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+--- Thread: Wide Application of High Shear Emulsifying Machine (/showthread.php?tid=597)
Wide Application of High Shear Emulsifying Machine - dnfsdd85 - 10-15-2021
高剪切乳化机f是我公司引进国内外先进技术的新产品,严格符合GMP要求。广泛应用于食品、饮料、化妆品、化工、生化、石油化工、颜料、染料、涂料、制药等领域的各种粘性液体和糊状物的混合、分散、剪切和均质。WRL乳化混合机具有体积小、重量轻的结构。其噪音小、效率高的特点得到了广泛的认可和喜爱。
它以简单的工作原理运行,将液体从一个或多个相分配到另一个连续相。通常,这些相不能相互溶解。借助先进的技术和适当的添加剂,高速旋转的转子和机械效应产生的高切线速度和强大的动能可实现固相、液相和气相的即时、均匀、微妙和分散的乳化。经过高频往复循环,您将获得高质量稳定的混合产品。
它用于广泛的工业应用:
食品行业:辣椒酱、姜汁、果茶、冰淇淋、奶油、果酱、大豆、味噌、豆沙、花生奶、蛋白奶、豆浆、乳制品、麦芽奶、香精、调味品及各类食品饮料等等。
Chemistry industry: oil paint, pigment, dye, dope, lube, diesel oil, Oil catalyst, asphalt Emulsion, modified asphalt, paraffin, Adhesive, scour, plastic, detonator, FRP, Synthetic Leather, colophony, leather and Emulsion explosives.
Daily Chemical Industry: toothpaste, scour, cream, lipstick, facial, shampoo, shoeshine, cosmetic, shower concentrate, soap, Coagulant and flavor
Medical industry: sirup, Nutrient Solution, Chinese medicines, Pharmacy paste, Biological agents, Cod liver oil, pollen, Placenta, bacterin, ointment, liquid, Fungicides, injection, Antibiotics, Micro encapsulation and Intravenous fluid.
Construction industry: all kinds of dope including Internal and external wall dope, antisepsis and waterproof dope, Cold porcelain dope, colorful dope, Ceramic Glaze, nano dope and spraying.
Paper making industry: paper pulp, Adhesive, Rosin Emulsion, Paper Additives and Resin Emulsion.
Pesticide industry: antiseptic, herbicide, Pesticide EC, Fertilizer, biochemical pesticide and biological pesticide.
Other industries: spin industry, Coal flotation agent, rare earth, nanomaterial Scattered depolymerization, reaction, extraction and war industry.
Emulsifier, in foods, any of numerous chemical additives that encourage the suspension of one liquid in another, as in the mixture of oil and water in margarine, shortening, ice cream, and salad dressing. A number of emulsifiers are derived from algae, among them algin, carrageenan, and agar. Lecithins, such as those found in egg yolk, are also used as emulsifying agents.
The basic structure of an emulsifying agent includes a hydrophobic portion, usually a long-chain fatty acid, and a hydrophilic portion that may be either charged or uncharged. The hydrophobic portion of the emulsifier dissolves in the oil phase, and the hydrophilic portion dissolves in the aqueous phase, forming a dispersion of small oil droplets. Emulsifiers thus form and stabilize oil-in-water emulsions (e.g., mayonnaise), uniformly disperse oil-soluble flavour compounds throughout a product, prevent large ice-crystal formation in frozen products (e.g., ice cream), and improve the volume, uniformity, and fineness of baked products.
High Speed Emulsifiers are closely related to stabilizers, which are substances that maintain the emulsified state. The consistency of food products may also be improved by the addition of thickeners, used to add body to sauces and other liquids, and texturizers. These various additives serve a dual purpose: they make food more appetizing by improving appearance and consistency, and they augment its keeping qualities (i.e., extend shelf life).
Emulsifiers, stabilizers, and related compounds are also used in the preparation of cosmetics, lotions, and certain pharmaceuticals, where they serve much the same purpose as in foods—i.e., they prevent separation of ingredients and extend storage life.
Homogenizers function as mixers that reduce particle size or force immiscible liquids to mix. Pressure imparted on a product by the high shear homogenizer is largely determined by pump pressure or flow diversion through valves and nozzles. In the case of low-pressure homogenizers, fluid velocity is incremented which reduces overall pressure. In addition to the valve homogenizers commonly used in the dairy industry, a number of emulsifying and homogenizing systems that employ different operating principles are available. High-shear blenders and mixers find wide application in the dairy and related industries for the preparation of coarse pre-emulsions. Colloid mills, which operate on the rotor–stator principle, are used for mixing homogenizing medium- and high-viscosity systems, for instance in the preparation of caseins and caseinates. Ultrasonic waves can be used for either preparing emulsions or reducing the size of existing emulsions. For preparing emulsions with extremely small fat globules and very narrow size distributions, microfluidization can be used, where fluid streams are forced to collide at high pressure. Emulsions with extremely monodisperse size distributions can also be prepared by membrane emulsification. Principles and potential applications of so-called low pressure homogenization technologies are outlined in this article.