在颗粒受力分析及沉降末速计算基础上，首先选取了沉降速度模型，进而对脉动干扰沉降理论做了初步探讨。

With analysis of forces on particle and calculation of terminal velocities, terminal velocity models are selected, and then Pulse jamming settlement theory was discussed.

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通过实际数据与模拟数据的比较，来检验该模型的可靠性，并选择合适的沉降速度模型，以期能够运用该软件可以更好地指导沉淀池的实际运行。

Comparison to the experimental data and simulated data is done to test the effectiveness of the model. Proper velocity model is chosen to better guide the sedimentation tank operation.

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得出了温度对沉降速度和浓缩机处理能力影响的数学模型。

The mathematical model has been established for the effect of temperature on settling velocity and throughput capacity of a thickener.

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采用了离心力加快沉降速度，粒子的沉降速度大，均匀低速的假设条件不再满足，理论计算模型和实际情况偏差大。

Thirdly, because of the centrifugal force, particles in the magnetorheological fluid sediment at a speed faster than the assumed low and uniform speed in the theoretical sedimentation model.

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采用了离心力加快沉降速度，粒子的沉降速度大，均匀低速的假设条件不再满足，理论计算模型和实际情况偏差大。

Thirdly, because of the centrifugal force, particles in the magnetorheological fluid sediment at a speed faster than the assumed low and uniform speed in the theoretical sedimentation model.

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