Applikasjon for mikroreaksjonsstrømningsreaktor

Working Process Type Søknad
Reaction Utfellingsreaksjon, preparation of nanomaterials Nano barium sulfate (50~70nm), nano zinc oxide (15~30nm), nano iron phosphate, nano cobalt carbonate, nano magnesium hydroxide (particle size≤70nm), carbon nanotube, calcium carbonate (particle size≤100nm), Cobalt hydroxide (particle size≤100nm), cuprous iodide (particle size≤20nm), cadmium sulfide selenide (particle size≤100nm), lithium carbonate (50~70nm)
Strong exothermic reaction, nitration, sulfonation, epoxidation and other reactions Mixed acid nitration to prepare isooctyl nitrate, which reduces the amount of mixed acid and improves the product yield; the preparation of p-nitrotoluene-o-sulfonic acid (NTS acid) has a continuous, efficient and safe reaction process, and basically no waste acid is generated
Low temperature reaction Butyllithium reaction
Gas-liquid reaction, oxidation, chlorination, bromination, fluorination, etc. sobutyraldehyde is prepared by oxidation, the yield is increased to 94%, 2,4-dichlorophenol is prepared by the phenol chlorination method, and the reaction time is shortened to 10 minutes, and the yield is increased to 80%
Synthesize Pharmaceutical synthesis, pesticide synthesis, dye synthesis and other raw material synthesis processes Sesquiterpenoids, oxadiazoles, hydrogen peroxide alcohol, acyl azide, ibuprofen, Gleevec, artemisinin, chlorophyll, pendimethalin, isooctyl nitrate, etc.
Emulsion Oil-water emulsification, emulsion polymerization, pesticide/pharmaceutical emulsion, mikroemulsjon, mikrokapsel, copper clad laminate, etc. Mixing water and edible oil, soybean lecithin liposome, emulsification is more uniform, the effect is better than the traditional solution, and it can be stored for more than a week without breaking the emulsion;
Extraction Wet phosphoric acid, desulfurization and denitrification, and COD removal The amount of extractant can be greatly reduced; the consumption of extractant is greatly reduced; the process safety is greatly improved; emulsification is avoided; the occurrence of co-extraction can be reduced or even avoided, efficient separation can be achieved, and the number of extraction stages can be reduced