Influence of Liner Yield Strength on Performance of CNG-II Composite Cylinder
p.537
p.537
The Analysis and Design of Electric Cooker
p.543
p.543
The Influence of Matching Flameresistant Materials on the Thermal Protective Performance of Firefighter Uniform
p.547
p.547
Experimental Studies on the Full-Scale Fatigue Performance of X65 Marine Pipeline
p.555
p.555
Numerical Simulation and Analysis of Carbon Black in Pneumatic Conveying Pipe
p.561
p.561
Water Modeling Study on Dispersed Phase Size Distribution and Interface Areas in Metallurgical Multiphase Reactor
p.567
p.567
The Technology of High Efficiency Water Purification
p.574
p.574
Eco-Packaging Solution for Express Service in the Era of Online Shopping
p.578
p.578
The Research of Internal Corrosion Location Prediction Technology in the Typical Pipeline Components of Natural Gas Gathering Pipeline
p.583
p.583
Water Modeling Study on Dispersed Phase Size Distribution and Interface Areas in Metallurgical Multiphase Reactor
Abstract:
The combined blowing process of metallurgical multiphase reactor was simulated by water modeling. The effects of operation conditions on dispersed phase size distribution were studied and an empirical formula was obtained. Based on the law of additive codimensions, the interface areas under different operation conditions were calculated by means of box counting and projection relationship. The results show that the frequency of dispersed phase with certain granularity level are in a certain proportion to its size level, and the dispersed phase areas are influenced by the top and bottom combined blowing.
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Info:
Periodical:
Advanced Materials Research (Volume 1052)
Pages:
567-573
Citation:
Online since:
October 2014
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