357 resultados para LCA
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A preocupação com o meio ambiente, nomeadamente na descarga de águas residuais, consumo de água excessivo e produção de resíduos industriais, está cada vez mais presente no quotidiano. Devido a estas problemáticas, efetuou-se a avaliação de impacte ambiental (AIA) do processo produtivo das rolhas de cortiça naturais, tratamento das águas de cozedura da cortiça (estudo da possível reutilização do efluente tratado) e valorização de subprodutos – resíduo sólido (raspa de cortiça), sendo estes os objetivos propostos para a realização da presente dissertação. Na AIA, efetuada no decorrer das fases da Análise do Ciclo de Vida (ACV), foram selecionadas 8 categorias de impacte – aquecimento global, acidificação, dessecação, toxicidade e ecotoxicidade, eutrofização, consumo de recursos não renováveis e oxidação foto-química. A água de cozedura caracterizou-se por uma elevada carga poluente, apresentando elevada concentração de cor, Carência Química de Oxigénio (CQO), taninos e lenhina e Sólidos Suspensos Totais (SST). O processo de tratamento proposto consistiu num pré-tratamento por ultrafiltração (UF), com membranas de 30.000 e 20.000 MWCO, seguido de adsorção por carvão ativado (comercial e produzido a partir de raspa de cortiça). No tratamento por UF, utilizando uma membrana de 30.000 MWCO, foram obtidas percentagens de remoção para a primeira amostra de água de cozedura de 74,8 % para a cor, 33,1 % para a CQO e para a segunda amostra de 85,2 % para a cor e 41,8 % para a CQO. Posteriormente, apenas para a segunda amostra de água de cozedura e com uma membrana de 20.000 MWCO, as percentagens de remoção obtidas foram superiores, de 93% para a cor, 68,9 % para a CQO, 88,4 % para taninos e lenhina e 43,0 % para azoto total. No tratamento por adsorção com carvão ativado estudou-se o tempo de equilíbrio do carvão ativado comercial e do carvão ativado produzido a partir de aparas de cortiça, seguindo-se o estudo das isotérmicas de adsorção, no qual foram analisados os parâmetros da cor e CQO para cada solução. Os ajustes dos modelos teóricos aos pontos experimentais demonstraram que ambos os modelos (Langmuir e Freundlich) poderiam ser considerados, uma vez que apresentaram ajustes idênticos. Relativamente ao tratamento de adsorção em contínuo do permeado, obtido por UF com membrana de 20.000 MWCO, constatou-se que ambos os carvões ativados (comercial e produzido) não ficaram saturados, tendo em consideração os tempos de saturação estimados pela capacidade máxima de adsorção (determinada para a isotérmica de Langmuir) e as representações gráficas dos valores experimentais obtidos para cada ensaio. No ensaio de adsorção com carvão ativado comercial verificou-se que o efluente tratado poderia ser descarregado no meio hídrico ou reutilizado no processo industrial (considerando os parâmetros analisados), uma vez que até aos 11 minutos de ensaio a concentração da solução à saída foi de 111,50 mg/L O2, para a CQO, e incolor, numa diluição de 1:20. Em relação à adsorção em contínuo com carvão ativado produzido verificou-se no ensaio 4 que o efluente resultante apresentou uma concentração de CQO de 134,5 mg/L O2 e cor não visível, numa diluição de 1:20, ao fim de 1h22 min de ensaio. Assim, concluiu-se que os valores obtidos são inferiores aos valores limite de emissão (VLE) presentes no Decreto-Lei n.º 236/98 de 1 de Agosto. O carvão ativado produzido apresentou elevada área superficial específica, com 870 m2/g, comparativamente ao carvão comercial que foi de 661 m2/g. O processo de extração da suberina a partir de raspa de cortiça isenta de extraíveis, efetuado através da metanólise alcalina, apresentou percentagens de extração superiores aos restantes métodos. No processo efetuado em scale-up, por hidrólise alcalina, obteve-se uma extração de 3,76 % de suberina. A aplicação da suberina no couro demonstrou que esta cera apresenta enormes potencialidades, uma vez que a sua aplicação confere ao couro um aspeto sedoso, com mais brilho e um efeito de “pull-up”.
