Stefan Schultz scite author profile

Emulsions find a wide range of application in industry and daily life. In the pharmaceutical industry lipophilic active ingredients are often formulated in the disperse phase of oil-in-water emulsions. Milk, butter, and margarine are examples of emulsions in daily life. In the metal processing industry emulsions are used in the form of coolants. Emulsions can be produced with different systems. In the following, the process of high-pressure homogenization is briefly compared to other common mechanical emulsification systems. To facilitate the selection of an emulsification system, the influence of the most important parameters of the emulsion formulation on the resulting mean droplet diameter in the most prevalent continuous emulsification systems is outlined. Subsequently, the most common high-pressure homogenization systems are discussed in detail. On the basis of data from the literature and own experimental results the described high-pressure homogenization systems will be compared regarding their attainable mean droplet diameter. It shows that homogenizers with a relatively simple geometry like the patented ªcombined orifice valveº (Kombi-Blende) attain the smallest mean droplet diameters. The advantage of the ªcombined orifice valveº compared to other high-pressure homogenization systems is not more efficient droplet disruption but rather more efficient droplet stabilization against coalescence immediately after the droplet breakup. The greatest research potential concerning the development of new high-pressure homogenization systems is still to be seen in improvements of droplet stabilization, i.e., the reduction of coalescence.

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Hochdruckhomogenisation als ein Verfahren zur Emulsionsherstellung

Schultz

Wagner

Ulrich³

2002

Chemie Ingenieur Technik

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Dispersionen aus zwei oder mehr ineinander nahezu unlöslichen flüssigen Phasen, oft Öl und Wasser, werden als Emulsionen bezeichnet. Sie werden in fast allen Industriezweigen hergestellt oder eingesetzt. Typische Beispiele für Emulsionen sind Milch, Butter, Margarine, wasserlösliche Lacke sowie Cremes und Salben. Insbesondere in der pharmazeutischen und kosmetischen Industrie werden zumeist mittlere Tropfendurchmesser von x << 1 lm gefordert, um eine hohe Bioverfügbarkeit und physikalische Stabilität der Emulsion zu gewährleisten 1) . Die zur Herstellung solch feiner Emulsionen benötigten Energiedichten können im Allgemeinen nur in Hochdruckemulgiermaschinen zur Verfügung gestellt werden.Um den immer höheren Anforderungen der Industrie nach Emulsionen mit kleineren mittleren Tropfendurchmessern und engeren Verteilungen gerecht zu werden, werden immer wieder neue Dispergiereinheiten R h e o l o g i e 901

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On the Influence of Geometric Parameters of a Combined Orifice Valve on the Attainable Mean Droplet Diameter during High-Pressure Homogenization

Schultz¹,

Wagner

Ulrich

2002

Eng. Life Sci.

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Stefan Schultz

High‐Pressure Homogenization as a Process for Emulsion Formation

Hochdruckhomogenisation als ein Verfahren zur Emulsionsherstellung

On the Influence of Geometric Parameters of a Combined Orifice Valve on the Attainable Mean Droplet Diameter during High-Pressure Homogenization

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