21 - 23 May
The OmniFerm® product line includes individual and parallel fermenter systems for the controlled cultivation of bacteria, yeasts, and other plant and animal cell cultures. The devices stand out for their particularly compact design and small footprint, which allows for placing multiple reactors on a single laboratory table.
The product line closes the gap between shaking flasks and large-scale laboratory fermenters. Results from shaking flask cultures can now be validated in parallel processes with minimal substrate use and major time savings. The product line makes it easy to scale up and OmniFerm® bioreactors offer many customer-specific equipment options and high flexibility.
LabVision® is a user-friendly and highly adaptable automation software. Its integrated table-based EasyBatch process control allows for easy programming of even the most complex tests.
The basic unit consists of a glass vessel and a stainless steel lid with the required connections and an exhaust air cooler. Vessels are available in volumes ranging from 275 mL to 16 L. The system integrated exhaust gas analysis unit charts the progression of OTR, CTR, RQ, OT, CT, and growth rate online. Thanks to an innovative solid state temperature control system without heat exchange media, in which the bottom panel of the container provides heating and cooling, no external cooling water supply is needed for reactor sizes from 0.6 to 2 L.
- Full functionality range to serve as laboratory and research fermenter
- High level of automation
- Formulation control and advanced control options
- Experiment reports can be freely configured
- Additional sensors and actuators can be integrated
- Control option with online analytics
- Parallel fermenter system using temperature control system without heat exchange media
EcoLab parallel reactor systems are the newest members and the smallest models of the successful LabKit laboratory reactor family.
The specific feature of EcoLab ...
Being based on connector blocks, the new DC-Manager System, DC stands for Distributed Control, is an alternative to the LabManager® laboratory automation system, ...
OmniShake includes a single-use bio-reactor-system for the cultivation of cells which are very sensitive to shearing, such as IPS cells. In addition, all other organisms ...
The CultiLux® exposure system consists of up to 14 individually programmable light sources. It is adaptable to various fermentation containers from shake flasks ...
The working range of conventional pump drives is limited. LabDos® pump drives work from 0,01 to 300 RPM with one drive. The drive controller may be calibrated in ...
Bioprocess development and optimization in shaking flasks with high resolution exhaust gas analysis.
RAMOS (Respiration Activity MOnitoring System) has established ...
HiTec Zang introduced two series of sampling systems for upstream and downstream processing on liquid handling systems. AutoSam is a family of rotary disk samplers, ...
The LSMagS magnetic paddle reactor is an innovative reactor type with built-in, permanently magnetic agitator paddles. The reactor can be used for all applications ...
SoliDos® solid matter dosing devices are suitable for dosing and filling powdered and granulated solids, for example for solids-based pH regulation or seeding crystallisation ...
SciBot laboratory robots by HiTec Zang are custom-tailored for special applications. Thanks to seamless integration into the LabVision® automation environment, the ...
The completely reworked version of the proven LabManager® laboratory automation system is now available. The housing is designed for direct mount inside laboratory ...
UniDos is a universal stand-alone dosing controller for nearly all dosing tasks. Thanks to its compact design and its in-system-programmability it will fit onto ...
The modification of the waste air composition of a bio-process or bio-reactor provides valuable information about the status of the metabolic rate processes of a ...
The Gmix precision gas mixing station was especially developed for applications which demand the highest possible precision and reproducibility of a gas mixture.