| Description | A small scale reaction calorimeter and automated laboratory reactor designed for process safety screening, EasyMax HFCal (Heat Flow Calorimeter) provides reaction information early in the development process to improve the chemical workflow. This data can be used to characterize, optimize and A small scale reaction calorimeter and automated laboratory reactor designed for process safety screening, EasyMax HFCal (Heat Flow Calorimeter) provides reaction information early in the development process to improve the chemical workflow. This data can be used to characterize, optimize and understand process parameters in a controlled, accurate and reproducible environment.
As a calorimetric screening tool, EasyMax HFCal identifies scalability issues and eliminates potential routes earilier - saving time, materials and costs. This heat flow calorimeter allows chemistry decisions to be taken sooner enabling faster process development and safer scale-up. EasyMax HFCal reaction calorimetry workstation provides thermodynamic information under both isothermal and non-isothermal conditions including heat transfer coefficient, specific heat of reaction mass, reaction enthalpy, thermal conversion, and adiabatic temperature rise.... Read More | Development of safe processes at scale.
- Understand your process -
Determine thermodynamic data quickly and precisely under isothermal or non-isothermal conditions
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Heat Flow Calorimetry - Simply Reliable -
Immune and robust against external influence, heat flow calorimetry accurately and
Development of safe processes at scale.
- Understand your process -
Determine thermodynamic data quickly and precisely under isothermal or non-isothermal conditions
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Heat Flow Calorimetry - Simply Reliable -
Immune and robust against external influence, heat flow calorimetry accurately and precisely measures the evolution of heat under process conditions
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Measuring the true heat of reaction -
Measuring the "Complete" heat of reaction is the basis to understanding the progress of chemical reactions, their kinetics and hazard potential
... Read More |
| Measurement Mode(s) | Isothermal and isoperibolic, constant or ramp, reflux, distillation and crystallization | Isothermal, Non-isothermal, Adiabatic, Reflux conditions |