Proper characterization of reactive systems is required to ensure the mechanical integrity of processing equipment and to avoid potential hazards such as fires, explosions, and toxic cloud dispersions. As the temperature of the vessel contents deviates from safe operating limits and becomes too high, the rate of heat production by the chemical reaction (i.e., exponential function of temperature) can exceed the processing equipment rate of heat loss and/or cooling capacity (i.e., linear function of temperature) leading to a runaway reaction. However, not all reactive systems present the same thermal risk level, and accordingly, not all of them require the same level of detail for Emergency Relief System design. Figure 1: ARC Approach – Temperature History Illustration The present paper illustrates an easy-to-use screening tool for characterizing any reactive system based on information extracted from basic calorimetric tests. Two parameters have to be estimated for both desired and potential secondary reaction in case of a runaway:
The screening tool is based on the following criteria intended to estimate four (4) key temperature levels which contain the thermodynamic and kinetics information of the runaway reaction:
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