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Institute of Solids Process Engineering and Particle Technology
Institute of Solids Process Engineering and Particle Technology

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        • Prof. Stefan HeinrichProf. Joachim WertherProf. Stefan PalzerProf. Werner SitzmannDr.-Ing. Swantje Pietsch-BrauneDipl.-Ing. Frank RimoschatHeiko RohdeBettina BartelsAitor Achutegui, Ph.D.Dipl.-Ing. Amine Ait OuazzouMoritz Buchholz, M.Sc.Falk Bunke, M.Sc.Chan Tsz Tung, M.Sc.Philipp Nicolas Depta, M.Sc.Christian Eichler, M.Sc.Zhi Cheng Hua, M.Sc.Kathrin Kramm, M.Sc.Teresa Kurtz, M.Sc.Lennard Lindmüller, M.Sc.Carine Lourenco Alves, M.Sc.Tobias Oesau, M.Sc.Maike Orth, M.Sc.Hannah Sophia Rothberg, M.Sc.Sebastian Rybczynski, M.Sc.Abdullah Sadeq, M.Sc.Vasyl Skorych, M.Sc.Marian Schmitt, M.Sc.Dipl.-Ing. Gero StöcklMauricio Vaca Guerra, M.Sc.Hossein Zeidabadinejad, M.Sc.Xiye Zhou, M.Sc.Jessica OrtizRossane SantosShen Wang, B.Sc.Login/Logout
        AlumniEquipment
        • Particle generatorParticle size analyzer (dry and wet)Bulk characterization of powdersParticle structure, morphology and moistureParticle strength measurements (compression, impact and attrition)Particle flow analysisViscosimetry and contact angleProcess gas analyzersFluidized bed set-ups (batch and continuous)Spray dryerComminutionAgglomerator
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        • Flowsheet Simulation of Solids ProcessesParticle FormulationMultiscale Simulation of Solids ProcessesEnergy TechnologyContact and Breakage Mechanics of ParticlesFood Process Engineering
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        • Agglomeration and Deagglomeration in Fluidized BedsBiomass Gasification: ExperimentalCoating of AerogelsComposites from Spouted Bed GranulationDEM–CFD and PBM for dynamic process simulation of fluidized bed agglomerationDevelopment and application of the BPM for the investigation of mechanical properties of frozen solid materialsDigital-twin based on fluidized bed spray granulation: Dynamic flowsheet simulationDry GranulationDynamic Flowsheet Simulation of CLCDynamic Flowsheet Simulation of Solids ProcessesEnzyme AgglomerationFatigue Behavior of UHPC with DEMFood Powder ExtractionFunctional Particles from Spray GranulationInfluence of Moisture on Wood PelletsInvestigation of Chemical Looping CombustionModel Based Design of Spray Drying ProcessesMonitoring and control of continuous multi-compartment fluidized bed spray granulationMultiscale models for reconstitution of compacted powdersOptimization of Porcelain Tile ManufacturingParticle Dynamics in Sheared Granular FlowsShelf-life extension of plant-based milk powdersSimulation of mass transfer dynamics of atomized powderModeling and simulation of liquid-phase sintering of ceramic materialsSpray Granulation and CoatingSpouted Bed Coating of Battery HeteroaggregatesStructuration of Plant-Based Milk Powder for Improved Reconstitution
        Simulation PortfolioCompleted Research Projects
        • Biomass Gasification: Macro-ScaleBiomass Gasification: Micro-ScaleBreakage of Wood PelletsChemical Looping Catalytic CombustionContinuous Spray GranulationDEM StorageDrying in Vibrating Fluidized BedsExperimental Investigation of Chemical Looping for Solid FuelsExtraction Processes in Particle BedsFluid Dynamics of a Novel Spouted BedHybrid ModellingHydrodynamics of Turbulent Fluidized BedsIndustrial-Scale Simulation TechnologyLignin PyrolysisMechanical Interactions of Solid ParticlesMicro-Mechanics of Wet SolidsMigration in Fat-based Particulate Food CompositesPowder Structure and Spray DryingSintering of CeramicsSintering of Ceramic ParticlesStructuring of Instant Coffee PowderWetting of Heterogeneous Powders
        SPP 1679 DynSim-FPSPP 1934 DiSPBiotechSFB-986 "M3"Research Initiative on Climate Informed EngineeringTUSAIL Training ProgramGRK 2462 PintPFSZHM NordCenter for Biobased SystemsEssential Oils Project
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        • University Course Fluidization Technology 2022University Course Drying Technology 2022
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TUHH > SPE > Institute > Equipment > Particle flow analysis

High-Speed Imaging System (IDT NX4-S2)

Maximum Resolution 1024x1024 @ 2000 frames per second. Up to 9400 frames per second at lower resolutions. Sensitivity up to ISO 6000. 

Analysis of particle dynamics using Particle Imaging Velocimetry (PIV).

Simultaneous use of several cameras for 3D analysis.

 


  • Research Focus
  • Staff
  • Alumni
  • Equipment
    • Particle generator
    • Particle size analyzer (dry and wet)
    • Bulk characterization of powders
    • Particle structure, morphology and moisture
    • Particle strength measurements (compression, impact and attrition)
    • Particle flow analysis
    • Viscosimetry and contact angle
    • Process gas analyzers
    • Fluidized bed set-ups (batch and continuous)
    • Spray dryer
    • Comminution
    • Agglomerator
  • Services for Industry
  • Events/Seminary Particle Technology
  • Cooperations
  • Social Events
  • Contact

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Hamburg University of Technology
Institute of Solids Process Engineering and Particle Technology
Denickestr. 15, 21073 Hamburg

Phone (Office) +49 40 42878 - 37 50 | Fax +49 40 42731 - 36 21 | Email spe@tuhh.de