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Design

Coflore®

Continuous flow reactors and continuous flow chemicals plays for fine chemical and pharmaceutical industries. This process reduces the amount of solvent required by improving heat transfer. It also enables controlling conditions to maximize conversion without risking competitive or consecutive reactions. Using less solvent and fewer impurities also reduces waste and disposal costs. Using smaller continuous reactors reduces the energy required for heating and cooling. Continuous processes also operate at a steady state, simplifying management. 

Downflow Gas Contactor (DGC)

Gas-liquid contactor-reactor. This reactor can be used for gas absorption, effluent treatment, and chemical reactions in processes involving catalysts (oxidation hydrogenation, carbonylation, and hydroformylation). Conventional gas-liquid contacting devices have lower efficiency due to low gas hold-ups, back-mixing, and less safety. This new design is simple, compact, and flexible, requiring less power and a smaller operating volume. It is also scalable without losing efficiency. Reaction rates are controllable, and the lack of moving parts ensures safer working conditions. 

Maximyze®: High Quality Paper and Paperboard Production Through Enzymes

Enzyme that modifies wood composition and increases its capacity for becoming strong and quality paper. Paper strength is traditionally improved by using more expensive pulps, more energy, and different chemical additives. Maximyze® uses natural enzymes from fermentation. These enzymes modify cellulose to create more sites for hydrogen bonding, which translates into more fibrils that bind the wood fibers together. This technology reduces the need for high-cost materials and other methods. 

Natular® Larvicide: Encapsulated Spinosad

Encapsulated Spinosad. While Spinosad is a popular, more environmentally friendly alternative to conventional pesticides, it degrades quickly in water and thus cannot be used to eliminate mosquito larvae. This product aims to combat the flaws of Spinosad, utilizing a matrix that protects the molecule of Spinosad and slowly releases the pesticide into the aquatic environment. Although Spinosad remains unstable, its lifespan in water increases to up to 180 days, improving its aquatic efficiency.