The aim of Advanced Powder Technology is to meet the demand for an international journal that integrates all aspects of science and technology research on powder and particulate materials. The journal fulfills this purpose by publishing original research papers, rapid communications, reviews, and translated articles by prominent researchers worldwide.The editorial work of Advanced Powder Technology, which was founded as the International Journal of the Society of Powder Technology, Japan, is now shared by distinguished board members, who operate in a unique framework designed to respond to the increasing global demand for articles on not only powder and particles, but also on various materials produced from them.Advanced Powder Technology covers various areas, but a discussion of powder and particles is required in articles. Topics include: Production of powder and particulate materials in gases and liquids(nanoparticles, fine ceramics, pharmaceuticals, novel functional materials, etc.); Aerosol and colloidal processing; Powder and particle characterization; Dynamics and phenomena; Calculation and simulation (CFD, DEM, Monte Carlo method, population balance, etc.); Measurement and control of powder processes; Particle modification; Comminution; Powder handling and operations (storage, transport, granulation, separation, fluidization, etc.)
《先进粉末技术》的宗旨是满足对一本综合粉末和颗粒材料科学和技术研究各方面的国际期刊的需求。该杂志通过发表世界著名研究人员的原创研究论文、快速交流、评论和翻译文章来实现这一目标。《先进粉末技术》的编辑工作由日本粉末技术学会国际杂志创办,现在由杰出的董事会成员分享。公司在独特的框架下运作,旨在满足全球对粉末和颗粒制品以及由其生产的各种材料的日益增长的需求。先进粉末技术涵盖各个领域,但需要在文章中讨论粉末和颗粒。主题包括:在气体和液体中生产粉末和颗粒材料(纳米颗粒、精细陶瓷、药物、新型功能材料等);气溶胶和胶体加工粉末和颗粒特性动力学和现象;计算与模拟(CFD、DEM、蒙特卡罗法、种群平衡等);粉末加工过程的测量和控制颗粒改性;粉碎;粉末处理和操作(储存、运输、制粒、分离、流化等)
The effect of anionic surfactant (SDS) on pore-fracture evolution of acidified coal and its significance for coalbed methane extraction
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.02.008
Enhanced photocatalytic degradation performance of organic contaminants by heterojunction photocatalyst BiVO4/TiO2/RGO and its compatibility on four different tetracycline antibiotics
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.06.006
Improve the thermal performance of the pillow plate heat exchanger by using nanofluid: Numerical simulation
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.04.011
Effect of the inlet angle on the performance of a cyclone separator using CFD-DEM
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2018.10.027
Effect of nonlinear thermal radiation on 3D magneto slip flow of Eyring-Powell nanofluid flow over a slendering sheet with binary chemical reaction and Arrhenius activation energy
来源期刊:Advanced Powder TechnologyDOI:10.1016/j.apt.2019.09.029
Biogenic silver embedded magnesium oxide nanoparticles induce the cytotoxicity in human prostate cancer cells
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.01.007
Catalytic ozonation of industrial textile wastewater using modified C-doped MgO eggshell membrane powder
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.04.003
The fabrication of floating Fe/N co-doped titania/diatomite granule catalyst with enhanced photocatalytic efficiency under visible light irradiation
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2018.10.014
Composite Al∙Ti powders prepared by high-energy milling with different process controls agents
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.04.007
One-pot solvothermal synthesis of size-controlled NiO nanoparticles
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.01.016
The preparation of surfactant-free highly dispersed ethylene glycol-based aluminum nitride-carbon nanofluids for heat transfer application
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.06.008
Coupled DEM-SPH simulations of wet continuous screening
来源期刊:Advanced Powder TechnologyDOI:10.1016/j.apt.2019.09.007
Enhanced visible light photocatalytic activity in AgI/BiOCOOH composite
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2018.10.012
The effects of different precipitant agents on the formation of alumina-magnesia composite powders as the magnesium aluminate spinel precursor
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.03.007
Simulation of the pressure drop across granulated mixtures using a coupled DEM – CFD model
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2018.10.010
The influence of graphene on the dynamic mechanical behaviour of shear thickening fluids
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.07.025
Enhanced performance of TiO2/reduced graphene oxide doped by rare-earth ions for degrading phenol in seawater excited by weak visible light
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.06.011
A particle-resolved CFD model coupling reaction-diffusion inside fixed-bed reactor
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.03.019
High shear-granulated hierarchically porous spheres nanostructure-designed for high-performance supercapacitors
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.07.031
Effect of temperature-related factors on densification, microstructure and mechanical properties of powder metallurgy TiAl-based alloys
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.08.002
