THEINNOVATIVECONTROLLERFORCHEMICALREACTORSYSTEMS
时间:2021-04-28 阅读:149
THE INNOVATIVE CONTROLLER FOR CHEMICAL REACTOR SYSTEMS
04/02/2021
Discover the innovative solutions designed by VELP to manage and monitor the shaft rotation speed of brushless motors in lab-scale reactor systems of up to 100 L.
The applications of reactor systems
Glass reaction systems are used for a wide variety of industrial fields to control chemical processes to transform the raw materials into the desired final products. Reactors may have a complex structure to face different operating conditions in terms of the nature of the chemicals involved (reagents and reaction products) and physical operating conditions.
INDUSTRIES AND APPLICATIONS
The chemical reactors are used for a wide variety of industrial fields and applications:
DIFFERENT SIZE, DIFFERENT SOLUTION
VELP has created different solutions to control speed, torque and temperature for many applications and to meet different needs:
INDUSTRIES AND APPLICATIONS
The chemical reactors are used for a wide variety of industrial fields and applications:
- Pharma: API, bioprocess, chemical reactions, formulations, dissolutions, drying, filtration
- Chemical industry: fine chemicals, specialty chemicals, petrochemical industry, polymers, pigments, agrochemicals
- Cosmetic: essence extraction, formulations, mixing
- Valuable metals: reflux reactions, catalyst recovery, precious metal affination
- Biotech: bioreactors, buffer preparations, product storage
- Food&Beverage, R&D, Oil&Gas, Academy, and many others
DIFFERENT SIZE, DIFFERENT SOLUTION
VELP has created different solutions to control speed, torque and temperature for many applications and to meet different needs:
- OHS Series and overhead stirrers: for small volume reactors, from few ml to 5-10 liters
- The new CONTROLLER Advance & Digital: for higher volumes lab-scale reactors of up to 100 liters
THE NEW VELP CONTROLLERS
VELP has developed the new CONTROLLER Series, a powerful and leading-edge solution to manage chemical reactions in lab-scale reactor systems up to 100 L.
The Controller Series is available in two models: the top-tier and cloud enabled CONTROLLER Advance and the intuitive CONTROLLER Digital.
Both CONTROLLERs are compatible with the optional VELP brushless motors that can be integrated in chemical reactors according to volume and viscosity.
The Controller Series is available in two models: the top-tier and cloud enabled CONTROLLER Advance and the intuitive CONTROLLER Digital.
Both CONTROLLERs are compatible with the optional VELP brushless motors that can be integrated in chemical reactors according to volume and viscosity.
CONTROLLER Advance
The CONTROLLER Advance is designed to manage and monitor the shaft rotation speed of brushless motors in pilot-plant reactor systems of up to 100 L provided with a 3.5" TFT display, Data logging, and Wi-Fi connectivity. It is the ideal solution in supporting reactions for:- Stirring: precisely set the desired speed (rpm) and the stirring direction
- Torque: monitor the viscosity of the reaction mixture with LED indicators
- Temperature: temperature measurement of the reaction through PT100 probe connection
EXCLUSIVE CONNECTIVITY OPTIONS
The CONTROLLER Advance benefits from the premium Wi-Fi connectivity to VELP Ermes cloud platform that provide exclusive advantages:
- remote control and real-time monitoring;
- access from your device (pc, tablet and smartphone);
- enhanced service support;
- datalog and reporting in multiple formats.
CONTROLLER Digital
The CONTROLLER Digital is the entry-level solution to manage and monitor the shaft rotation speed of brushless motors in lab-scale reactor systems of up to 100 L. It supports reactions for:- Stirring: precisely set the desired speed (rpm) and the stirring direction
- Torque: monitor the viscosity of the reaction mixture with LED indicators
Furthermore, the integral timer allows unattended operations. From the easy-to-use interface is possible to choose the direction of the stirring direction CW/CCW and to activate the safety lock button avoiding unintentional changes in settings.