相关参考文献
注意:仅列出部分参考文献,下载原文获取全部文献信息。An experimental study on a horizontal -vertical pneumatic conveying system using oscillatory flow
Fei Yan et al.
ADVANCED POWDER TECHNOLOGY (2020)
Self-excited pneumatic conveying through vertical curved 90° bends
Lin Dong et al.
POWDER TECHNOLOGY (2019)
Experimental and numerical study of a horizontal-vertical gas-solid two-phase system with self-excited oscillatory flow
Fei Yan et al.
ADVANCED POWDER TECHNOLOGY (2019)
Bend pressure drop in horizontal and vertical dilute phase pneumatic conveying systems
Naveen Mani Tripathi et al.
CHEMICAL ENGINEERING SCIENCE (2019)
Experimental Quantification of Local Pressure Loss at a 90° Bend in Low-Pressure Dilute-Phase Pneumatic Conveying of Coarse Particles
Rui Zhu et al.
INTERNATIONAL JOURNAL OF CHEMICAL ENGINEERING (2019)
Numerical and experimental study of an innovative pipeline design in a granular pneumatic-conveying system
Hasan Ghafori et al.
PARTICUOLOGY (2018)
Experimental pressure drop analysis for horizontal dilute phase particle-fluid flows
Ron Naveh et al.
POWDER TECHNOLOGY (2017)
Multi-scale analysis on particle dynamics of a horizontal self-excited pneumatic conveying at the minimum pressure drop
Fei Yan et al.
ADVANCED POWDER TECHNOLOGY (2017)
Self-excited pneumatic conveying of granular particles in various horizontal curved 90° bends
Akira Rinoshika
EXPERIMENTAL THERMAL AND FLUID SCIENCE (2015)
Numerical study of rope formation and dispersion of non-spherical particles during pneumatic conveying in a pipe bend
H. Kruggel-Emden et al.
POWDER TECHNOLOGY (2014)
High-speed PIV measurement of particle velocity near the minimum air velocity in a horizontal self-excited pneumatic conveying of using soft fins
Fei Yan et al.
EXPERIMENTAL THERMAL AND FLUID SCIENCE (2013)
Modelling of pipe bend erosion by dilute particle suspensions
Derrick O. Njobuenwu et al.
COMPUTERS & CHEMICAL ENGINEERING (2012)
Characteristics of particle velocity and concentration in a horizontal self-excited gas-solid two-phase pipe flow of using soft fins
Fei Yan et al.
INTERNATIONAL JOURNAL OF MULTIPHASE FLOW (2012)
An experimental study on a horizontal energy-saving pneumatic conveying system with soft fins
Fei Yan et al.
POWDER TECHNOLOGY (2012)
An experimental study of energy-saving pneumatic conveying system in a horizontal pipeline with dune model
Akira Rinoshika et al.
POWDER TECHNOLOGY (2010)
Upstream swirl-induction for reduction of erosion damage from slurries in pipeline bends
RJK Wood et al.
WEAR (2001)
Formation and dispersion of ropes in pneumatic conveying
A Yilmaz et al.
POWDER TECHNOLOGY (2001)