Nanometric WC-12 wt% AISI 304 powders obtained by high energy ball milling
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.02.016
A facile preparation of graphene/reduced graphene oxide/Ni(OH)2 two dimension nanocomposites for high performance supercapacitors
来源期刊:Advanced Powder TechnologyDOI:10.1016/j.apt.2019.09.019
Scalable microwave-assisted continuous flow synthesis of CuO nanoparticles and their thermal conductivity applications as nanofluids
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2018.10.001
Controlled microstructure in two dimensional Ni-Co LDH nanosheets-crosslinked network for high performance supercapacitors
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.04.001
Synthesis of porous nanododecahedron Co3O4/C and its application for nonenzymatic electrochemical detection of nitrite
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.06.022
Refining single-crystalline epsilon iron oxide nanorods via low-temperature aging
来源期刊:Advanced Powder TechnologyDOI:10.1016/j.apt.2019.09.009
A facile synthesis of silicon carbide nanoparticles with high specific surface area by using corn cob
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2018.10.019
CPFD simulation on effects of louver baffles in a two-dimensional fluidized bed of Geldart A particles
来源期刊:Advanced Powder TechnologyDOI:10.1016/j.apt.2019.08.018
Experimental and numerical analysis on the hydrodynamic behaviors of permeable microbial granules
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.04.022
Aerosol route synthesis of Ni-CeO2-Al2O3 hybrid nanoparticle cluster for catalysis of reductive amination of polypropylene glycol
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.07.009
Zn-assisted synthesis of high-performance adsorbent for methylene blue
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.03.013
Optimisation of high energy ball milling parameters to synthesize oxide dispersion strengthened Alloy 617 powder and its characterization
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.07.014
Experimental study of triboelectric charging of polyethylene powders: Effect of humidity, impact velocity and temperature
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2018.10.017
Effects of cleaning mode on the performances of pulse-jet cartridge filter under varying particle sizes
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.05.029
Investigating the flow structures in semi-cylindrical bubbling fluidized bed using pressure fluctuation signals
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.04.004
Investigation of the fabric evolution and the stress-transmission behaviour of sands based on X-ray μCT images
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.06.003
Numerical study of particle mixing in a tilted three-dimensional tumbler and a new particle-size mixing index
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.07.017
Synthesis of phosphonate-containing mesoporous silica spheres under basic condition
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.02.021
Bed pressure drop of a bubbling fluidized-bed with overflow solid discharge
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.03.012
Effect of fin type baffle on the particle hydrodynamics, separation and misplacement in a liquid solid fluidized bed separator
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2018.11.022
Monitoring of scaling in dilute phase pneumatic conveying systems using non-intrusive acoustic sensors – A feasibility study
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.05.012
Structure reinforcement of porous hydroxyapatite pellets using sodium carbonate as sintering aid: Microstructure, secondary phases and mechanical properties
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.05.013
Practical strategy to produce ultrafine ceramic glaze: Introducing a polycarboxylate grinding aid to the grinding process
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.05.014
Fluidization using pseudoplastic liquids – Elutriation and ANN modeling
来源期刊:Advanced Powder TechnologyDOI:10.1016/j.apt.2019.09.001
Unburned carbon measurement in fly ash using laser-induced breakdown spectroscopy with short nanosecond pulse width laser
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.03.017
Synthesis and characterization of tantalum carbide nanoparticles using concentrated solar energy
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.08.004
Quantitative analysis of agglomerates levitated from particle layers in a strong electric field
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.06.018
Three-dimensional periodic structures of gold nanoclusters in the interstices of sub-100 nm polymer particles toward surface-enhanced Raman scattering
来源期刊:Advanced Powder TechnologyDOI:10.1016/j.apt.2019.09.003
Particle migration of concentrated suspension flow in bifurcating channels
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.06.009
Effect of encapsulation with zeolite and coating with TiO2 on the thermal stability of caffeine during melt extrusion of a PET/TiO2@(zeolite/caffeine) nanocomposite
来源期刊:Advanced Powder TechnologyDOI:10.1016/J.APT.2019.01.015
