1,519 research outputs found
Reliability of Strategic Environmental Assessment for Territorial Management: General Criticisms and a Proposed Approach in the Presence of Relevant Accident Risk Facilities
The Strategic Environmental Assessment (SEA) is a procedure with a wide application, that has a very important role in sustainable territorial development. The aim of this work is to make some evaluations after the initial period of application also based on data of a particular complex territory, Lombardy Region (Northern Italy), which is characterized by a very high concentration of population, industrial activities and economic interests. The evaluations reveal some critical aspects that negatively influence the correct application of the SEA in Italy, with consequences on the territorial governance and the determination of expected effects corresponding to specific aims. One of these critical aspects is the need to define specific standards and parameters for carrying out a SEA on the different environmental themes. One of these is the assessment of the anthropic risk, which may initially be approximately identified as the industrial risk during territorial planning and programming. On this matter, we suggest adopting a methodological approach that is found in specific guidelines for anyone that produces the Environmental Report to support the SEA, and for councils that have to produce a Technical Examination Paper of the Relevant Accident Risk, to assess the industrial risk, also when there are companies with a relevant accident risk
Application Of A Decision Support System For The SustainablePlanning Of Rio Pojuca Basin (Bahia, Brazil) Water Resources
The paper presents the structure and the application of a Decision Support System (DSS) to Pojuca
River watershed placed in the Northeast Region of Brazil (Bahia State).
It is composed of surface-water quality models (total phosphorus, BOD, dissolved oxygen
concentration and thermo-tolerant coliform bacteria pollution). A model evaluates the riverine
microhabitat applying autochthonous fish species habitat suitability indexes (water depth, velocity,
substrate and dissolved oxygen) valuated by local ichthyologists. Surface-water quality and
microhabitat models are based on a hydrologic and hydraulic model. Models have been calibrated
and validated using discharge and water quality measurements collected during a 1.5-year period
of monitoring. Output data are available on a spreadsheet and ready to be spatially analyzed in a
GIS software.
We show how DSS can help the decision-making process to achieve the sustainable development
of the basin, considering population growth, economic activities, climate change, management of
sewage and wastewater treatment systems. The DSS is also applied to a challenging scenario: the
building of an in series reservoir for supplying the Capital (Salvador) of drinking water.
The experience has been characterized also by a large involvement of local specialists, with the
aim to emphasize the existing qualifications and to consider local culture
A wastewater treatment using a biofilm airlift suspension reactor with biomass attached to supports: a numerical model
presented. When compared with a traditional wastewater treatment plant, a biofilm airlift suspension process has major advantages, such as higher oxygen levels in the bulk fluid and lower space requirements. The limited volumes obtained with this technique generally do not allow to reach the high times of contact required for an efficient removal of nitrogen that normally are characterized by a slower kinetics than carbonaceous compounds. To avoid this problem, supports for attached biomass growth were inserted in the reactor. Both physical and biological aspects were incorporated into the presented model to simulate the removal processes of the substrates.
A sensitivity analysis was performed, and the model was validated using experimental results obtained at a lab-scale plant. This model can accurately estimate the removal rate in different boundary conditions providing the details of the water quality profiles through the reactor and in the attached biomass. The model thus represents a valid aid for design purposes and for the management of treatment plants that use these uncommon reactors. The model also provides the required hydraulic retention time for a complete nitrification and the appropriate recirculation ratio. The results have shown the full-scale applicability of this treatment due to its efficiencies coupled to the advantages of its low impact, low space requirement and low sludge production
An integrated wastewater treatment system using a BAS reactor with biomass attached to tubolar supports
This paper describes laboratory experiments aimed to develop a new wastewater treatment system as an
alternative to a conventional domestic wastewater plant. A modified Biofilm Airlift Suspension reactor
(BAS), with biomass attached to tubular supports, is proposed to address low organic loads (typical of
domestic sewage) and low residence time (typical of compact reactors technology). Attached and suspended
biomasses, coupled to the high dissolved oxygen (DO), allow high removal efficiencies (90% and
56% for COD and NeNH4
\ufe removal respectively) and high effluent quality to be reached. The experimental
activity, divided into three parts, demonstrates the good efficiency of the process, and the reduction of
the removal kinetics for the high operating pressure used in the technology. The occurrence of simultaneous
nitrificationedenitrification (SND) was also observed. When compared with the conventional
BAS system, the present treatment shows comparable removal efficiencies and higher specific removal
rates (80 mg COD/g VSS and 2.60 mg NeNH4
\ufe/g VSS). The experimental results were coupled with the
development of a numerical model to aid in designing a full-scale treatment plant in Italy
Behavioral Safety: A way to decrease injuries at work (with science)
Work-related injuries are a well known problem all around European Union (EU): every year, at
least 170000 workers die and even more suffer severe and permanent injuries.
Even if EU placed the goal of reducing this number by 25% by 2012, in many countries the situation remains
unchanged despite the enforcement of increasingly stringent laws that, anyways, elude the most important
question: why?
Moreover, in spite of a lot of American and European studies demonstrated that at least 76% of work-related
accidents are due to workers unsafe behaviors, blaming workers is not a effective solution because it eludes
again the question: why a worker should act unsafe?
An answer to this last question comes from studies about human behavior: a person acts a certain way
because he is subject to a number of external stimuli, before and after his act. So, if a person receives a
positive consequence as a reward for his behavior, he continues to output the same behavior.
Till 80's, Behavior-Based Safety (B-BS) uses this mechanic to provide positive consequences to safe
behaviors, instead of negative ones, increasing safety and reducing injuries.
