Experimental data is obtained from the operation of a hydrocyclone. A single slurry (solids + water) feed is divided into two process streams. From the data provided, calculate the following, i) the masses of solid and water in the overflow, and ii) of the solids in the overflow what % are less than 0.125 mm. Mass Mass % Solids of Specific Size Fractions Solids Water - Imm + 0.5 mm - 0.5 mm + 0.25 mm - 0.25 mm + 0.125 - 0.125 mm + 0.06 mm + Imm - 0.06 mm mm Feed 21.01 16.26 7.10 19.30 13.30 11.70 9.90 38.70 Underflow 12.70 6.73 11.74 31.80 16.04 7.90 6.42 26.08 Overflow
Experimental data is obtained from the operation of a hydrocyclone. A single slurry (solids + water) feed is divided into two process streams. From the data provided, calculate the following, i) the masses of solid and water in the overflow, and ii) of the solids in the overflow what % are less than 0.125 mm. Mass Mass % Solids of Specific Size Fractions Solids Water - Imm + 0.5 mm - 0.5 mm + 0.25 mm - 0.25 mm + 0.125 - 0.125 mm + 0.06 mm + Imm - 0.06 mm mm Feed 21.01 16.26 7.10 19.30 13.30 11.70 9.90 38.70 Underflow 12.70 6.73 11.74 31.80 16.04 7.90 6.42 26.08 Overflow
Introduction to Chemical Engineering Thermodynamics
8th Edition
ISBN:9781259696527
Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Publisher:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart
Chapter1: Introduction
Section: Chapter Questions
Problem 1.1P
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Transcribed Image Text:Experimental data is obtained from the operation of a hydrocyclone. A single
slurry (solids + water) feed is divided into two process streams. From the data
provided, calculate the following,
i) the masses of solid and water in the overflow, and
ii) of the solids in the overflow what % are less than 0.125 mm.
Mass
Mass
% Solids of Specific Size Fractions
Solids
Water
- 0.5 mm
- 0.25 mm
- 0.125 mm
+ 0.06 mm
+ Imm
- Imm
- 0.06 mm
+ 0.5 mm
+ 0.25 mm
+ 0.125
mm
Feed
21.01
16.26
7.10
19.30
13.30
11.70
9.90
38.70
Underflow
12.70
6.73
11.74
31.80
16.04
7.90
6.42
26.08
Overflow
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