Characterization of carbonaceous nanoparticle size distributions (1-10nm) emitted from laboratory flames, diesel engines and gas appliances. Tesi di dottorato...

Characterization of carbonaceous nanoparticle size distributions (1-10nm) emitted from laboratory flames, diesel engines and gas appliances. Tesi di dottorato...

Andrea De Filippo

0 recensioni
Con la tua recensione raccogli punti Premium
pagabile con 18App pagabile con Carta del Docente
Articolo acquistabile con 18App e Carta del Docente
Formato: PDF con DRM
Testo in en
Cloud: Scopri di più
Compatibilità: Tutti i dispositivi (eccetto Kindle) Scopri di più
Dimensioni: 2,62 MB
  • EAN: 9788883380761

€ 15,00

Punti Premium: 15

Venduto e spedito da IBS

EBOOK INGLESE
Aggiungi al carrello
spinner
Fai un regalo
spinner

non è possibile acquistare ebook su dispositivi Apple. Puoi comunque aggiungerli alla wishlist

Gaia la libraia

Gaia la libraia Vuoi ricevere un'email sui tuoi prodotti preferiti? Chiedi a Gaia, la tua assistente personale

Combustion-generated particles are a matter of daily concern for their impact on human health and atmospheric processes. The majority of the concern is related to the high emissivity in number concentration as the size decreases and to the combustion conditions which favour their emission. This thesis provide further, and new, information about nanoparticles emitted from premixed flames, engines and common burners, with particular attention to the 1-10 nm range. The smaller class of nanoparticles shows different properties from soot particles which have sizes larger than 10 nm and that later evolve in larger soot aggregates. Furthermore, this thesis remarks the importance of the differential mobility analysis (DMA) as a powerful experimental tool in the study of nanoparticle formation in different combustion sources, with particular attention to the dynamics of the very small nanoparticles (1-10 nm), and as an important experimental background for the development and validation of numerical modeling to simulate particles formation during combustion processes.
Gaia la libraia

Gaia la libraia Vuoi ricevere un'email sui tuoi prodotti preferiti? Chiedi a Gaia, la tua assistente personale

Note legali