On the effectiveness of mitigation strategies for cryogenic applications

The need for sustainable energy sources, as well as the current energetic crisis involving the majority of markets, has promoted the use of cryogenic liquefaction for the transportation and storage of natural gas (i.e., LNG). To guarantee the development of a robust and safe infrastructure, a complete understanding of the main phenomena occurring at low temperatures is paramount. In this sense, the largest grey areas are the characterization of the combustion at low-initial temperature and the interactions between water and cryogenic liquid. For these reasons, this work presents an experimental campaign on the possible mitigation strategies for the mitigation of consequences related to the accidental release of LNG. Particular emphasis was posed on the direct and indirect effects of water on cryogenic pool fire. The former resulted in a significant increase in the dimensions of fire (∼+50%) and burning rate (∼300%) with respect to the case with no direct contact between water and LNG, whereas the latter generated an abrupt decrease in the measured temperatures (<100 °C). The use of an emergency flare to empty an LNG tank was tested, as well. The spatial distribution of temperature was monitored along with the time to guarantee the safe operability of this equipment in the case of LNG combustion. The explanations for the observed phenomena and trends were provided, allowing for the development of safe procedures for the emergency response related to cryogenic fuels

LIPOXYGENASE ACTIVITY AND HYDROPEROXIDE FORMATION IN COFFEE (Coffea arabica L.) CHERRIES CULTIVATED BY DIFFERENT AGRONOMIC TECHNIQUES

It is widely accepted that biotic stress induces acidic lipoxygenase (LOX) activity mainly due to the effects of methyl jasmonate [1]. The activation of LOX pathway leads to the production of a large amount of oxidation products, which may affect the coffee organoleptic profile [2]. Hitherto the presence of LOX in coffee (Coffea arabica L.) plants is still scarcely examined [3], therefore the aim of this study was to investigate the possible involvement of this enzyme in oxidative stress of cherries from plants cultivated in organic and conventional manners. Primary and secondary oxidation products were evaluated in three separate cherry fractions: pulp, parchment seed and green coffee. Hydroperoxides, measured by HPLC, were highest in parchment seed and lowest in green coffee, but no significant difference was found between the samples obtained from the two cultivations. However, the pulp fraction from organic cultivated plants had a larger amount of primary peroxidation products, when compared to that from conventionally cultivated plants. The presence of LOX was then examined in all cherry fractions by immunochemical analysis. Only the pulp fraction showed an 84 kDa protein that exhibited a cross-reactivity against a pea LOX antibody. Subsequently, the presence of LOX was confirmed in heavy (28000 g) and light (100000 g) membrane pulp fractions by an enzymatic assay, immunochemical method and hydroperoxide formation. In both organic and conventional cultivation systems, the light membrane showed the highest LOX activity, measured as conjugated diene formation, at pH 8.0. Instead, the heavy membrane fraction highlighted a different pH optimum, which was found to be 5.5 in pulps from organic cultivations and 8.0 in the conventional ones, respectively. All the activities reported were inhibited by nordihydroguaiaretic acid (NDGA) and caffeic acid, well known LOX inhibitors. The NDGA-sensitive hydroperoxide production was simultaneously confirmed by RP-HPLC analysis. Oxidative stress was also detected by evaluating the antioxidant activity in all fractions. A lipophilic extraction, performed using dioxane:water (95:5, v/v), revealed that parchment seeds possessed the lowest antioxidant capacity. On the other hand, a significant difference in the antioxidative capacity was detected in parchment seeds from organic and conventionally cultivated plants. Taken together, these results show, for the first time, the presence of LOX in coffee cherries, whose activity was associated to membrane fractions. Furthermore, the cultivation techniques seem to induce the activation of different isoenzymes. In particular, the organic ones were subjected to an oxidative stress in coffee fruits leading to the expression of an acidic LOX activity, detectable in the pulp fraction. [1] Buzi A., et al. (2004). J. Phytopathol., 152: 34-42. [2] Kohlmann M., et al. (1999) Eur. J. Biochem. 260:885-895. [3] Rojas M.L., et al. (1993). Physiol. Mol. Plant Path., 43: 209-219

Soil properties and plant community relationship in a saltmarsh of the Grado and Marano lagoon (northern Italy)

7noPurpose: The relationship between soil properties and plant communities was investigated in a saltmarsh of the Grado and Marano lagoon (northern Italy), where hydrology and micromorphology strongly influence the features of the ecosystem. A multidisciplinary approach was used to assess the change of soil properties and plant communities in relation to the submergence of soil. Materials and methods: The plant community and soil profile surveys were both carried out along a transect in six sampling sites of the Gran Chiusa saltmarsh (Grado and Marano lagoon). The morphological and physicochemical parameters of soil profiles were investigated, and soils were classified according to Soil Taxonomy. The concentration of macronutrients in both soils and plants was analysed by inductively coupled plasma-optical emission spectrometry. Cluster and linear discriminant analysis were used to assist the interpretation of the data of plant communities and soil properties, respectively. The bioconcentration factor explored the macronutrient relationship between plant community and soil. Results and discussion: A high, middle and low zone were identified by clustering the different plant communities along the studied transect. Discriminant analysis showed how the increase in soil submergence supported the accumulation of S and Ca content and depletion of Fe and Na. The development of different plant communities was linked to both soil water saturation and to the capacity of halophytes to tolerate anoxic conditions or salinity, by extrusion or bioconcentration strategies. Conclusions: This study demonstrates that tide level plays an important role in the pedological development and chemical transformations along a soil hydrosequence. The micromosaic vegetation pattern may therefore represent a useful index of the hydrological and nutritional status of the underlying soils and could be used to predict changes in coastal ecosystems. © 2016, Springer-Verlag Berlin Heidelberg.openopenVittori Antisari, Livia; Ferronato, Chiara; Pellegrini, Elisa; Boscutti, Francesco; Casolo, Valentino; de Nobili, Maria; Vianello, GilmoVittori Antisari, Livia; Ferronato, Chiara; Pellegrini, Elisa; Boscutti, Francesco; Casolo, Valentino; DE NOBILI, Maria; Vianello, Gilm