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Grain finishing of cattle has become increasingly common in Australia over the past 30 years. However, interest in the associated environmental impacts and resource use is increasing and requires detailed analysis. In this study we conducted a life cycle assessment (LCA) to investigate impacts of the grain-finishing stage for cattle in seven feedlots in eastern Australia, with a particular focus on the feedlot stage, including the impacts from producing the ration, feedlot operations, transport, and livestock emissions while cattle are in the feedlot (gate-to-gate). The functional unit was 1 kg of liveweight gain (LWG) for the feedlot stage and results are included for the full supply chain (cradle-to-gate), reported per kilogram of liveweight (LW) at the point of slaughter. Three classes of cattle produced for different markets were studied: short-fed domestic market (55–80 days on feed), mid-fed export (108–164 days on feed) and long-fed export (>300 days on feed). In the feedlot stage, mean fresh water consumption was found to vary from 171.9 to 672.6 L/kg LWG and mean stress-weighted water use ranged from 100.9 to 193.2 water stress index eq. L/kg LWG. Irrigation contributed 57–91% of total fresh water consumption with differences mainly related to the availability of irrigation water near the feedlot and the use of irrigated feed inputs in rations. Mean fossil energy demand ranged from 16.5 to 34.2 MJ lower heating values/kg LWG and arable land occupation from 18.7 to 40.5 m2/kg LWG in the feedlot stage. Mean greenhouse gas (GHG) emissions in the feedlot stage ranged from 4.6 to 9.5 kg CO2-e/kg LWG (excluding land use and direct land-use change emissions). Emissions were dominated by enteric methane and contributions from the production, transport and milling of feed inputs. Linear regression analysis showed that the feed conversion ratio was able to explain >86% of the variation in GHG intensity and energy demand. The feedlot stage contributed between 26% and 44% of total slaughter weight for the classes of cattle fed, whereas the contribution of this phase to resource use varied from 4% to 96% showing impacts from the finishing phase varied considerably, compared with the breeding and backgrounding. GHG emissions and total land occupation per kilogram of LWG during the grain finishing phase were lower than emissions from breeding and backgrounding, resulting in lower life-time emissions for grain-finished cattle compared with grass finishing.
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Recycled materials replacing part of virgin materials in highway applications has shown great benefits to the society and environment. Beneficial use of recycled materials can save landfill places, sparse natural resources, and energy consumed in milling and hauling virgin materials. Low price of recycled materials is favorable to cost-saving in pavement projects. Considering the availability of recycled materials in the State of Maryland (MD), four abundant recycled materials, recycled concrete aggregate (RCA), recycled asphalt pavement (RAP), foundry sand (FS), and dredged materials (DM), were studied. A survey was conducted to collect the information of current usage of the four recycled materials in States’ Department of Transportation (DOTs). Based on literature review, mechanical and environmental properties, recommendations, and suggested test standards were investigated separately for the four recycled materials in different applications. Constrains in using these materials were further studied in order to provide recommendations for the development of related MD specifications. To measure social and environmental benefits from using recycled materials, life-cycle assessment was carried out with life-cycle analysis (LCA) program, PaLATE, and green highway rating system, BEST-in-Highway. The survey results indicated the wide use of RAP and RCA in hot mix asphalt (HMA) and graded aggregate base (GAB) respectively, while FS and DM are less used in field. Environmental concerns are less, but the possibly low quality and some adverse mechanical characteristics may hinder the widely use of these recycled materials. Technical documents and current specifications provided by State DOTs are good references to the usage of these materials in MD. Literature review showed consistent results with the survey. Studies from experimental research or site tests showed satisfactory performance of these materials in highway applications, when the substitution rate, gradation, temperature, moisture, or usage of additives, etc. meet some requirements. The results from LCA revealed significant cost savings in using recycled materials. Energy and water consumption, gas emission, and hazardous waste generation generally showed reductions to some degree. Use of new recycled technologies will contribute to more sustainable highways.
