TAC-500A Adiabatic Reaction Calorimeter Introduction
TAC-500A adiabatic reaction calorimeter is mainly used for chemical process research and development, process optimization and amplification, chemical thermal hazards in the fields of organic chemistry, petrochemicals, pharmaceuticals, agricultural fertilizers, fine chemicals, polymers and plastics, energetic materials, etc. Assessment, investigation and analysis of explosion accidents, and thermodynamic research. Features
1) Support HWS mode, constant temperature mode, constant speed scanning mode, etc.
2) Professional data analysis software, which can automatically calculate parameters such as exothermic onset temperature, adiabatic temperature rise, activation energy, and pre-finger factors
3) The key components are internationally renowned brands to ensure the long-term and stable operation of the instrument
4) After the experiment, the inert gas can be connected to the furnace to quickly cool down.
5) With over-pressure and over-temperature alarm function
6) Automatic lifting function of the furnace cover to ensure safety and easy operation
7) Professional industrial design, simple and elegant
8) Friendly human-computer interaction, easy to learn, understand, and operate Technical Parameters
Working environment: 5 ℃ ~ 35 ℃ , < 85% RH
Temperature control range: room temperature to 500 ℃
Temperature display resolution: 0.001 ℃
Temperature detection threshold: 0.005 ~ 0.02 ℃ / min
Temperature tracking rate: 0.005 ~ 40 ℃ / min
Pressure range: 0 ~ 20000kPa
Pressure resolution: 1kPa
Sample cell specifications: 8ml
Sample cell material: stainless steel, titanium alloy, Hastelloy (optional)
Phi value: ≤1.35
Interface: USB
Power: 220V 50Hz
Power: 3000W
Introduction
TAC-500A adiabatic reaction calorimeter is mainly used for chemical process research and development, process optimization and amplification, chemical thermal hazards in the fields of organic chemistry, petrochemicals, pharmaceuticals, agricultural fertilizers, fine chemicals, polymers and plastics, energetic materials, etc. Assessment, investigation and analysis of explosion accidents, and thermodynamic research.
