00944cam0 22002651 450 SOBE0005301420250212114005.020160712d1928 |||||ita|0103 baitaIT<<Il >>Canto 16. dell'Infernoletto da Antonio Zardo nella sala di Dante in OrsanmicheleFirenzeSansoni192836 p.23 cmLectura Dantis001SOBE000529692001 *Lectura DantisZardo, AntonioA600200027673070179498ITUNISOB20250212RICAUNISOBUNISOB850|Coll|26|bis1102SOBE00053014M 102 Monografia moderna SBNM850|Coll|26|bis000002-1CON1102acquistoOcutoloUNISOBUNISOB20160712141527.020250212114005.0menleRilegato con: Inferno: Canti 18; 20-27Canto 16. dell'Inferno1216470UNISOB03915nam 2200793z- 450 9910372786003321202102113-03921-973-1(CKB)4100000010163766(oapen)https://directory.doabooks.org/handle/20.500.12854/56376(oapen)doab56376(EXLCZ)99410000001016376620202102d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierPlasma Processes for Renewable Energy TechnologiesMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (118 p.)3-03921-972-3 The use of renewable energy is an effective solution for the prevention of global warming. On the other hand, environmental plasmas are one of powerful means to solve global environmental problems on nitrogen oxides, (NOx), sulfur oxides (SOx), particulate matter (PM), volatile organic compounds (VOC), and carbon dioxides (CO2) in the atmosphere. By combining both technologies, we can develop an extremely effective environmental improvement technology. Based on this background, a Special Issue of the journal Energies on plasma processes for renewable energy technologies is planned. On the issue, we focus on environment plasma technologies that can effectively utilize renewable electric energy sources, such as photovoltaic power generation, biofuel power generation, wind turbine power generation, etc. However, any latest research results on plasma environmental improvement processes are welcome for submission. We are looking, among others, for papers on the following technical subjects in which either plasma can use renewable energy sources or can be used for renewable energy technologies: Plasma decomposition technology of harmful gases, such as the plasma denitrification method; Plasma removal technology of harmful particles, such as electrostatic precipitation; Plasma decomposition technology of harmful substances in liquid, such as gas-liquid interfacial plasma; Plasma-enhanced flow induction and heat transfer enhancement technologies, such as ionic wind device and plasma actuator; Plasma-enhanced combustion and fuel reforming; Other environment plasma technologies.History of engineering and technologybicsscaftertreatmentagglomerationblade-barrier electrodecollection efficiencycombustorcorona dischargediesel engineelectrostatic precipitatorenergy efficiencygas turbinegasificationhigh-frequency DC-AC inverterignitioninput-parallel and output-series connected inverterion-induced nucleationionic windlow-resistivity particlemarine diesel enginen/ananoparticlenonthermal plasmaNOxNOx reductionPFCplasmaplasma generatorre-entrainment phenomenasemiconductor manufacturingsodium sulfidesyngasthermal arc plasmathermal managementthermal switchtwo-stage AC-AC converterwaste cooking oilwaste heatwater vaporwet scrubberwoodceramicsHistory of engineering and technologyOkubo Masaakiauth1288738BOOK9910372786003321Plasma Processes for Renewable Energy Technologies3020963UNINA