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Au Sénégal, les maladies diarrhéiques constituent un fardeau important, qui pèse encore lourdement sur la santé des enfants. Ces maladies sont influencées par un large éventail de facteurs, appartenant à différents niveaux et sphères d'analyse. Cet article analyse ces facteurs de risque et leur rôle relatif dans les maladies diarrhéiques de l'enfant à Dakar. Ce faisant, elle illustre une nouvelle approche pour synthétiser le réseau de ces déterminants. Une analyse en classes latentes (LCA) est d’abord menée, puis les variables latentes ainsi construites sont utilisées comme variables explicatives dans une régression logistique sur trois niveaux. Les résultats confirment que les déterminants des diarrhées chez l'enfant appartiennent aux trois niveaux d'analyse et que les facteurs comportementaux et l'assainissement du quartier jouent un rôle prépondérant. Les résultats illustrent aussi l'utilité des LCA pour synthétiser plusieurs indicateurs, afin de créer une image causale intégrée, tout en utilisant des modèles statistiques parcimonieux.
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International audience
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The United States of America is making great efforts to transform the renewable and abundant biomass resources into cost-competitive, high-performance biofuels, bioproducts, and biopower. This is the key to increase domestic production of transportation fuels and renewable energy, and reduce greenhouse gas and other pollutant emissions. This dissertation focuses specifically on assessing the life cycle environmental impacts of biofuels and bioenergy produced from renewable feedstocks, such as lignocellulosic biomass, renewable oils and fats. The first part of the dissertation presents the life cycle greenhouse gas (GHG) emissions and energy demands of renewable diesel (RD) and hydroprocessed jet fuels (HRJ). The feedstocks include soybean, camelina, field pennycress, jatropha, algae, tallow and etc. Results show that RD and HRJ produced from these feedstocks reduce GHG emissions by over 50% compared to comparably performing petroleum fuels. Fossil energy requirements are also significantly reduced. The second part of this dissertation discusses the life cycle GHG emissions, energy demands and other environmental aspects of pyrolysis oil as well as pyrolysis oil derived biofuels and bioenergy. The feedstocks include waste materials such as sawmill residues, logging residues, sugarcane bagasse and corn stover, and short rotation forestry feedstocks such as hybrid poplar and willow. These LCA results show that as much as 98% GHG emission savings is possible relative to a petroleum heavy fuel oil. Life cycle GHG savings of 77 to 99% were estimated for power generation from pyrolysis oil combustion relative to fossil fuels combustion for electricity, depending on the biomass feedstock and combustion technologies used. Transportation fuels hydroprocessed from pyrolysis oil show over 60% of GHG reductions compared to petroleum gasoline and diesel. The energy required to produce pyrolysis oil and pyrolysis oil derived biofuels and bioelectricity are mainly from renewable biomass, as opposed to fossil energy. Other environmental benefits include human health, ecosystem quality and fossil resources. The third part of the dissertation addresses the direct land use change (dLUC) impact of forest based biofuels and bioenergy. An intensive harvest of aspen in Michigan is investigated to understand the GHG mitigation with biofuels and bioenergy production. The study shows that the intensive harvest of aspen in MI compared to business as usual (BAU) harvesting can produce 18.5 billion gallons of ethanol to blend with gasoline for the transport sector over the next 250 years, or 32.2 billion gallons of bio-oil by the fast pyrolysis process, which can be combusted to generate electricity or upgraded to gasoline and diesel. Intensive harvesting of these forests can result in carbon loss initially in the aspen forest, but eventually accumulates more carbon in the ecosystem, which translates to a CO2 credit from the dLUC impact. Time required for the forest-based biofuels to reach carbon neutrality is approximately 60 years. The last part of the dissertation describes the use of depolymerization model as a tool to understand the kinetic behavior of hemicellulose hydrolysis under dilute acid conditions. Experiments are carried out to measure the concentrations of xylose and xylooligomers during dilute acid hydrolysis of aspen. The experiment data are used to fine tune the parameters of the depolymerization model. The results show that the depolymerization model successfully predicts the xylose monomer profile in the reaction, however, it overestimates the concentrations of xylooligomers.
