ABSTRACT
The recycling of fly ash from municipal solid waste incineration is currently a global issue. This work intends to examine the viability of a novel recycling alternative for fly ashes as a component of fire-resistant plates. To lessen the quantity of heavy metal leaching, the fly ash was utilized after being washed using a water/fly ash ratio of 2 for one hour. Subsequently, an inexpensive, straightforward molding and curing process was used to create a plate, with a composition of 60%wt of MSWI-FA, 30%wt of gypsum, 0.5%wt of glass fiber and 9.5%wt of vermiculite. The plate exhibited high fire resistance. Furthermore, it demonstrated compression, flexural strength and surface hardness slightly lower than the requirements of European Standards. This allows for manufacturing plates with a high washed MSWI-FA content as fire protection in firewalls and doors for homes and commercial buildings. A Life Cycle Assessment was carried out. The case study shows that a 60% substitution of gypsum resulted in an environmental impact reduction of 8-48% for all impact categories examined, except four categories impacts (marine eutrophication, human toxicity (cancer), human non-carcinogenic toxicity and water depletion, where it increased between 2 and 718 times), due to the previous washing of MSWI-FA. When these fly ashes are used as a raw material in fire-resistant materials, they may be recycled and offer environmental advantages over more conventional materials like gypsum.
ABSTRACT
RESUMO A incineração é uma tecnologia de tratamento térmico de resíduos sólidos cujo principal objetivo é a redução do volume e da massa dos resíduos a serem depositados em aterros. Os incineradores construídos nas últimas décadas trazem a possibilidade de recuperação energética dos resíduos, na forma de vapor e/ou energia elétrica, entretanto essa tecnologia ainda gera questionamentos sobre possíveis impactos ambientais relacionados às suas emissões. A incineração é regulada na Europa por legislação específica que, entre outras questões, obriga a divulgação de dados de monitoramento ambiental de incineradores. No presente trabalho, são analisados dados de emissões atmosféricas de incineradores associados à Confederation of European Waste-to-Energy Plants (CEWEP), por meio de buscas nos websites dos respectivos incineradores, em artigos científicos e relatórios técnicos. Foram examinados dados de monitoramento de todos os poluentes de medição contínua e periódica definidos na legislação da UE, em séries temporais de 2010 a 2017. Todos os valores médios anuais de emissões nos incineradores analisados estiveram abaixo dos limites definidos pela diretiva europeia, com pequena variação ao longo dos anos observados. A comparação dos padrões de emissão europeus com os brasileiros mostra a necessidade de mudança na legislação local referente à incineração para que, caso essa tecnologia seja implementada no Brasil, ela possa operar respeitando limites seguros, com garantia de minimização de impactos ao ambiente e às populações do entorno.
Abstract Incineration is a solid waste treatment technology whose main purpose is to reduce the volume and mass of the waste to be disposed of in landfills. The incinerators built in the last decades bring the possibility of energy recovery from waste, in the form of steam and/or electric energy. However, this technology still raises questions about possible environmental impacts related to its emissions. Incineration is regulated in Europe through specific legislation which, among other issues, requires the disclosure of environmental monitoring data for incinerators. In the present work, atmospheric emissions data from incinerators associated with the Confederation of European Waste-to-Energy Plants (CEWEP) are analyzed by searching the websites of the respective incinerators, scientific articles and technical reports. Monitoring data on all continuous and periodic measured pollutants defined in the legislation in time series from 2010 to 2017 were analyzed. All annual average emission values of the incinerators analyzed were below the limits defined by the European Union's Directive, with little variation over the observed years. The comparison of European with Brazilian emission standards shows the need for a change in local legislation on incineration so that, if this technology is implemented in Brazil, it will operate within safe limits, with a guarantee of minimizing impacts on the environment and surrounding populations.
ABSTRACT
The article presents a mini review of the published research focused on understanding environmental and human health impacts nearby waste incineration plants. We found no studies indicating that modern-technology waste incineration plants, which comply with the legislation on emissions, are a cancer risk factor or have adverse effects on reproduction or development. There are several factors in favor of this affirmation: (a) the emission levels of the plants currently built in the developed countries are several orders of magnitude lower than those of the plants in whose environments epidemiological studies have been carried out and which have found some kind of negative association in terms of health; (b) risk assessment studies indicate that most of the exposure is produced through the diet and not by a direct route; and (c) monitoring dioxin level studies in the population resident in the environment of incineration plants did not reveal increases of these levels when compared with a population living in reference areas. A necessary condition for the development of a waste incineration plant is to generate the conditions to prevent any impact that activates or potentially carries damage or risks to the environment and, in particular, to health. This makes it imperative to use a preventive strategy through the implementation of a previous environmental impact assessment and the establishment of emissions standards and an emissions monitoring program in order to ensure the prevention of environmental damage.