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Because in thick pulp , the high viscosity of the pulp will hinder particles from settling ,leadingto the sedimentation velocity
Shape , tooinfluencesthe sedimentation velocity
a decrease in pipe diameterwill causeanincrease in flow velocity
the permeability distribution in each lamella of the osteon ... an especially important factorinfluencesseepage velocity
a decrease in the diameter of the sorbent beads(passive) caused bysedimentation velocity
roughening of the crystalline / amorphous interface(passive) caused bycrystallisation velocity
Key input parameters for transport models ... the initial particle size distributioninfluencesthe sedimentation velocity
slipping effect(passive) influenced bySeepage velocity
many factorsinfluencepercolation velocity
Modern computational strategies have allowed for the direct modeling of the sedimentation process of heterogeneous mixturesresultingin sedimentation velocity
in a sedimentation coefficient of 6.4 S and a frictional ratio of 1.87 , which is greater than that of 1.56 for IgA1resultedin a sedimentation coefficient of 6.4 S and a frictional ratio of 1.87 , which is greater than that of 1.56 for IgA1
in a sedimentation coefficient of 6.4S and a frictional ratio of 1.87 , which is greater than that of 1.56 for IgA1resultedin a sedimentation coefficient of 6.4S and a frictional ratio of 1.87 , which is greater than that of 1.56 for IgA1
from edge effectresultingfrom edge effect
from the difference in specific gravity of the particles , which method comprises giving a vibration in the direction in which the particles are settling down , utilizing the specific gravities of the particles and the frequencies and amplitudes of the vibration to make the sedimentation delay of the small - gravity particles larger than that of the large - gravity particles , thereby enlarging an equal settling ratio that is a particle diameter ratio of the particles different in specific gravity settling down at the same velocityresultingfrom the difference in specific gravity of the particles , which method comprises giving a vibration in the direction in which the particles are settling down , utilizing the specific gravities of the particles and the frequencies and amplitudes of the vibration to make the sedimentation delay of the small - gravity particles larger than that of the large - gravity particles , thereby enlarging an equal settling ratio that is a particle diameter ratio of the particles different in specific gravity settling down at the same velocity
separation of different particles , of a heterogeneous fluid ( comprising particles of various typescausesseparation of different particles , of a heterogeneous fluid ( comprising particles of various types
from the difference in specific gravity of theparticles , which method comprises giving a vibration in the direction in which the particles are settling down , utilizing the specific gravities of the particles and the frequencies and amplitudes of the vibration to make the sedimentation delay of thesmall - gravity particles larger than that of the large - gravity particles , thereby enlarging an equal settling ratio that is a particle diameter ratio of the particles different in specific gravity settling down at the same velocityresultingfrom the difference in specific gravity of theparticles , which method comprises giving a vibration in the direction in which the particles are settling down , utilizing the specific gravities of the particles and the frequencies and amplitudes of the vibration to make the sedimentation delay of thesmall - gravity particles larger than that of the large - gravity particles , thereby enlarging an equal settling ratio that is a particle diameter ratio of the particles different in specific gravity settling down at the same velocity
several effectscausesseveral effects
up to be opposite the gas flow velocity Vgasis setup to be opposite the gas flow velocity Vgas
in lower overall energy consumption at around 12 GJ / t alumina ( 9.0 GJ / t for hydrate area and 3.0 for calcination area ) which makes the Tube digestion as most energy efficient process technology for processing of gibbsite - boehmite mixed bauxiteresultingin lower overall energy consumption at around 12 GJ / t alumina ( 9.0 GJ / t for hydrate area and 3.0 for calcination area ) which makes the Tube digestion as most energy efficient process technology for processing of gibbsite - boehmite mixed bauxite
as static pressureis setas static pressure
groundwater(passive) influenced bygroundwater
stratospheric lifetimesstrongly influencesstratospheric lifetimes