The EasyMax 402 HFCal is a reaction calorimeter for quick, effective safety screening and early chemical process characterization.
Uncover Potential Safety Issues
With EasyMax 402 HFCal, non-scalable conditions like accumulation, poor mixing, or dosing problems are simple to identify.
True Heat Flow Is Important
EasyMax HFCal calculates the heat released by the chemical reaction, in contrast to traditional heat flow calorimetry.
Process Development - Fast and Reliable
Process development is accelerated and made more predictable through constant observation of the reaction's progress, heat release, and potential accumulation.
Features
Data Analysis - Efficient and Accurate
During an experiment, the EasyMax 402 HFCal gathers and stores a lot of data. Heat flow, reaction enthalpies, specific heat of the reaction mass, and heat transfer data are automatically calculated by iControl software and displayed in a report.
Heat Flow Calorimetry for Development
The multipurpose EasyMax 402 HFCal offers crucial chemical and thermodynamic data, minimizes pointless experiments, conserves valuable time and resources, lowers expenses, and boosts process development effectiveness.
Integration with Analytical Probes
The smooth integration of heat data with other process data and online analytical methods greatly improves comprehension of the reaction's path, possible risks, and byproduct formation, enabling users to make more informed decisions.
Specifications
Specifications - EasyMax 402 Advanced and HFCal. Source: Mettler Toledo - International
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| Dimensions (HxWxD) |
28 cm x 43 cm x 36 cm |
| Weight |
20 kg |
| Material |
EasyMax 402 Advanced (30084210) and Upgrade Kit EasyMax HFCal (30090576) |
| Power Requirements |
100 – 240 VAC, 50/60 Hz |
| Operating Volume |
80 mL – 400 mL |
| Precision Heat Transfer |
Typically +/- 4% |
| Temperature Range |
-40 °C – 180 °C |
| Heating / Cooling |
Solid State Thermostat |
| Accuracy and Precision Specific Heat |
Typically +/-12% |
| Accuracy Heat Flow |
Based on comparison of qr_hf with qc resp. ∫qr_hf with ∫ qc
Isothermal conditions: ± 3 % to 5 %
Non-isothermal conditions: ± 5 % to 10% |
| Temperature Modes |
Jacket control, reaction mixture control, distillation control, crystallization control |
| Back / Front light |
Yes/No |
| Calorimetry Type |
Heat Flow |
EasyMax Synthesis Workstation For Chemical Process Optimization
Video Credit: Mettler Toledo - International