But does B-BS work? Even if a lot of literature case studies of successful B-BS implementation are present,
all across the world, there is a lack of scientific experiments to unequivocally state that B-BS increases safe
behaviors and reduces injuries. This work provides two different case studies, using not only a before-after
analysis but also using an appropriate mathematical test (Young\u2019s C Test), to examine workers\u2019 behavior
changes during time.
The work puts in competition two different B-BS protocols, which share all the fundamentals but differ for
start-up time and cost, applied on two different Italian industrial sites: a glass bottle factory and a paint
factory.
These protocols obtains the same results, demonstrating not only that B-BS works, but also that behavioral
safety can be achieved at low cost even for small European industries
Critical analysis of strategies for PM reduction in urban areas
This paper presents an overview of practical strategies that can be adopted
for reducing the particulate matter concentration in urban areas. Each
strategy is analyzed taking into account the latest results of the scientific
literature. A discussion useful for pointing out some problems to be solved
for their correct adoptions completes the paper
Modeling and simulation of an emulsion copolymerization process
Radical emulsion copolymerization is one of the most widely diffused processes aimed to produce paints easy to use because of their low viscosity. At industrial scale, such processes require a high control level of all the operating variables. Particularly, the repeatability of an emulsion polymerization process within narrow limits is one of the most desirable features because it allows for controlling also other important product qualities as final solids content, average particle size, latex viscosity and polymer average molecular weight. Other important full plant requirements are the minimization of reactants dosing times and the preparation of a latex at the highest possible concentration. In this work, the first step of a complex industrial copolymerization process has been considered. Since different monomer types (butyl acrylate, styrene, acrylic acid and acrylamide) are involved, it has been necessary to propose a complete set of rate constants for all the traditional steps of the radical emulsion
reactions chain (i.e. initiation, propagation, radicals termination, backbiting and long-chain branching,
micelles seeding, etc..). These parameters have then been inserted into a system of ordinary differential
equations expressing all balances and control actions aimed to simulate the full plant synthesis. Finally, the proposed model has been experimentally validated through the comparison with a reaction calorimetry test carried out in an indirectly cooled semibatch reactor (RC1, 1L, Mettler Toledo). Obtained results have confirmed the reliability of the theoretical model
Improving biotreatment efficiency of hot waste air streams: experimental upgrade of a full plant
Biological methods as bio and biotrickling filtration are an energy-efficient and economical alternative to treat biodegradable odorants and volatile organic compounds (VOCs) in order to obey stringent releases regulations that have arisen during the last few decades. In this work a plant upgrade case study, employing these techniques, is presented. It refers to a critical situation in which off air streams, characterized by medium odorous compounds loads and high temperatures, were treated using a biofilter only. In that context, sufficient removal efficiencies were not achieved. Therefore, it has been proposed to replace the existing biofilter by a biotrickling one implementing a minimal number of structural plant modifications
Municipal Solid Waste treatment by integrated solutions: energy and environmental balances
This paper reports a comparison between two scenarios developed in order to manage the municipal solid waste in an area in the North part of Italy. In the proposed scenarios various technological solutions, regarding the selective collection, the energy recovery and the modality of final disposal were taken into account. The comparison was done considering both mass/energy and environmental balance, trying to focus the most suitable solution. The experience can be completed with other scenarios containing different technical solution intermediate between the two considered in this study
Indicators of biodiversity in an intensively cultivated and heavily human modified landscape
Nowadays, the loss of biodiversity in agroecosystems due to the intensification of farming practices is happening very fast, and therefore, stopping or slowing it down should be a priority for conservation. To detect changes in these environmental contexts, one approach contemplates focusing on a limited set of indicator species that can alert us to ongoing changes in progress. In this research, we aimed to measure the biodiversity of vertebrates using a multi-taxa approach in an intensively cultivated and highly inhabited area located in northern Italy. We investigated the relationships between biodiversity and environmental characteristics and we identified the taxonomic groups that can be used as indicators of biodiversity. Data collection was carried out in 2016 with different methods depending on the taxonomic group, in 131 sampling units chosen using a Tessellation Stratified Sampling. Then we calculated for each sampling unit a standardized Biodiversity Index, which was related to environmental variables concerning the land use and the landscape configuration using Multiple Linear Regression Analysis and Information-Theoretic approach. We used correlation analyses and the Indicator Species Analysis (IndVal) to identify the taxonomic groups and species that can be used as indicators of biodiversity. Biodiversity was positively related to the number of patches of natural vegetation, whereas it was negatively affected by the number of patches of artificial surfaces and by habitat diversity. Our findings agree with those obtained by many other researchers, which pointed out that agroecosystems provide adequate shelters, suitable foraging habitats and nesting sites. The negative effect of habitat diversity was explained by the area-heterogeneity trade-off. Therefore, sites with high heterogeneity will not contain enough cover of residual natural vegetation, essential to maintain high biodiversity, because increasing compositional heterogeneity within a fixed area simultaneously reduces the surface of each cover type. The analyses showed that birds and reptiles might be used as biodiversity indicators of vertebrates. Eurasian Magpie and Green Whip Snake, both generalist species, were associated with sites of low biodiversity, whereas seven birds, both generalists and farmland specialists, were associated with sites of medium biodiversity. In high biodiversity sites there were not indicator species. To conclude, in less natural environments, such as urban and agricultural landscapes, a combination of specialist and generalist indicator species seems adequate to monitor biodiversity changes. Our findings increase the knowledge of these very dynamic ecosystems, being important both to plan strategies for biodiversity conservation and to guarantee ecosystems services useful for humans
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