ULREA is a forced thin-film microreactor, a reaction device based on a new principle that utilizes the microchannel formation technology we have independently developed.
ULREA is a reactor that uses a forced thin film (microchannel) formed between a rotating disk and a fixed disk as the reaction field. It can be applied to all chemical reactions, including crystallization and reduction reactions. Particle size can be easily controlled from single nanoparticles to microparticles. 【Features】 ○ Reaction channel width: 1–30 μm ○ Clogging (crystals, bubbles): Self-draining capability, no blockage ○ Leakage: Low pressure loss ○ Reaction time control: Freely controllable based on reaction conditions and equipment operating conditions ○ Scale-up: Easily adaptable for mass production ○ Energy cost: Low energy required for production
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Applications/Examples of results
Metal, alloy, oxide, complex oxide, organic pigment, pharmaceuticals (active pharmaceutical ingredients, pharmaceutical intermediates), and core-shell type microparticles can be easily created.
Detailed information
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ULREA SS-11-75 is a tabletop experimental device of ULREA SS-11. It allows for experiments with small quantities.
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ULREA SS-11-300 is a continuous mass production reaction and synthesis device that is approximately 10 times the scale of ULREA SS-11.
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M Technique has consistently provided products and plants incorporating new technologies through a comprehensive production system that encompasses development, design, manufacturing, and sales, centered on dispersion and emulsification technology, stirring technology for poorly soluble substances, and aseptic preparation equipment technology. Our technology is utilized in various fields, including pharmaceuticals, food, cosmetics, fine chemicals, and electronic materials, and we aim for better manufacturing while valuing communication with everyone.
![Mac Technical Report [1] On Continuous Flow Synthesis](https://image.mono.ipros.com/public/product/image/221/2000638764/IPROS57470332270127942196.png?w=280&h=280)
