Qualidade, formação e ensino à distância: uma aplicação da NP 4512 numa unidade de E-learning

A implementação de sistemas de gestão da qualidade na área da educação e formação permite reforçar e consolidar as organizações que atuam num mercado cada vez mais competitivo, permitindo-lhes satisfazer, numa base permanente e sistemática, as expetativas dos clientes através do fornecimento de produtos de formação de melhor qualidade. Neste contexto, o objetivo deste estudo é explorar a temática dos sistemas de gestão da qualidade ao nível do setor de educação. Em específico pretende-se efetuar uma revisão de literatura sobre qualidade, formação e ensino à distância;analisar normas, projetos e iniciativas em matéria de ensino à distância e implementar um Sistema de Gestão da Formação, de acordo com a NP 4512, numa unidade de e-learning. A metodologia adotada foi investigação–ação e centrou-se no levantamento bibliográfico e na aplicação dos conceitos num contexto específico de um organização de ensino. Foi escolhida a unidade de e-learning do IPP (e-IPP) como contexto do estudo por ser uma unidade de ensino superior. Os principais resultados obtidos são: (1) maior conhecimento das normas projetos e iniciativas em matéria de ensino à distância a nível nacional e europeu; (2) análise detalhada da recente norma portuguesa NP 4512; (3) elaboração da documentação associada ao Sistema de Gestão da Formação (SGF) na unidade e-IPP, em específico, identificação e monitorização dos processos, descrição dos procedimentos obrigatórios e elaboração do manual do SGF. Como principal limitação deste estudo destaca-se a implementação parcial do sistema de gestão da formação na unidade e-IPP, devido à falta de tempo e à falta de maturidade da unidade e-IPP.

Particulate matter flux deposition in the vicinity of a coal-fired power plant

This paper describes the methodology adopted to assess local air quality impact in the vicinity of a coal power plant located in the south of Portugal. Two sampling areas were selected to assess the deposition flux of dust fallout and its potential spatial heterogeneity. The sampling area was divided into two subareas: the inner, with higher sampling density and urban and suburban characteristics, inside a 6-km circle centered on the stacks, and an outer subarea, mainly rural, with lower sampling density within a radius of 20 km. Particulate matter deposition was studied in the vicinity of the coal fired power plant during three seasonal sampling campaigns. For the first one, the average annual flux of dust fallout was 22.51 g/(m2 yr), ranging from 4.20 to 65.94 g/(m2 yr); for the second one was 9.47 g/(m2 yr), ranging from 0.78 to 32.72 g/(m2 yr) and for the last one was 38.42 g/(m2 yr), ranging from 1.41 to 117.48 g/(m2 yr). The fallout during the second campaign turned out to be much lower than for others. This was in part due to meteorological local patterns but mostly due to the fact that the power plant was not working at full power during the second sampling campaign.155

Trace metals in size-fractionated particulate matter in a Portuguese hospital: exposure risks assessment and comparisons with other countries

Hospitals are considered as a special and important type of indoor public place where air quality has significant impacts on potential health outcomes. Information on indoor air quality of these environments, concerning exposures to particulate matter (PM) and related toxicity, is limited though. This work aims to evaluate risks associated with inhalation exposure to ten toxic metals and chlorine (As, Ni, Cr, Cd, Pb, Mn, Se, Ba, Al, Si, and Cl) in coarse (PM2.5–10) and fine (PM2.5) particles in a Portuguese hospital in comparison with studies representative of other countries. Samples were collected during 1 month in one urban hospital; elemental PM characterization was determined by proton-induced X-ray emission. Noncarcinogenic and carcinogenic risks were assessed according to the methodology provided by the United States Environmental Protection Agency (USEPA; Region III Risk-Based Concentration Table) for three different age categories of hospital personnel (adults, >20, and <65 years) and patients (considering nine different age groups, i.e., children of 1–3 years to seniors of >65 years). The estimated noncarcinogenic risks due to occupational inhalation exposure to PM2.5-bound metals ranged from 5.88×10−6 for Se (adults, 55–64 years) to 9.35×10−1 for As (adults, 20–24 years) with total noncarcinogenic risks (sum of all metals) above the safe level for all three age categories. As and Cl (the latter due to its high abundances) were the most important contributors (approximately 90 %) to noncarcinogenic risks. For PM2.5–10, noncarcinogenic risks of all metals were acceptable to all age groups. Concerning carcinogenic risks, for Ni and Pb, they were negligible (<1×10−6) in both PM fractions for all age groups of hospital personnel; potential risks were observed for As and Cr with values in PM2.5 exceeding (up to 62 and 5 times, respectively) USEPA guideline across all age groups; for PM2.5–10, increased excess risks of As and Cr were observed particularly for long-term exposures (adults, 55–64 years). Total carcinogenic risks highly (up to 67 times) exceeded the recommended level for all age groups, thus clearly showing that occupational exposure to metals in fine particles pose significant risks. If the extensive working hours of hospital medical staff were considered, the respective noncarcinogenic and carcinogenic risks were increased, the latter for PM2.5 exceeding the USEPA cumulative guideline of 10−4. For adult patients, the estimated noncarcinogenic and carcinogenic risks were approximately three times higher than for personnel, with particular concerns observed for children and adolescents.