가속속도열량계

가속 속도 열량계 

가속 속도 열량계는 기업의 안전하고 유익한 운용에 매우 효과적인 장비입니다.

최소 화학 반응이 일어나는 시료에도 이 장비는 열적 압력 발열 화학 반응 성질을 측정합니다. 이 장비에서 얻어진 결과는 잠재적인 위험성을 확인하고 또한 긴급 완화 시스템, 유출 조작, 공정의 최적화, 열적 안정성 등을 포함한 공정의 안전성을 위한 주요 성분을 찾는데 도움을 줍니다. VariPhi®®옵션은 흡열, 발열, 열용량, 압력 데이터 등의 스캐닝 모드에서의 측정처럼 모든 Accelerating Rate Calorimetry (ARC)The method describing isothermal and adiabatic test procedures used to detect thermally exothermic decomposition reactions.ARC®®/APTAC® 를 DSC와 같은 기능을 하도록 합니다.

Instrument / ModeAdiabaticAdiabatic describes a system or measurement mode without any heat exchange with the surroundings. This mode can be realized using a calorimeter device according to the method of accelerating rate calorimetry (ARC®). The main purpose of such a device is to study scenarios and thermal runaway reactions. A short description of the adiabatic mode is “no heat in – no heat out”.Adiabatic
(Accelerating Rate)		ScanningIsothermalTests at controlled and constant temperature are called isothermal.IsothermalReaction (IsothermalTests at controlled and constant temperature are called isothermal.Isothermal/isoperibolic)
ARC® 244+with VariPhi®with VariPhi®-
ARC® 305+with VariPhi®with VariPhi®with VariPhi®, stirring, injection
Multiple Module Calorimeter (MMC)A multiple mode calorimeter device consisting of a base unit and exchangeable modules. One module is prepared for accelerating rate calorimetry (ARC®), the ARC®-Module. A second one is used for scanning tests (Scanning Module) and a third one is related to battery testing for coin cells (Coin Cell Module).MMC 274 Nexus®, Accelerating Rate Calorimetry (ARC)The method describing isothermal and adiabatic test procedures used to detect thermally exothermic decomposition reactions.ARC® module+with VariPhi®  with VariPhi® -
Multiple Module Calorimeter (MMC)A multiple mode calorimeter device consisting of a base unit and exchangeable modules. One module is prepared for accelerating rate calorimetry (ARC®), the ARC®-Module. A second one is used for scanning tests (Scanning Module) and a third one is related to battery testing for coin cells (Coin Cell Module).MMC 274 Nexus®, Scanning module-++-
Multiple Module Calorimeter (MMC)A multiple mode calorimeter device consisting of a base unit and exchangeable modules. One module is prepared for accelerating rate calorimetry (ARC®), the ARC®-Module. A second one is used for scanning tests (Scanning Module) and a third one is related to battery testing for coin cells (Coin Cell Module).MMC 274 Nexus®, HT Coin Cell ModuleA calorimeter module being part of the Multiple Module Calorimeter (MMC) allowing for scanning and isothermal tests of complete coins of variable size. The DSC-like twin design gives a differential signal of the heat signature during a heating ramp or charging and discharging of batteries.Coin Cell module-++-

Accelerating Rate Calorimeter 244 (ARC®)

The cost‐effective Accelerating Rate Calorimetry (ARC)The method describing isothermal and adiabatic test procedures used to detect thermally exothermic decomposition reactions.ARC® 244 is designed to safely measure the amount and rate of heat release associated with the processing or storage of chemicals within a container volume between 1.5 ml and 8.5 ml.

Accelerating Rate Calorimeter 305 (ARC®)

The Accelerating Rate Calorimeter 305 (Accelerating Rate Calorimetry (ARC)The method describing isothermal and adiabatic test procedures used to detect thermally exothermic decomposition reactions.ARC®) provides AdiabaticAdiabatic describes a system or measurement mode without any heat exchange with the surroundings. This mode can be realized using a calorimeter device according to the method of accelerating rate calorimetry (ARC®). The main purpose of such a device is to study scenarios and thermal runaway reactions. A short description of the adiabatic mode is “no heat in – no heat out”.adiabatic calorimetry data in a safe, controlled laboratory environment.

This information helps provide a sound understanding of the fundamental physical processes involved. From this understanding, various safe operating systems and procedures can be developed to mitigate the hazards posed by a reactive system.

Our latest blog articles