| PROCESS SAFETY - CHEMICAL PROCESS |
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DESCRIPTION
We can help you understand your challenges better with a range of systems designed to obtain rates of both temperature and pressure rises during decomposition as well as to measure kinetics and determine long term stability of materials or formulations.
The Process Safety Laboratory
Screening the first and most simple step requires an assessment of each raw material, intermediate or final product to determine its thermal stability within plant conditions. This will determine if further investigation is required, and is performed using a DSC. |
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Desired Conditions are studied using isothermal and reaction calorimetry to determine the heat and pressure rise associated with a process. From this data calculations such as potential adiabatic temperature rise, required cooling duty and the potential energy build up with scenarios such as miss-feeds can be determined.
Worst Case Scenarios, once determined need to be accurately assessed for full potential impact. Time to maximum rate, runaway time and pressure evolution are all determined by Accelerated Rate Calorimetry.
SADT, Time to Maximum Rate and the full package of thermal hazards data can be precisely determined using powerful kinetics software. With a well designed experimental series and advanced kinetics you significantly reduce the number of analysis required, reducing countless time and resources performing complex experimentation.
Some International References
Chimex - France
INERIS - France
L’OREAL - France
OrilIndustrieServier - France
Sanofi Aventis - France
Aqura GmbH - Germany
Bayer - Germany
Boehringer - Germany
Novartis - Switzerland
WackerChemie - Germany
Mitsubishi Chemicals - Japan
Astra Zeneca - Sweden, UK
Syngenta - UK |
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| ASSOCIATED PRODUCTS |
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An innovative line of Thermal Analyzers (-120 / 830°C) with 3D-Inside technology: TG-DSC-EGA
SENSYS evo TG-DSC-EGA
The HIGHLIGHTS Thermogravimetry Excellent TG signal baseline: the symmetry of the microbalance, with its sample and reference suspended vertically from the beam guarantee reproducible positioning of the sample over time and excellent stability of the TG signal baseline. |
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An innovative line of Thermal Analyzers (-120 / 830°C) with 3D-Inside technology: DSC, High Pressure DSC, Robot DSC, TG - DSC - coupling to gas analyzer
SENSYS evo DSC
An innovative line of Thermal Analyzers (-120 / 830°C) with 3D-Inside technology: DSC, High Pressure DSC, Robot DSC, TG – DSC – coupling to gas analyzer The HIGHLIGHTS Incomparable precision: the unique 3D sensor totally surrounds your sample and reference crucibles so that the entire energy of any transformation is monitored. |
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An innovative line of Thermal Analyzers (-120 / 830°C) with 3D-Inside technology: DSC, High Pressure DSC, Robot DSC, TG-DSC-coupling to gas analyzer
SENSYS evo TG-DSC
The HIGHLIGHTS Differential Scanning Calorimeter – Incomparable precision: the unique 3D DSC sensor totally surrounds your sample and reference crucibles so that the entire energy of any transformation is monitored. |
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Advanced Thermokinetics Software for kinetic analysis and thermal safety
AKTS-Thermokinetics Software
A GLOBAL SOLUTION FOR KINETIC ANALYSIS AND DETERMINATION OF THE THERMAL STABILITY OF MATERIALS SETARAM Instrumentation and AKTS Software have formed a partnership to provide a global solution for kinetic analysis and determination of the thermal stability of materials. |
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| For more information click here... |
