RESUMOEsse trabalho tem como objetivo apresentar dados relevantes sobre o gerenciamento de resíduos sólidos urbanos (RSU) na Europa de forma a se estabelecer paralelos e subsidiar a discussão no Brasil. É apresentada uma contextualização da situação atual da gestão dos resíduos sólidos urbanos no Brasil, onde os efeitos da Política Nacional de Resíduos Sólidos já se fazem sentir, sobretudo com o aumento da disposição final de RSU em aterros sanitários, predominantemente nas regiões metropolitanas. A reciclagem no país, em grande parte, ainda baseia-se na coleta informal por catadores ou na ação de organizações privadas. Na Europa, a partir da Diretiva 1999/31/EC, que estabeleceu metas para a disposição de resíduos em aterros sanitários, e da Diretiva 94/62/EC, sobre recolhimento de embalagens, a gestão de RSU se alterou profundamente. São apresentados dados das tecnologias predominantes de tratamento e disposição final de RSU e alguns mecanismos para implementação da mudança de cenário na Europa. O exemplo suíço é detalhado, mostrando como a cobrança de tarifas impulsiona as ações da população. É preciso reconhecer que o gerenciamento de resíduos sólidos urbanos RSU tem que ser planejado da coleta até o destino final, utilizando e integrando diferentes tecnologias de tratamento, de acordo com as características locais. É relevante para o Brasil a avaliação criteriosa das soluções disponíveis, do ponto de vista técnico e operacional, considerando fortemente a sua aplicabilidade local.Palavras-chave: gerenciamento integrado de resíduos; tratamento de resíduos; disposição final de resíduos; incineração; Europa; Suíça.
Radon is a natural and radioactive gas that can accumulate in indoor environments. Indoor radon concentration (IRC) is influenced, among other factors, by meteorology, which is the subject of this paper. Weather parameters impact indoor radon levels and have already been investigated, but rarely in Switzerland. Moreover, there is a strong need for a better understanding of the radon behaviour inside buildings in Switzerland for public health concerns as Switzerland is a radon prone area. Based on long-term, continuous, and hourly radon measurements, radon distributions classified according to different weather event definitions were investigated and then compared at three different study sites in Western Switzerland. Outdoor temperature influences the most indoor radon, and it is globally anti-correlated. Wind influences indoor radon, but it strongly depends on intensity, direction, and building characteristics. Precipitation influences periodically indoor radon levels relatively to their intensity. Atmospheric pressure and relative humidity do not seem to be huge determinants on IRC. Our results are in line with previous findings and provide a vivid example in Western Switzerland. This paper underlines the different influence complexities of radon, and the need to communicate about it within the broader public and with construction professionals, to raise awareness.
A stainless steel cylinder filled with soil was flushed upstream with a H2/CO2/air mixture. The consequence was a strong enrichment of the aerobic, autotrophic hydrogen‐oxidising microflora, which reached densities enabling them to oxidize 84.5 ml H2· dm−2· h−1 in the first 25‐cm layer. H2 concentration profiles, hydrogen uptake activity and cell numbers correlated well with each other. Most of the organisms isolated were dinitrogen fixers. Thus, soils containing hydrogen‐oxidising bacteria may act as a biological shield between H2‐rich environments and air, and may be utilized as biofilters, e.g., in the waste‐processing industry.
Background: Radon is a radioactive natural gas that is the leading cause of death from lung cancer in non-smokers. It is responsible for the highest share of the yearly effective doses a person is exposed to, and, in many cases, it is the most important indoor pollutant. National regulations on radon typically use derived reference levels, except for occupationally exposed workers that are monitored using a graded approach (e.g. in Switzerland and EU). However, in some countries, radon concentrations in dwellings or workplaces are high and the effective doses are comparable, and even greater than those measured in occupational workplaces. The times spent in different places and the presence of children or disabled people (that usually spend more time indoor) bring a need for assessing the risks of indoor radon exposure using a graded approach for both dwellings and workplaces. It is essential to highlight that the Covid-19 pandemic made more people work from home, and this new situation may be permanent for some workers.
Objective and Design: On this basis, the objectives of this work are to demonstrate the importance of adequate monitoring of natural radioactivity, simulate effective doses due to radon with the new effective dose coefficients (EDCs) proposed by International Commission on Radiological Protection (ICRP) (publication 137), show case studies that illustrate the need for effective dose calculation and propose a method to set radon mitigation deadlines for buildings with high radon activity concentrations. Moreover, this work will shed light in the question about the possible need for new radon reference levels after the new EDCs were proposed.
Conclusions: One important outcome of this work is the application of the dose approach in a case study conducted in a dwelling, the measurements and calculations show high annual effective doses (up to 350 mSv/year).
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