Browsing by Issue Date, starting with "2025-08-08"
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- Eco‑friendly cleaning agent applied for ex situ remediation of beach sand contaminated with crude oilPublication . Santos, Adriana Vieira dos; Santos, Verena Filgueiras Borges dos; Fernandes, Virgínia Cruz; Figueiredo, Sónia Adriana; Grosso, Clara; Delerue‑Matos, Cristina; Simonelli, George; Santos, Luiz Carlos Lobato dos; Fernandes, VirgíniaCoastal oil spills cause significant adverse effects, and removing weathered crude oil mixed with sand remains a considerable challenge. To address this, an environmentally friendly cleaning agent was formulated using a vegetable oil-based microemulsion for sediment cleaning. The relationship between microemulsion composition and its efficiency in cleaning oil-contaminated sediments in coastal environments was investigated. Component selection followed criteria of low toxicity and high biodegradability, including pine oil as the oily phase, distilled water as the aqueous phase, saponified coconut oil as the surfactant, and isopropyl alcohol as the cosurfactant. Pseudoternary phase diagrams were constructed using a cosurfactant/surfactant ratio of 10. The microemulsified cleaning agents were characterized and optimized using Scheffé's simplex lattice design, with refractive index, viscosity, conductivity, and specific gravity as response variables. Biodegradable microemulsion systems were successfully applied to remediate oil-contaminated beach sand, where higher proportions of the oily phase, specifically 30% and 60%, demonstrated excellent oil removal performance. The remediation process effectively incorporated the crude oil contaminant into the oily phase of the microemulsion, achieving a maximum removal efficiency of 90%. Additionally, the microemulsion exhibited stability for 30 days and maintained efficiency for up to five reuse cycles. This study highlights the potential of environmentally friendly microemulsions derived from vegetable oils for effective remediation of beach sand contaminated with crude oil, particularly through in situ soil washing or soil flushing, reinforcing the viability and sustainability of these cleaning agents.
- Assessing resilience potentials in management of occupational safety and health in hospitals: Development and validation of a toolPublication . Afonso-Fernandes, J.; Barbosa, J.; Arezes, P.; Pardo-Ferreira, C.; Rubio-Romero, J.C.; Rodrigues, Matilde Alexandra; Rodrigues, MatildeA resilient Occupational Safety and Health (OSH) management system is crucial for effectively addressing potential future public emergencies, ensuring the continuous protection of workers' safety and health. Therefore, it is essential for organizations, particularly hospitals, to assess their resilient performance and employ tools that are appropriate and tailored to their specific context. This study aims to enhance the understanding of resilience potentials in OSH management within hospital settings. To this end, an assessment tool was developed based on the Resilience Assessment Grid (RAG). A Delphi study involving subject matter experts was conducted to refine the tailored RAG tool. Following this, a pilot test was administered to 404 healthcare professionals across three public hospitals, with subsequent psychometric analysis. Exploratory Factor Analysis (EFA) identified a four-dimensional structure. Goodness-of-fit indices demonstrated acceptable values, confirming the adequacy of the measurement model. Reliability testing indicated that the 29 item assessment tool is both valid and reliable. The tailored RAG tool was successfully validated, enabling the identification of strengths and weaknesses in OSH management.