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Beef production can be environmentally detrimental due in large part to associated enteric methane (CH4) production, which contributes to climate change. However, beef production in well-managed grazing systems can aid in soil carbon sequestration (SCS), which is often ignored when assessing beef production impacts on climate change. To estimate the carbon footprint and climate change mitigation potential of upper Midwest grass-finished beef production systems, we conducted a partial life cycle assessment (LCA) comparing two grazing management strategies: 1) a non-irrigated, lightly-stocked (1.0 AU/ha), high-density (100,000 kg LW/ha) system (MOB) and 2) an irrigated, heavily-stocked (2.5 AU/ha), low-density (30,000 kg LW/ha) system (IRG). In each system, April-born steers were weaned in November, winter-backgrounded for 6 months and grazed until their endpoint the following November, with average slaughter age of 19 months and a 295 kg hot carcass weight. As the basis for the LCA, we used two years of data from Lake City Research Center, Lake City, MI. We included greenhouse gas (GHG) emissions associated with enteric CH4, soil N2O and CH4 fluxes, alfalfa and mineral supplementation, and farm energy use. We also generated results from the LCA using the enteric emissions equations of the Intergovernmental Panel on Climate Change (IPCC). We evaluated a range of potential rates of soil carbon (C) loss or gain of up to 3 Mg C ha-1 yr-1. Enteric CH4 had the largest impact on total emissions, but this varied by grazing system. Enteric CH4 composed 62 and 66% of emissions for IRG and MOB, respectively, on a land basis. Both MOB and IRG were net GHG sources when SCS was not considered. Our partial LCA indicated that when SCS potential was included, each grazing strategy could be an overall sink. Sensitivity analyses indicated that soil in the MOB and IRG systems would need to sequester 1 and 2 Mg C ha-1 yr-1 for a net zero GHG footprint, respectively. IPCC model estimates for enteric CH4 were similar to field estimates for the MOB system, but were higher for the IRG system, suggesting that 0.62 Mg C ha-1 yr-1 greater SCS would be needed to offset the animal emissions in this case.
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During the PhD program in chemistry at the University of Bologna, the environmental sustainability of some industrial processes was studied through the application of the LCA methodology. The efforts were focused on the study of processes under development, in order to assess their environmental impacts to guide their transfer on an industrial scale. Processes that could meet the principles of Green Chemistry have been selected and their environmental benefits have been evaluated through a holistic approach. The use of renewable sources was assessed through the study of terephthalic acid production from biomass (which showed that only the use of waste can provide an environmental benefit) and a new process for biogas upgrading (whose potential is to act as a carbon capture technology). Furthermore, the basis for the development of a new methodology for the prediction of the environmental impact of ionic liquids has been laid. It has already shown good qualities in identifying impact trends, but further research on it is needed to obtain a more reliable and usable model. In the context of sustainable development that will not only be sector-specific, the environmental performance of some processes linked to the primary production sector has also been evaluated. The impacts of some organic farming practices in the wine production were analysed, the use of the Cereal Unit parameter was proposed as a functional unit for the comparison of different crop rotations, and the carbon footprint of school canteen meals was calculated. The results of the analyses confirm that sustainability in the industrial production sector should be assessed from a life cycle perspective, in order to consider all the flows involved during the different phases. In particular, it is necessary that environmental assessments adopt a cradle-to-gate approach, to avoid shifting the environmental burden from one phase to another.
