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Aerosol Lab 2

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  1. 根据课本和课件信息,计算直径为1 μm, 10 μm, 100 μm粒子的重力沉降的末速度。
  2. 考虑一个重力沉降舱(gravitational settling chamber),高(H)为3 m、有效宽度(W)为30 m,废气体积流速(volumetric gas flow Q)为50 m^3/s。假设废气中粒子直径全部都是10 μm,计算沉降舱需要多少长度,才能达到80%的收集效率(collection efficiency, η)?如果粒子直径全部都是都是100 μm呢?
  3. 考虑一个静电收集舱(ESP)。根据课本和课件信息,计算直径为1 μm, 10 μm, 100 μm粒子在ESP内的末速度(terminal velocity 或 drift velocity)。假设ESP中的电场强度为 300 kV/m,粒子的介电常数(ε)为6。空间的permissivity(ε_0)是8.85×10^{-12} C/V/m。粘滞系数(μ)是1.8×10^{-5} kg/m/s。
  4. 上一题中,假设ESP的总收集板面积(collection plate area, A)是400 m^2,废气体积流速(volumetric gas flow Q)为10 m^3/s。假设废气中粒子直径全部都是1 μm,计算ESP的收集效率(collection efficiency, η)?如果粒子直径全部都是都是10 μm呢?如果粒子直径全部都是都是100 μm呢?
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