Sentence examples for cut sizes from inspiring English sources

The obtained cut sizes differ significantly from those found in literature.

For very small cut sizes in the range of 1 10 μm none of the established commercially available devices allows sufficient classification with reasonable throughputs and separation sharpness.

To benchmark our algorithms we evaluated their performance and found they produce 10%40%% smaller graph cut sizes than METIS 4.0 for typical mobile computing scenarios.

The simulated particle distribution values generated using the particle injection technique are found matching with the experimental results while achieving cut sizes between 4.9 and 14.0 μm.

The developed performance chart is validated and is shown to be capable of predicting the hydrocyclone performance over a wide range of hydrocyclone flow rates and separation cut sizes.

While numerous equipments are commercially available to the engineer for separation with cut sizes in the range of several tens of micrometers the number of capable devices is significantly reduced with decreasing cut size.

The Max-Cut problem seeks to determine the maximal cut size in a given graph.

The optimized configuration of hydrocyclone presented a high efficiency and a small reduced cut size.

A mathematical model for predicting particle separation efficiency and cut size particle diameter has been developed.

To interpret results, a model for the cut size of an axial flow cyclone is given.

The results are validated with water throughput, split and cyclone cut size while classifying flyash.