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The Agenda 2030 contains 17 integrated Sustainable Development Goals (SDGs). SDG 12 for Sustainable Consumption and Production (SCP) promotes the efficient use of resources through a systemic change that decouples economic growth from environmental degradation. The Food Systems (FS) pillar in SDG 12 entails paramount relevance due to its interconnection to many other SDGs, and even when being a crucial world food supplier, the Latin American and Caribbean (LAC) Region struggles with environmental and social externalities, low investment in agriculture, inequity, food insecurity, poverty, and migration. Life Cycle Thinking (LCT) was regarded as a pertinent approach to identify hotspots and trade-offs, and support decision-making process to aid LAC Region countries as Costa Rica to diagnose sustainability and overcome certain challenges. This thesis aimed to ‘evaluate the sustainability of selected products from food supply chains in Costa Rica, to provide inputs for further sustainable decision-making, through the application of Life Cycle Thinking’. To do this, Life Cycle Assessment (LCA), Life Cycle Costing (LCC), and Social Life Cycle Assessment (S-LCA) evaluated the sustainability of food-waste-to-energy alternatives, and the production of green coffee, raw milk and leafy vegetables, and identified environmental, social and cost hotspots. This approach also proved to be a useful component of decision-making and policy-making processes together with other methods. LCT scientific literature led by LAC or Costa Rican researchers is still scarce; therefore, this research contributed to improve capacities in the use of LCT in this context, while offering potential replicability of the developed frameworks in similar cases. Main limitations related to the representativeness and availability of primary data; however, future research and extension activities are foreseen to increase local data availability, capacity building, and the discussion of potential integration through Life Cycle Sustainability Assessment (LCSA).
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Una delle metodologie che negli ultimi tempi viene utilizzata più frequentemente per la valutazione ambientale di prodotti, processi e servizi è detta LCA, Life Cycle Assessment: essa valuta l’impatto ambientale associato ad un processo o ad un prodotto considerando tutto il suo ciclo di vita. Nel presente elaborato di tesi la metodologia è applicata ad un processo chimico industriale in fase di studio su scala di laboratorio presso il Dipartimento di Chimica Industriale dell’Università di Bologna, che prevede la sintesi di syngas a partire da biogas tramite le reazioni di dry reformng (DR) e steam refroming (SR). Tale processo è stato studiato poiché a livello teorico presenta i seguenti vantaggi: l’utilizzo di biogas come materia prima (derivante dalla digestione anaerobica dei rifiuti), lo sfruttamento dell’anidride carbonica presente nel biogas e l’utilizzo di un solo reattore anziché due. Il processo viene analizzato attraverso due diversi confronti: in primo luogo è comparato con processi con tecnologie differenti che producono il medesimo prodotto (syngas); in secondo luogo è paragonato a processi che impiegano la stessa materia prima (biogas), ottenendo prodotti differenti. Nel primo confronto i processi confrontati sono uno scenario di Autothermal reforming (ATR) e uno scenario che prevede DR e SR in due reattori separati; nel secondo confronto i prodotti che si ottengono sono: energia termica ed elettrica attraverso un sistema CHP, biometano con un sistema di upgrading del biogas, energia e biometano (CHP + upgrading) ed infine metanolo prodotto da syngas (generato dal processo studiato). Per il primo confronto è risultato che lo scenario che porta ad un minore impatto ambientale è il processo studiato dall'università di Bologna, seguito dallo Scenario con DR e SR in reattori separati ed infine dal processo di ATR. Per quanto concerne il secondo confronto lo scenario migliore è quello che produce biometano, mentre quello che produce metanolo è al terzo posto.
