Microreaction Technology is an innovative alternative to the large-scale production in the chemical industry. Either for controlling fast reactions or for processing of crystals and nano particles 'bottom-Up' , MRT technology and MIKROGLAS could be your solution.
mikroglas chemtech GmbH
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Develops and manufactures microreaction products made of glass, for example,
microreaction modules such as static mixers, heat exchangers or a combination of both. The material glass makes the reactor modules resistant against aggressive media.
Technical advantages
- good control of chemical reactions
- efficient heat exchange
- excellent for analysis purposes
- usable under high pressure
- usable for aggressive and hazardous chemicals
- usable in wide temperature range
- Scalable to Tons per day
Ecological advantages
- safe production of chemical and pharmaceutical products
- preservation of resources during production
- reduction of waste disposal
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Economic advantages
- modular and flexible equipment
- numbering up of reactors instead of scaling up
- point-of-use production possible
- integration of various production steps
- only little space required
Microfluidics Reaction Technology, Microlfuidics USA
www.microfluidicscorp.com
In addition to top-down uniform particle sizing to the nano-level, Microfluidics Reaction Technology (MRT) combines an impinging jet processor with application and process development to create nanoparticles bottom-up. Using continuous crystallization, chemical reactions and process intensification, MRT typically enables pharmaceutical, energy and chemical companies to achieve particle sizes impossible with any other method. Applications of MRT:
Continuous crystallization
- Efficient nanoencapsulation
- Chemical reactions
- Process intensification
Azithromycin
MRT crystallization achieved a z-average of 82 nm
(ranging as small as 54 nm) with narrow distribuion.
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Proven Processing Results
MRT has been named a Nano50 Award winner due to its unique capabilities to produce superior particle size distributions efficiently for a number of APIs:
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