Abstract：

This paper conducts an experimental study on two pipelines with large diameter including DN50 and DN80 pipelines, and the flow in the experiments is in turbulence. It is found that, at low Reynolds number, the resistance coefficient of ice slurry is much higher than that of pure water with single-phase flow which follows the Blasius correlation, and the higher the ice packing fraction is, the higher the resistance coefficient is. At high Reynolds number, the resistance characteristics of ice slurry tend to follow the Blasius correlation, and the resistance coefficients of different ice packing fractions are consistent with those of pure water. Both the ice packing fraction and pipeline diameter have an influence on when the ice slurry resistance coefficient enters the Blasius curve. The larger the ice packing fraction is and the larger the pipeline diameter is, the greater the Reynolds number entering the Blasius curve is. Compared with the straight pipeline, the critical velocity of the elbow is higher and the elbow is more prone to blockage, and the higher the ice packing fraction is, the greater the critical velocity is.

Keywords:ice slurry; pipeline; large diameter; ice packing fraction; resistance coefficient; Reynolds number; Blasius