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I sistemi di analisi del movimento sono in continua espansione e vengono sempre maggiormente utilizzati in ambito sportivo e riabilitativo. In particolare, la valutazione delle lesioni di LCA è, attualmente, affidata a procedure classiche, oltre che a strumenti analitici Gold Standard come il sistema optoelettronico. L’utilizzo dei sensori inerziali per l’analisi del movimento è in notevole aumento e sempre più utilizzato anche negli ambiti descritti. Tuttavia, è da valutare l’accuratezza di tali sistemi nell’esecuzione di gesti complessi ad alta dinamica. L’obiettivo del presente elaborato è stato quello di validare un sistema di sensori inerziali tramite uno optoelettronico, per lo svolgimento di specifici task motori in un’ottica di prevenzione dell’infortunio al LCA. Sono stati valutati 30 soggetti sani, attraverso l’utilizzo sincrono di due tecnologie: il sistema optoelettronico Vicon e il sistema inerziale Xsens. I movimenti svolti dai soggetti rientravano in un protocollo per la prevenzione del LCA, sviluppato presso il centro Isokinetic, il quale comprende 6 task ad elevata dinamica, ricorrenti negli sport maggiori. Si è evinta un’ottima correlazione e basso errore per tutti gli angoli articolari analizzati sul piano sagittale, una buona correlazione sul piano frontale per la maggior parte degli angoli (esclusi caviglia e pelvi), ed una minore riproducibilità sul piano trasverso, in particolare negli angoli di caviglia ginocchio e pelvi. I risultati hanno mostrato una scarsa dipendenza dalla tipologia di task analizzato. La tecnologia inerziale ha dimostrato di essere un’ottima alternativa per l’analisi del movimento in task specifici per la valutazione della biomeccanica di LCA. Le discrepanze evinte possono essere riconducibili ai diversi protocolli cinematici utilizzati ed al posizionamento dei markers. Evoluzioni della tecnologia potrebbero migliorare la precisione di questi sensori offrendo informazioni ancor più dettagliate dove ora ci sono lacune.
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L’utilizzo di biomasse come fonte di chemicals nell’industria chimica mira a rendere più sostenibili i processi industriali e i materiali prodotti. In particolare, l’acido crotonico (AC), impiegato come building block nella produzione di vernici e rivestimenti, è prodotto tradizionalmente da fonti fossili. La domanda globale ammonta a circa 1000 tonnellate ed è in continuo aumento, rendendo prioritaria l’individuazione di una sintesi alternativa e sostenibile. In questo studio, l’analisi del ciclo di vita (life cycle assessment, LCA) è stata applicata per stimare la carbon footprint e la domanda cumulativa di energia relative ad una sintesi innovativa dell’AC, basata sulla conversione termica di un precursore derivato da biomasse di scarto. In particolare, il processo prevede l’applicazione di un trattamento termochimico a poli-idrossi-butirrati (PHB) prodotti da colture batteriche miste a valle del processo B-PLAS. Sono stati modellati due scenari comparativi con l’obiettivo di (i) valutare la sostenibilità ambientale della sintesi alternativa nella tecnologia B-PLAS, considerando una condizione “base” di processo (con un contenuto di PHB pari al 30% nello slurry in ingresso al processo) e una “ottimale” (con un contenuto di PHB pari al 60%); (ii) confrontare gli impatti ambientali del processo di sintesi alternativo per entrambi gli scenari con quelli di sintesi dell’AC da fonti fossili. I risultati dell’LCA mostrano che nel processo B-PLAS, giunti alla produzione dello slurry (fango) arricchito in PHB, si possono avere due strade equivalenti estraendo i PHB o convertendoli in AC con una lieve preferenza per il processo estrattivo (0.71MJ/kgslurry vs 1.11MJ/kgslurry) nella condizione di base e (0.69MJ/kgslurry vs 1.17MJ/kgslurry) in quella ottimale. Estendendo la comparazione alla produzione dell’AC da fonti fossili, quello bioderivato comporta un impatto ambientale ampiamente inferiore, stimato in 159.6 MJ/kgAC e 204.6 MJ/kgAC per gli scenari “base” e “ottimale”.
