Perspectives of 2D and 3D mapping of atmospheric pollutants over urban areas by means of airborne DOAS spectrometers

tants, offering numerous advantages over conventional networks of in situ analysers. We propose some innovative solutions in the field of DOAS (Differential Optical Absorption Spectroscopy) remote systems, utilizing diffuse solar light as the radiation source. We examine the numerous potentialities of minor gas slant column calculations, applying the «off-axis» methodology for collecting the diffuse solar radiation. One of these particular approaches, using measurements along horizontal paths, has already been tested with the spectrometer installed on board the Geophysica aircraft during stratospheric flights up to altitudes of 20 km. The theoretical basis of these new measurement techniques using DOAS remote sensing systems are delineated to assess whether low altitude flights can provide 2D and 3D pollution tomography over metropolitan areas. The 2D or 3D trace gas total column mapping could be used to investigate: i) transport and dispersion phenomena of air pollution, ii) photochemical process rates, iii) gas plume tomography, iv) minor gas vertical profiles into the Planetary Boundary Layer and v) minor gas flux divergence over a large area

Economic optimization of the design and operation of polygeneration energy systems by genetic algorithms

Renewable energies currently represent a significant portion of the sources of heat and electricity all over the world. However, their intermittent nature results in a major challenge for the design and management of the systems which exploit these energy sources. Indeed, the residential and industrial energy demand has to be fulfilled without any interruption. To face the aforementioned problem, this paper suggests to adopt polygeneration energy systems. These systems are distinguished by several sources of electrical and heating power, both renewable and traditional one, which interact to fulfill the thermal and electricity hourly demand considering the geographical location where the system is located. Indeed, the atmospheric condition evolution during the day and over the months significantly affect the energy availability from renewable sources. Considering the presented framework, this paper proposes a genetic algorithm for the economic optimization of the design and operation of polygeneration energy systems. The considered system fulfills the electric load through photovoltaic modules integrated with battery energy storage, whereas a natural gas boiler supplies the required thermal power. Furthermore, a cogenerative engine contributes to the demand of both energy types. An original genetic algorithm is developed to determine the optimal size of each polygeneration system module to minimize the levelized cost of energy, determined by the expenditures of both the system installation and operation phases. The energy flows between the polygeneration modules and the demand load are defined considering the hourly evolution of the external environment, as the atmospheric conditions and the electricity price. Finally, the developed genetic algorithm is tested and validated with a real case study represented by the thermal and electricity loads of an Italian manufacturing plant. The design and operation configuration proposed by the algorithm for the installed polygeneration energy system enables to save 9.2% of the costs of traditional energy source exploitation

Lithium and acute lymphocytic leukemia.

No abstract availabl

Sale operatorie. Studio dei fenomeni di inquinamento fisico, chimico e microbiologico

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Sale operatorie. Studio dei fenomeni di inquinamento fisico, chimico e microbiologico

Vengono descritte le attività di ricerca teoriche e sperimentali inerenti allo studio dei fenomeni di inquinamento fisico, chimico e microbiologico nelle sale operatorie ai problemi di ipotermia del paziente ad al comfort termoigrometrico per il personal