000 | 01404nab a22002657 4500 | ||
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001 | H001 SUL | ||
003 | AR-sfUTN | ||
008 | 190909b xx |||p|r|||| 00| 0 spa d | ||
040 | _cAR-sfUTN | ||
080 | _aH001 SUL | ||
100 | _aMoser, Felix | ||
700 | _aMathys, Peter | ||
700 | _aHirschberg, Sebastian | ||
245 | _aA new tool for CFD simulation of laminar flow in mixers. | ||
336 |
_2rdacontent _atexto _btxt |
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337 |
_2rdamedia _asin mediaciĆ³n _bn |
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338 |
_2rdacarrier _avolumen _bnc |
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505 | _aStandard CFD solvers are suitable for the calculation of velocity and pressure fields. In static mixing, however, concentration distributions are essential for the prediction of homogeneity and therefore, simulations of this process are much more challenging. In collaboration with Sulzer Chemtech, Sulzer Innotec developed a numerical method that allows predicting the effect of molecular diffusion-which is essential for laminar-flow mixing-while avoiding artificial numerical diffusion. Measurements of homogeneity and diffusion coefficients with the laser-induced fluorescence method (LIF) were performed at Sulzer Chemtech in order to validate the calculations. | ||
650 | _aCFD SIMULATION | ||
650 | _aLAMINAR FLOW | ||
650 | _aMIXERS | ||
773 |
_tSulzer Technical Review _wH001 SUL _nS.T.:H001 SUL PP3833 _g(nro. 2, 2006), p. 8-11 |
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942 | _cAN | ||
999 |
_c39775 _d39775 |