Hydrogen Refueling Stations: Prevention and Scenario Management. Large Scale Experimental Investigation of Hydrogen Jet-Fires

Hydrogen is becoming an attractive alternative for energy storage and transportation, because of the elevated energy content per unit of mass and possibility to have zero carbon-emission vehicles. For these reasons, hydrogen's share in global market is expected to grow substantially in the coming years. Today, hydrogen-fueled buses and cars are already available, and several refueling stations are operating in different countries around the world. A key role of the deployment of hydrogen fueled-vehicles is the presence of a widespread network of refueling stations, especially close to residential and industrial areas. This fact poses attention to the safety aspects related to hydrogen, with particular interest to its high flammability that can lead to catastrophic consequences for personnel and equipment. As a matter of fact, hydrogen is a comparatively less safe fuel compared to conventional fuels such as gasoline and diesel. Hydrogen infrastructures are characterized by operating pressure up to 1000 bar that, in case of an unintended loss of containments, produce a highly under expanded turbulent jet. If ignited, this hydrogen jet may give rise to very severe scenarios, mainly related to high temperatures and the oriented flows. As recently suggested by Moradi and Groth (Moradi and Groth, 2019), there is a lack of experimental and on-site data for almost all of the storage and delivery technologies relevant to the hydrogen infrastructures. Experimental data is vital to support model validation, especially in the case of the very peculiar combustion process of hydrogen. In this way, a real-scale experimental campaign is proposed to investigate the main characteristic of the hydrogen jet fire resulting from its rapid fired depressurizations. Focus of the experimental campaign is evaluation of safety distance for person and device (i.e. pressurized tanks) in order to avoid critical conditions and domino effects in real refueling station. Different initial conditions, i.e., storage pressures, are exploited, and the resulting jet across specified orifice is investigated. More specifically, temperatures at various locations are measured through an arrangement of thermocouples. Values up to 1200 °C were obtained in the core of the jet. Moreover, it was found that the recorded temperatures, especially those at the outer portion of the jet, are very sensitive to the initial conditions

Heparin Induces Apoptosis in Lymphocytes from B-cell Chronic Lymphocytic Leukemia.

It has been shown that glycosaminoglycans play a role in the regulation of immune response. In particular, heparin exerts an antiproliferative and apoptotic action in different cellular systems. In this study we evaluate whether heparin can also induce a naturally occurring programmed cell death in lymphocytes from B-chronic lymphocytic leukemia (B-CLL), a neoplastic lineage where apoptosis is blocked by the expression of the proto-oncogene bc1-2. Peripheral blood lymphocytes (PBL) from 7 cases of B-CLL patients in different stages were cultured with three different heparin sodium concentrations for 4 days. Apoptosis was evaluated by agarose gel electrophoresis and by cytofluorimetric analysis. Bcl-2 expression was tested by flow cytometric analysis and immunohistochemistry on cytospin preparations. Agarose gel electrophoresis showed the characteristic DNA fragmentation pattern of apoptosis in all the cases of B-CLL stage III and IV after heparin incubation. DNA from normal and neoplastic lymphocytes cultured without heparin did not undergo spontaneous apoptosis. Cytofluorimetric analysis confirmed the agarose gel pattern and found a level of apoptosis over 50% after culture of neoplastic PBL with heparin. In these cases bcl-2 expression was found to be significantly reduced after heparin incubation when comparing to bcl-2 level before incubation. Our data adds further evidence regarding the potential role of heparin in oncogene inhibition and in apoptosis induction. In particular, the induction of apoptosis in neoplastic lymphocytes by heparin may have a role in the complicated field of interactions between the immune system and the blood vessels by glycosaminoglycans

ANTIMONY ACCUMULATION RISK IN LETTUCE GROWN IN BRAZILIAN URBAN GARDENS

More than 80% of the Brazilian population inhabits urban areas. Diffused poverty and the lack of fresh vegetables have generated malnutrition and unbalanced diets. Thus, the interest in growing food locally, in urban allotments and community gardens, has increased. However, urban agriculture may present some risks caused by the urban pollution. Road traffic is considered the biggest source of heavy metals in urban areas. Hence, the objective of the study was the assessment of the accumulation of heavy metals in an urban garden in the city of Recife, at different distances from a road with high traffic burden. The results showed that the distance from the street decreased the accumulation of many potentially toxic elements. Furthermore, the human health risk was estimated, revealing that greater danger was associated with the accumulation of antimony. Concentration of other elements in the leaf tissues were within previously reported thresholds