Sierra's mass flow controllers accelerate vaccine development for bioprocessing
To help stop the rapidly expanding spread of COVID-19 and provide critical instrumentation for respiratory medical equipment, Sierra Instruments offers scientists, biomedical engineers, and bioreactor manufacturers a comprehensive line of mass flow controllers to meet demanding bioprocessing applications.
The RedySmart is specifically designed and engineered for to improve bioreactor performance, employing a stable no-drift MEMS sensor to quickly bring vaccines to full-scale production, while Sierra's flagship SmartTrak 100 provides scientists the application flexibility and accuracy required for laboratory, biomedical, and respiratory medical equipment testing.
"We are committed to supporting the fight against COVID-19 by providing our bioprocessing customers with critical mass flow control instruments to quickly and successfully produce a vaccine for the virus," said Scott Harrison, general manager at Sierra Instruments. "Customers can lean on us to both specify the ideal MFC for their bioprocessing and respiratory medical equipment testing applications and to ramp up production in anticipation of demand. As a global pioneer in scientific mass flow instruments, we can help solve this challenge together with our precise and proven instruments."
Sierra's SmartTrak 100 complements their new RedySmart mass flow controller, together offering bioprocessing, biomedical, and respiratory medical equipment professionals a comprehensive MFC solution for any biotech application. Built with stable MEMs sensor technology, the RedySmart mass flow controller is designed to improve bioreactor performance with its lifetime not drift sensor warranty, modular design, flexible cabling system, and easy integration into a gas mixing block. It also features digital communication options with Modbus included at no additional charge. Sierra's SmartTrak 100 employs capillary thermal technology, offering scientists and researchers the accuracy and application flexibility required to meet any biomedical or respiratory medical equipment testing demand with one mass flow controller.