It is desired to remove dust particles (50µm) in diameter from (3.8 m³/sec) of air, using a gravitational settling chamber for the purpose. The air temperature and pressure is (20.1°C, at latm) respectively, and dynamic viscosity of (1.8 x 10 - 4Poise). The particle density is 2400 kg/m³. What minimum dimensions of chamber are consisted with conditions? Assume any missing data (use R- & 314 I/ moll

It is desired to remove dust particles (50µm) in diameter from (3.8 m³/sec) of air, using a gravitational settling chamber for the purpose. The air temperature and pressure is (20.1°C, at latm) respectively, and dynamic viscosity of (1.8 x 10 - 4Poise). The particle density is 2400 kg/m³. What minimum dimensions of chamber are consisted with conditions? Assume any missing data (use R- & 314 I/ moll

Solid Waste Engineering

3rd Edition

ISBN:9781305635203

Author:Worrell, William A.

Publisher:Worrell, William A.

Chapter5: Separation Processes

Section: Chapter Questions

Problem 5.32P

See similar textbooks

Similar questions

Mc = 3050g Ms = 800g Mss = 820g Mws = 3450g Calculate the values of: Mw = Ms 1. Bulk (O.D.) Specific Gravity = (Mc+Mss-Mws) Mss 2. Bulk (SSD) Specific Gravity =- (Mc+Mss-Mws) Ms 3. Apparent Specific Gravity =. (Mc+Ms-Mws) Mss-Ms 4. Percent Absorption = x 100% Ms
a) Mention the main characteristics of evaporation.b) Difference between particle specific surface and bed specific surface
CAN YOU PLEASE ANSWER THIS PROBLEM I NEED TODAY ASAP THANK YOU! SAMPLE PROBLEM given in second image
The absolute viscosity of the liquid is 1.8 x 10^-3 Pa-s and its SG is 2.00. Compute the equivalent value in stokes
Seepage force per unit volume can be expressed as (A) iy„L (B) iL (C) Y,h (D) iy.
Given that the absorption capacity of a sample of aggregates is 8.7% and the oven-dry mass of the sample is 1000 g. Determine the mass of water that this sample 'can absorb. O A. 43.50 O B. 8.70 O C. 870.00 O D. 0.87 O E. 87.00
Why is deflocculating agent added to the water in hydrometer test?
I need the answer quickly
Outline reasons why the coefficient of permeability determined by a laboratory test procedure might be preferred over that from a field test procedure.
KI-150 md hl=5m K2 60 md h2-10 m K3 300 md h3-7 m The average horizontal permeability? The average vertical permeability?
I want the solution in less than 15 minutes
Medium oil having a sp.gr. of 0.90 flows through a 120mm diameter pipe with a mean velocity of 5.3m/s and friction factor of 0.01. Oil has an absolute viscosity of 0.04 Pa.s. Ccompute the shear stress at the wall of the pipe