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Calorimetry in chemistry
Calorimetric measurement doesn’t require sophisticated equipment. But the use of big data and algorithms can produce reliable thermal energy data, which supports research into the development of new materials and chemical processes.
Background
In chemical technology, calorimetric data is vital for monitoring process safety. gSKINgt sensors can directly measure heat release rates in chemical reactions.
And in the field of material sciences, precise calorimetric measurements are essential in the development of energy materials such as phase-change materials. This also applies to many other analytical techniques, including measurement of thermal capacities and the study of microstructural changes.
Solution
The gSKINgt heat flux sensor for calorimetric measurements, used in chemical technology, material sciences and many other sectors and fields.
With the gSKIN® DLOG data logger, innogt technology enables simple data analysis via certain devices or PC.
Benefits
- Miniaturized, compact and robust design
- Various dimensions (diameter/size)
- Low invasiveness, easy integration into the given setup
- Water-repellent, insensitive to pressure or vacuum
- Temperature range from -50°C to 150 °C
- Heat flux range -150/150 (kW/m2)
- Ultra-high sensitivity
- Calibration according to conductive heat flux in accordance with ISO 8301
- Patented Swiss measuring technology
Details
Instruction Manual: gSKINgt Innovation
Thermal characterization of batteries using gSKINgt Innovation
Case Study: Monitoring Heat Generation Battery
Summary: Calorimetric Measurement of Batteries
Battery Entropy Profiling with gSKINgt Sensor
Case Study gSKINgt Sensor for battery monitoring
