Institute of Particle Technology

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Prof. Dr.-Ing. Wolfgang Peukert

Bild von Wolfgang Peukert

Cauerstraße 4
91058 Erlangen






Teaching

  • Übung zur Produktanalyse (Wintersemester 2012/2013)

  • Übungen zur Mechanischen Verfahrenstechnik (Wintersemester 2012/2013)

  • Exkursion im Chemie- und Bioingenieurwesen (Wintersemester 2012/2013)

  • Praktikum in Product Engineering (Sommersemester 2012)

  • Mechanische Verfahrenstechnik (Wintersemester 2012/2013)

  • Numerische Methoden in der Partikeltechnik / Numerical Methods in Particle Technology (Sommersemester 2012)

  • Produktanalyse (Wintersemester 2012/2013)

  • Seminar zur Mechanischen Verfahrenstechnik (Wintersemester 2012/2013)

  • Reinraumtechnik (Wintersemester 2012/2013)

  • Reinraumtechnik - Übung (Wintersemester 2012/2013)

Publications

  • Prediction of aggregation kinetics based on surface properties of nanoparticles

  • From single particle impact behaviour to modelling of impact mills

  • Identification of material specific attrition mechanisms for polymers in dilute phase pneumatic conveying

  • Monte Carlo simulation of aggregate morphology for simultaneous coagulation and sintering

  • Adhesion forces distributions on rough surfaces

  • Particle attrition during pneumatic transport

  • Adhesion forces of spherical alumina particles on ceramic substrates

  • Combined experimental/numerical study on the precipitation of nanoparticles

  • Modelling of grinding in an air classifier mill based on a fundamental material function

  • The influence of suspension properties on the grinding behaviour of alumina particles in the sub-micron size range in stirred media mills

  • Tailoring particle size through nanoparticle precipitation

  • Modelling the superposition of grinding and agglomeration in stirred ball mills by population balance models

  • Breakage behaviour of different materials - construction of master curve for the breakage probability

  • Prediction of adsorption equilibria from physical properties of the pure components

  • The role of particle interactions on suspension rheology - Application to submicron grinding in stirred ball mills

  • Attrition of polymeric bulk materials in pneumatic conveying: mechanisms and material properties

  • Molecular dynamics simulations of the contact between two NaCl nanocrystals

  • Structures of particulate thin films - tailoring and characterization

  • Mechanical production and stabilisation of submicron particles in stirred ball media mills

  • Control of particle interfaces - the critical issue in nanoparticle technology

  • Attrition of poylmeric bulk solids in pneumatic conveying: determination of process and material function

  • Particle Properties - a missing link for predictive models in powder processing

  • Control of aggregation in production and handling of nanoparticles

  • Herausforderungen für die Lehre am Beispiel der mechanischen Verfahrenstechnik

  • Disperse forces of particle - surface interactions: direct AFM measurements and modelling

  • Simulation of aerosol processes involving agglomeration and sintering accounting for the evolution of fractal dimension

  • A Study of adhesion forces of oxide particles by molecular modeling and AFM-measurements

  • Nanoparticle precipitation: Experimental investigation, modelling and process simulation

  • Inorganic layers on polymeric films - influence of defects and morphology on barrier properties

  • Characterization of mixing in a T-mixer: A combined experimental and numerical study

  • Separation of the influences of material and machine in impact comminuton – Modelling with with population balances

  • The relevance of particle interactions in nanoparticulate systems - Application to particulate thin films

  • Characterization of surface properties of carbon black and graphite

  • Characterisation of grinding-relevant particle properties by inverting of a population balance model

  • Novel concepts for characterisation of particulate surfaces

  • Permeation durch vakuumbedampfte Kunststofffolien

  • Characterization of particle surfaces

  • Determination of material properties relevant to grinding by practicable labscale milling tests

  • Novel Concepts for Teaching Particle Technology

  • Attrition of polymeric bulk materials in pneumatic conveying: mechanisms and material properties

  • Use of COSMO-RS for the prediction of adsorption equilibria

  • Material properties in fine grinding

  • Die in-situ Adsorption als neuer Weg zur schonenden Gewinnung von Proteinen

  • The relevance of interactions in nanoparticulate systems

  • Nanomilling: the influence of suspension stability

  • Influence of mixing on precipitation of nanoparticles

  • Mechanical production and stabilisation of submicron particles in stirred ball media mills

  • Simulating grinding in impact mills - Separation of mill and material function

  • Mechanische Erzeugung und Stabilisierung von Nanopartikeln in Rührwerkskugelmühlen

  • Guidelines for the production of nanoscaled particles and products

  • Quantification of grinding relevant material properties

  • Fortschritte beim Erzeugen, Formulieren und Handhaben feinster Feststoffe; Product Design mit maßgeschneiderten Grenzflächen

  • Combination of a dielectric continuum model with inverse gas chromatography for the characterization of solid surfaces

  • Dispersing nanoparticles in liquids



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