchanger networks. Nevertheless, at times, the calculation needed for this methodology can be tedious and time consuming. It is based on the division of the problem into two systems starting from Pinch point, in which retrofits and/or synthesis of heat exchanger networks are realized separately, grounded on Thermodynamics principles. Over several studies down the years, the idea of Pinch technology has risen up as one of the main and most efficient techniques of energy integration so far. As regards chemical industries, one of the main focuses of this concern is the energy saving. The increasing concern about environmental impacts caused by human activities has led scientists to look for ways to settle the situation.
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