Estimation of Environment-Related Properties of Chemicals for Design of Sustainable Processes: Development of Group-Contribution+ (GC+) Property Models and Uncertainty Analysis

The aim of this work is to develop group-contribution(+) (GC(+)) method, (combined group contribution (GC) method and atom Connectivity index (CI) method) based property models to provide. reliable estimations of environment-related:properties of organic chemicals together with uncertainties of estimated property values. For this purpose, a systematic methodology for property modeling and uncertainty analysis is used.. The methodology includes a Parameter estimation step to determine parameters of property models and an Uncertainty. analysis step to establish statistical information about the quality of parameter estimation, such as the parameter covariance, the Standard errors in predicted.. properties, and the confidence intervals For parameter estimation, large data sets of experimentally measured property Values of a : wide range Of chemicals (hydrocarbons, oxygenated chemicals, nitrogenated chemicals, poly functional chemicals, etc..) taken from the database of the US Environmental Protection Agency (EPA) and from the database of USEtox is used. For property modeling and uncertainty,analysis, the Marrero and Gani GC method and atom Connectivity index Method. have been Considered. In total, 22 environment related properties, which include the fathead Minnow 96-h LC50, Daphnia magna 48-h LC50, oral rat LD50, aqueous solubility bioconcentration factor, permissible exposure limit (OSHA-TWA), photochemical oxidation potential, global warming potential, ozone depletion potential, acidification potential, emission to urban air (carcinogenic and noncarcinogenic), emission to continental rural air (carcinogenic and noncarcinogenic), emission to,:continental fresh water. (carcinogenic and noncarcinogenic), emission to continental seawater: (carcinogenic and noncarcinogenic), emission to continental natural soil.(carcinogenic and noncarcinogenic), and emission to continental. agricultural soil (carcinogenic and noncarcinogenic) have been modeled and analyzed. The application of the developed property models for the estimation of environment related properties and uncertainties of the estimated property values is highlighted through an illustrative example. The developed property models provide reliable estimates of environment,related:properties needed to perform.. process synthesis, design, and analysis of sustainable chemical processes and allow one to evaluate the effect of uncertainties of estimated property value's on the calculated performance of processes giving useful In-Sights into quality and reliability of the design Of sustainable processes.