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Research has demonstrated that mining activities can cause serious impacts on the environment, as well as the surrounding communities, mainly due to the unsafe storage of mine tailings. This research focuses on the sustainability assessment of new technologies for the recovery of metals from mine residues. The assessment consists in the evaluation of the environmental, economic, and social impacts through the Life Cycle based methods: Life Cycle Assessment (LCA), Life Cycle Costing (LCC), and Social Life Cycle Assessment (SLCA). The analyses are performed on the Mondo Minerals bioleaching project, which aim is to recover nickel and cobalt from the Sotkamo and Vuonos mine tailings. The LCA demonstrates that the project contributes to the avoided production of nickel and cobalt concentrates from new resources, hence reducing several environmental impacts. The LCC analysis shows that the company’s main costs are linked to the bioleaching process, caused by electricity consumption and the chemicals used. The SLCA analyses the impacts on three main stakeholder categories: workers, local community, and society. The results demonstrated that a fair salary (or the absence of it) impacts the workers the most, while the local community stakeholder category impacts are related to the access to material resources. The health and safety category is the most impacted category for the society stakeholder. The environmental and economic analyses demonstrate that the recovery of mine tailings may represents a good opportunity for mine companies both to reduce the environmental impacts linked to mine tailings and to increase the profitability. In particular, the project helps reduce the amounts of metals extracted from new resources and demonstrates that the use of the bioleaching technology for the extraction of metals can be economically profitable.
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La tesi ha come obiettivo quello di analizzare l’evoluzione del settore della manutenzione edilizia e del cambiamento della politica manutentiva in relazione ai progressi portati dai nuovi strumenti informatici: facendo quindi riferimento ad uno specifico caso di studio e integrando l’utilizzo di software BIM, lo scopo è stato quello di programmare un life cycle adeguato. La prima parte della tesi delinea il cambiamento del quadro normativo dell’ambito della manutenzione e definisce lo stato dell’arte della pratica manutentiva, sia dal punto di vista tecnico e applicativo, ma anche da quello gestionale ed economico, con particolare riferimento al Maintenance Management. Nella seconda parte viene invece approfondito il caso studio di uno studentato di Atene facente parte del programma ProGETonE, definendo gli elementi che possono portare ad una corretta gestione del ciclo di vita di questo fabbricato: l’analisi parte da un approccio tradizionale, basato sul computo metrico e sulla PBS, ma si sviluppa e completa attraverso l’utilizzo di Revit e Mantus-P, con la relativa stesura finale di un piano di manutenzione. Questo processo ha portato ad evidenziare le differenze e i vantaggi che si possono trarre dal cambio di prospettiva e di strumenti nell’ambito della manutenzione edilizia.
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Nel nuovo secolo l’uomo sta cercando di affrontare le problematiche del cambiamento climatico, che purtroppo sta già provocando fenomeni di frequenza ed intensità mai visti. Fra i diversi metodi per provare a mitigare le emissioni di gas serra vi è quello di sfruttare il settore delle Informations and Communications Technologies (ICT). Complessivamente si stima che le ICT consumino l’8-10% di elettricità in Europa e che siano responsabili del 4% delle emissioni di carbonio del continente. Questo lavoro analizza la letteratura scientifica che si è occupata degli studi relativi ai consumi ed alle emissioni legate alle ICT. L’analisi dell’impatto ambientale viene svolta tramite il metodo Life Cycle Assessment (LCA). Nella prima parte di questa tesi si analizzano le impronte di carbonio di diversi prodotti o servizi degni di nota fino ad arrivare in generale a tutto il settore delle ICT. Nella seconda, si valutano gli impatti ambientali di sistemi implementati con le ICT comparati con altri considerati tradizionali. In questo studio, vengono analizzati i benefici e le criticità del metodo di valutazione LCA usato per studiare le ICT. Gli studi con questa tecnica sono basati sempre e solo su un modello matematico, per cui dipendono dalle ipotesi dello studio e sono associati ad una sostanziale incertezza che va considerata nell’analisi finale. Per questo motivo, applicando questo metodo al singolo prodotto, i risultati possono essere utili per fornire una base di dati per futuri studi, considerando, tuttavia, che non si può definire in maniera rigida l’impatto per ogni prodotto. Piuttosto, l’LCA è risultata più efficace per fare una comparazione tra scenari ICT e non ICT per valutare come si possa usare la tecnologia per mitigare l’impatto ambientale. Le ICT sono il presente ed il futuro della società ed è proprio per questo che è necessario monitorarle e svilupparle consapevolmente, perché per quanto l’impatto ambientale di esse possa sembrare basso, non è mai nullo.
