Quantitative Structure-Property Relationships for Thermal Stability and Explosive Properties of Chemicals
Baati, N.
Nanchen, A.
Stoessel, F.
Meyer, T.
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How to Cite

Baati N., Nanchen A., Stoessel F., Meyer T., 2013, Quantitative Structure-Property Relationships for Thermal Stability and Explosive Properties of Chemicals, Chemical Engineering Transactions, 31, 841-846.
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Abstract

Handling and storing chemicals in the industrial world require a conscientious hazards assessment and the implementation of appropriate measures to ensure safety for the workers, the company, the environment and the society. Reliable evaluations and predictions based solely on the molecular structure would represent a valuable tool in the preliminary hazard assessment process as it would reduce the necessary time and resources for extensive testing. This work presents how Quantitative Structure-Property Relationships (QSPR) of various hazardous chemical properties (i.e. thermal decomposition enthalpy or Minimal Ignition Energy) can be built to meet these needs. Results are to be illustrated with some examples. Two sets of chemicals were studied and the corresponding experimental results were correlated to 90 molecular descriptors. The models were built following a regression analysis. The best multi-linear regressions presenting 6 parameters or less with high determination and cross-validation coefficients are withheld as predictive models.
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