Numerical analysis of the rice transport uniformity in vertical friction rice mill based on discrete element method
Published 2022 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Numerical analysis of the rice transport uniformity in vertical friction rice mill based on discrete element method
Authors
Keywords
-
Journal
COMPUTERS AND ELECTRONICS IN AGRICULTURE
Volume 202, Issue -, Pages 107398
Publisher
Elsevier BV
Online
2022-09-21
DOI
10.1016/j.compag.2022.107398
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- DEM investigation of particle flow in a vertical rice mill: Influence of particle shape and rotation speed
- (2022) Yong Zeng et al. POWDER TECHNOLOGY
- DEM simulation for optimal design of powder mixing in a ribbon mixer
- (2021) Yoshiharu Tsugeno et al. ADVANCED POWDER TECHNOLOGY
- Examination milling non-uniformity in friction rice mills using by discrete element method and experiment
- (2021) Anqi Li et al. BIOSYSTEMS ENGINEERING
- The effect of paddle configurations on particle mixing in a soil-fertilizer continuous mixing device
- (2021) Quanchun Yuan et al. POWDER TECHNOLOGY
- DEM investigation on conveying of non-spherical particles in a screw conveyor
- (2021) Hongyuan Sun et al. Particuology
- Experimental and numerical investigation on the shape approximation of rice particle by multi-sphere particle models
- (2020) Yanlong Han et al. ADVANCED POWDER TECHNOLOGY
- Optimization parameters of the spiral mixing chamber of the device for pre-sowing seed treatment with biological preparations
- (2020) Eduard Khasanov et al. COMPUTERS AND ELECTRONICS IN AGRICULTURE
- The Effect of Degree of Milling on the Nutraceutical Content in Ecofriendly and Conventional Rice (Oryza sativa L.)
- (2020) Seung-Hyun Kim et al. Foods
- DEM analysis of residence time distribution during twin screw granulation
- (2020) Chao Zheng et al. POWDER TECHNOLOGY
- An alternative strategy to compensate for screw wear in gravity induced stirred mills
- (2020) Priscila M. Esteves et al. POWDER TECHNOLOGY
- Population Balance Modeling To Predict Particle Size Distribution upon Scale-Up of a Combined Antisolvent and Cooling Crystallization of an Active Pharmaceutical Ingredient
- (2019) Tamar Rosenbaum et al. ORGANIC PROCESS RESEARCH & DEVELOPMENT
- Analyzing the mixing performance of a rotary spader using digital image processing and discrete element modelling (DEM)
- (2018) Mustafa Ucgul et al. COMPUTERS AND ELECTRONICS IN AGRICULTURE
- Discrete element modelling of ellipsoidal particles using super-ellipsoids and multi-spheres: A comparative study
- (2018) Ying You et al. POWDER TECHNOLOGY
- Effects of rotation speed and rice sieve geometry on turbulent motion of particles in a vertical rice mill
- (2018) Bin Cao et al. POWDER TECHNOLOGY
- Effect of operating parameters on milling quality and energy consumption of brown rice
- (2018) Xiangyi Meng et al. JOURNAL OF FOOD SCIENCE AND TECHNOLOGY-MYSORE
- Influence of milling intensity and storage temperature on the quality of Catahoula rice ( Oryza sativa L.)
- (2017) Usman Ahmad et al. LWT-FOOD SCIENCE AND TECHNOLOGY
- DEM study of particle conveying in a feed screw section of vertical rice mill
- (2017) Yanlong Han et al. POWDER TECHNOLOGY
- Using DEM to understand scale-up for a HICOM® mill
- (2016) Paul W. Cleary et al. MINERALS ENGINEERING
- Effects of rotation speed and outlet opening on particle flow in a vertical rice mill
- (2016) Yanlong Han et al. POWDER TECHNOLOGY
- DEM/CFD-DEM Modelling of Non-spherical Particulate Systems: Theoretical Developments and Applications
- (2016) Wenqi Zhong et al. POWDER TECHNOLOGY
- Discrete element method simulation of a conical screen mill: A continuous dry coating device
- (2015) Xiaoliang Deng et al. CHEMICAL ENGINEERING SCIENCE
- Relationship between residence time distribution and forces applied by paddles on powder attrition during the die filling process
- (2015) Daniel Mateo-Ortiz et al. POWDER TECHNOLOGY
- Numerical investigation of bed depth height, axial velocity and mean residence time of inert particles in steady state industrial cement rotary kiln: Case of Figuil Plant in Cameroon
- (2015) Stephane Ngako et al. POWDER TECHNOLOGY
- The effect of rotational speed on granular flow in a vertical bladed mixer
- (2015) J. Havlica et al. POWDER TECHNOLOGY
- Effect of lifter shape and operating parameters on the flow of materials in a pilot rotary kiln: Part II. Experimental hold-up and mean residence time modeling
- (2015) A.S. Bongo Njeng et al. POWDER TECHNOLOGY
- DEM study of the flow of cohesive particles in a screw feeder
- (2014) Q.F. Hou et al. POWDER TECHNOLOGY
- Towards an integrated, resource-efficient rice mill complex
- (2013) Jeng Shiun Lim et al. RESOURCES CONSERVATION AND RECYCLING
- Mixing of powders and granular materials by mechanical means—A perspective
- (2012) John Bridgwater Particuology
- Numerical analysis of similarities of particle behavior in high shear mixer granulators with different vessel sizes
- (2011) Hideya Nakamura et al. ADVANCED POWDER TECHNOLOGY
- DEM modelling of liner evolution and its influence on grinding rate in ball mills
- (2011) M.S. Powell et al. MINERALS ENGINEERING
- Comparison of the multi-sphere and polyhedral approach to simulate non-spherical particles within the discrete element method: Influence on temporal force evolution for multiple contacts
- (2011) D. Höhner et al. POWDER TECHNOLOGY
- Polydisperse granular flows in a bladed mixer: Experiments and simulations of cohesionless spheres
- (2010) Brenda Remy et al. CHEMICAL ENGINEERING SCIENCE
- Prediction of milled rice grades using Fourier transform near-infrared spectroscopy and artificial neural networks
- (2010) K.J. Chen et al. JOURNAL OF CEREAL SCIENCE
- The effect of particle shape on simple shear flows
- (2007) Paul W. Cleary POWDER TECHNOLOGY
Discover Peeref hubs
Discuss science. Find collaborators. Network.
Join a conversationBecome a Peeref-certified reviewer
The Peeref Institute provides free reviewer training that teaches the core competencies of the academic peer review process.
Get Started