基于自激振荡流的气力输送颗粒运动特性-(英文版) 本书特色
《基于自激振荡流的气力输送颗粒运动特性(英文版)》以提出一种安全高效的节能方法为目标,通过搭建基于软翅振动的水平气力输送系统,以粒子图像测速(PIV)技术和图像处理技术为主要手段,详细阐述了自激振荡流对系统的压降、输送速度、能量损耗、颗粒流型、额外压降的影响规律以及颗粒物料的运动特征等内容。 《基于自激振荡流的气力输送颗粒运动特性(英文版)》可供从事气力输送系统节能方法研究的工程技术人员参考,也可供科研院所相关专业进行气固两相流动机理研究的科研人员参考。
基于自激振荡流的气力输送颗粒运动特性-(英文版) 目录
图书新品到货数量为:1842品 图书新品完成量为:581品 音像新品完成量为:0品 封面完成量为:1234幅 插图完成量为:5163幅 拍图完成量为:0幅 CIP完成量为:2160品 人为屏蔽新品量为:1306品1 Introduction 1.1 PneumaticConveying 1.1.1Characteristics of pneumatic conveying 1.1.2Applicatiofields 1.1.3 Systemponents 1.1.4 Systemrequirements 1.1.5 Mode ofpneumatic conveying图书新品到货数量为:1842品
图书新品完成量为:581品
音像新品完成量为:0品
封面完成量为:1234幅
插图完成量为:5163幅
拍图完成量为:0幅
CIP完成量为:2160品
人为屏蔽新品量为:1306品1 Introduction
1.1 Pneumatic
Conveying
1.1.1
Characteristics of pneumatic conveying
1.1.2
Applicatiofields
1.1.3 System
ponents
1.1.4 System
requirements
1.1.5 Mode of
pneumatic conveying
1.1.6 Basic
pneumatic conveying systems
1.1.7 System
selectioconsiderations
1.1.8 Material
property influences
1.1.9 Conveying
capability
1.2 Review of
Pneumatic Conveying
1.2. 1 Review
oenergy-saving techniques
1.2.2 Review
ocharacteristics of particle motion
1.3 Background of this
Book
1.4 The Purpose of
this Book
2 Experimental Apparatus and Procedure
2.1 Experimental
Apparatus
2.2 Conveying
Materials
2.3 Soft Fins
3 A Horizontal Energy-Saving Pneumatic
Conveying System with Horizontally Mounted Soft Fins
3.1 The Purpose of
this Chapter
3.2 Frequency Features
of Fin's Oscillation
3.3 Pressure Drop
3.3.1 Particles
ofdp = 2.3 mm
3.3.2 Particles
ofdp = 3.3 ram
3.4 Minimum Conveying
Velocity
3.5 Power ConsumptioCoefficient
3.5.1 Particles
ofdp =2.3 ram
3.5.2 Particles
of dp= 3.3 mm
3.6 Particle Flow
Pattern
3.7 Additional
Pressure Drop Coefficient
3.7.1 Particles
of dp =2.3 mm
3.7.2 Particles
of dp = 3.3 mm
3.8 Summary
4 A Horizontal Energy-Saving Pneumatic
Conveying System with Vertically Mounted Soft Fins
4.1 The Purpose of
this Chapter
4.2 Frequency Features
of Fin's Oscillation
4.3 Pressure Drop
4.3.1 Particles
of dp = 2.3 mm
4.3.2 Particles
of dp =3.3 mm
4.4 The Minimum
Conveying Velocity
4.5 Power
ConsumptioCoefficient
4.5.1 Particles
of dp = 2.3 mm
4.5.2 Particles
of dp = 3.3 mm
4.6 Particle Flow
Pattern
4.7 Additional
Pressure Drop Coefficient
4.7.1 Particles
of dp =2.3 mm
4.7. 2 Particles
of dp= 3.3 mm
4.8 Summary
5 Characteristics of Particle Motioia
Horizontal Pneumatic Conveying with Horizontally Mounted Soft Fins
5.1 High-Speed PIV
Imaging Set-Up and Procedure
5.2 Measurement Method
of Particle Concentration
5.3 Profiles of
ParticLe Concentration
5.3.1 Particle
concentratioof the particles dp = 2.3 mm
5.3.2 Particle
concentratioof the particles dp = 3.3 mm
5.4 Profiles of
Particle Velocity
5.4.1 Axial
ponent of particle velocity
5.4.2 Vertical
ponent of particle velocity
5.5 Particle
FluctuatioVelocity
5.5.1 Spectral
characteristics of particle fluctuating velocity
5.5.2
Auto-correlatiocoefficients of particle fluctuatiovelocity
5.5.3 Two-point
fluctuatiovelocity correlation
5.5.4
Intensities of particle fluctuatiovelocity
5.5.5 Skewness
factor of particle fluctuatiovelocity
5.5.6 Probability
density functioof particle fluctuatiovelocity
5.6 Summary
6 Characteristics of Particle Motioia
Horizontal Pneumatic Conveying with Vertically Mounted Soft Fins
6.1 Profiles of
Particle Concentration
6.1.1 Particle
concentratioof the particles dp = 2. 3 mm
6.1.2 Particle
concentratioof the particles dp = 3.3 mm
6.2 Profiles of
Time-Averaged Particle Velocity
6.2.1 Axial
ponent of time-averaged particle velocity
6.2.2 Vertical
ponent of time-averaged particle velocity
6.3 Particle
FluctuatioVelocity
6.3.1 Spectral
characteristics of particle fluctuating velocity
6.3.2
Auto-correlatiocoefficients of particle fluctuatiovelocity
6.3.3 Two-point
fluctuatiovelocity correlation
6.3.4
Intensities of particle fluctuatiovelocity
6.4 Summary
7 Conclusions
References
Index信息
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