Sentence examples for a function of stirring from inspiring English sources

Experiments were carried out in a stirred tank yielding the micromixedness ratio α = (1−Xs Xs as a function of stirring speed for different viscosities.

Tomographic analysis of the hydrodynamic attributes of the gas liquid solid mixing in a 1-l capacity stirred-tank equipped with a 4-blade gas-entrainment impeller has been used to obtain the dispersed phase hold-up distribution as a function of stirring speed (impeller Reynolds Number, ReI) and solid particle loading.

The parameter NDα, as a function of the stirring rate N, the scale (D, impeller diameter) and the exponent α (calculated empirically from the regression of all the experiments in the three scales), is defined as the scale invariant that needs to be optimized, once the dispersed phase of the emulsion, the surfactant concentration, and the dispersed phase addition time are set.

The kinetic behavior of the transport process as a function of concentration, temperature, stirring rate and solvents was investigated.

The transport of mercury II) ion by a zwitterionic dithiophosphonate 1 in the liquid membrane was studied and the kinetic behavior of the transport process as a function of concentration, temperature, stirring rate and solvents was investigated.

A new organodithiophosphorus derivative, namely O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy

In this paper, we reported the synthesis of O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy O- 1,3-Bispiperidino-2-propyl -4-methoxy

In this work, the transport of mercury II) ion by the zwitterionic dithiophosphonate 1 in the liquid membrane was studied and the kinetic behavior of the transport process as a function of concentration, temperature, stirring rate and solvents was investigated.

The model predicted final concentrations of Cd, Cu, Pb and Zn as a function of current density, remediation time, stirring rate, dry/wet sediment, cell set-up as well as sediment properties.

In this paper, the size of Au NPs synthesized by the atmospheric microplasma electrochemistry was studied as a function of solution temperature, current, and stirring, and the main results are summarized in Figure 5.

It is found that the flame speed is a nonmonotonic function of the stirring intensity.