Risk assessment and green chemistry applied to waste generated in university laboratories

Chemical reagents have become fundamental products in daily life use, they contribute in several ways to establish a high level of social development. In the case of higher education, the use of reagents allows learning thought laboratory practices. These practices must be carried out under preventative measures, in order to avoid negative impacts on the environment and human health; this generates the need to identify and classify the chemical substances used and the waste generated. This research was developed at the Faculty of Environmental Engineering at Universidad Santo Tomás in the Villavicencio campus, the objective was to apply the concepts of Green Chemistry in the laboratory guidelines, in addition to guaranteeing the proper management of the chemical waste generated. Initially, the hazard of twenty-one (21) laboratory guides based on the Globally Harmonized System (GHS) ninth revised edition (2021) was determined. Subsequently, an update was performed by applying Green Chemistry to ten (10) of the laboratory guides that represented the greatest hazards, and finally, a manual was established for the management of chemical waste resulting from laboratory practices. The results determined that in the subject of Inorganic Chemistry the guidelines Physical and Chemical Properties of the Matter presents the highest hazard index, due to lead nitrate, which was evaluated as the most hazard reagent, because of its carcinogenicity (1B) and reproductive toxicity (1A). The proposed update to the guidelines was possible by replacing the chemical substances used in order to reduce by 24% the risk associated with them and the by 50% the use of reagents in relation to the same laboratory guidelines defined in the first stage. [Display omitted] •The principles of green chemistry and microscale chemistry are applied to the prioritized guides.•With the applied methodology, the risk analysis of the reagents was carried out, this through the Globally Harmonized System (GHS).•By replacing the chemical substances used, it is possible to reduce 24% of the associated risks.•Green Chemistry in the field of solid waste management applied in universities, presents successful results.