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Gas Capture Processes
| Gas Capture Processes |
| Autore | Zhang Zhien |
| Pubbl/distr/stampa | Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020 |
| Descrizione fisica | 1 online resource (440 p.) |
| Soggetto topico | History of engineering and technology |
| Soggetto non controllato |
2-Amino-2-Methyl-1-Propanol
absorption intensification activated carbons activity amine solutions anti-attrition aqueous and non-aqueous solutions arsenene Aspen Plus bidisperse diffusion model biogas upgrading bubble column calcination calcium carbonate precipitation calcium looping capture carbon capture carbon capture and utilization carbon dioxide carbon dioxide separation carbonaceous deposits carbonation carbonation kinetics catalytic activation CCGT chemical absorption chemical sorption CO2 CO2 capture CO2 sequestration coal-direct chemical looping combustion coke oven counter-flow moving bed coupling mechanism desulfurization dispersive diffusion model doping droplet size droplet velocity economic analysis economic uncertainty energy recovery environmental impact exergy analysis first principles study flowsheeting configurations gas absorption gas adsorption gas basic parameters gas content gas diffusion gas emission gas leakage gas mole fraction gas pressure gas separation global warming glycols H2S absorption high selectivity high-flux high-flux circulating fluidized bed high-pressure separation in situ gasification chemical looping combustion industrial gas streams iron ore kinetics Knudsen diffusion L-Arginine market prediction mass transfer coefficient mechanical activation mechanism mechanochemical reactions membrane contactor Minitab modelling and Simulation molecular sieving MXene N-methyldiethanolamine nanofluids optimal conceptual design optimization oxygen recovery petrochemical processes phase equilibrium physical activation physicochemical structure pore-former particle size post-combustion capture pressure gradient rapid estimation technology Reaction recyclability refinery plants removal of NO2 and CO2 SO2 adsorption spectral analysis spiral nozzle spray atomization steel slag steel-making waste stopped flow technique supercritical water oxidation Taguchi theoretical methodology threshold value transport mechanism two-dimensional ultra-micropore UNIFAC unipore diffusion model waste gases waste polyurethane foam |
| Formato | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910557477703321 |
Zhang Zhien
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| Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Modeling and Simulation of Metallurgical Processes in Ironmaking and Steelmaking
| Modeling and Simulation of Metallurgical Processes in Ironmaking and Steelmaking |
| Autore | Echterhof Thomas |
| Pubbl/distr/stampa | MDPI - Multidisciplinary Digital Publishing Institute, 2022 |
| Descrizione fisica | 1 online resource (286 p.) |
| Soggetto topico |
History of engineering & technology
Technology: general issues |
| Soggetto non controllato |
arc gap
arc impingement artificial neural network blast furnace ironmaking bubble deformation bubble generation bubble size distribution carbon composite briquette coke saving computational fluid dynamic computational fluid dynamics continuous casting continuous charging direct current direct reduction drag force drying electric arc electric arc furnace energy consumption energy demand estimation evaluation model evolving modelling fuzzy modelling gas density Gaussian process regression heat exchanger heat recovery technology horizontal single belt casting HYL inflow condition Köhle formula lift force liquid metals machine learning magneto hydrodynamics mass transfer coefficient mathematical modeling mathematical modelling Midrex model application model predictive control model validation modelling n/a near net shape casting numerical simulation porous plugs pre-reduction profile optimization quantitative relationship RANS/LES/DNS reaction kinetics real-time model RecHeat reduction process regression Rist diagram rotary kiln scrap melting scrap preheating slag energy content slag heat recovery steel refining steelmaking steelmaking process turbulence modelling twin roll (Bessemer) casting |
| ISBN | 3-0365-5154-9 |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910619471103321 |
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Echterhof Thomas
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| MDPI - Multidisciplinary Digital Publishing Institute, 2022 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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Process Modeling in Pyrometallurgical Engineering
| Process Modeling in Pyrometallurgical Engineering |
| Autore | Saxen Henrik |
| Pubbl/distr/stampa | Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021 |
| Descrizione fisica | 1 online resource (642 p.) |
| Soggetto topico | Technology: general issues |
| Soggetto non controllato |
3D molecular model
adaptive finite differences analysis tool angle of repose apparent activation energy arrhenius equation arsenate arsenic recovery arsenic removal arsenopyrite artificial intelligence basic oxygen furnace biomass blast furnace blast furnace hearth BOS reactor bubble motion burden distribution burden layer structure burden pile width C-H2 smelting reduction furnace carbon solution loss CFD CFD-DEM charcoal combustion rate charging system coalescence coke coke bed coke combustion rate combustion computational fluid dynamics computational fluid dynamics (CFD) conjugate heat transfer coordination number copper smelter copper smelting COREX COREX melter gasifier coupling effect Cr2O3 crystal size dead man decarburization DEM dimensional analysis Discrete Element Method discrete event simulation double impingement feeding system double-row side nozzles drainage dual gas injection dust ash dynamic model EAF electric arc furnace Electric Arc Furnace electrical energy consumption entrainment Eulerian multiphase flow fault detection and identification flat rolling flat-rolled wire flow behavior flow pattern fuel injection funneling flow gas flow gated recurrent unit genetic algorithm GPR hearth hearth drainage heating time horizontal single belt casting process (HSBC) hot rolling hot rolling planning Industry 4.0 interfacial phenomena ion-molecule coexistence theory iron and slag flow iron ore sintering process ironmaking blast furnace kinetic models LF refining slags Lignite lining wear liquid iron machine learning macroscopic shear bands main trough mass transfer coefficient mathematical model mathematical modeling matte-slag chemistry mechanism microwave and ultrasound modification mixed charging mixing time molten slag monomer blended fuel moving path multiple linear regression n/a natural gas neural network nickel-based alloy nickel-copper smelter normal pressure numerical model numerical simulation oxygen bottom blown oxygen consumption particle flow pattern PCA Peirce-smith converting pellet pile physical modeling porosity distribution prediction model process model processing maps quasi-particle quasi-particle fuel quasi-particle structure raceway evolution raceway size raceway zone radar data radiometric sensors RAFT refractory roasting roll design scrap melting secondary refining segregation models settling shape rolling Shuikoushan process simulation SKS slag entrapment slag eye solidification SPH spinel stainless steel slag statistical modeling steel refining steelmaking strain inhomogeneity structural characterization structural simulation supersonic coherent jet support vector data description tapholes temperature distribution thermodynamic model time sequence prediction TiN inclusion tire cord steel titanium distribution ratio TOU electricity pricing transient fluid of hot metal and molten slag trickle flow validation wall shear stress water model wire rod |
| Formato | Materiale a stampa |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione | eng |
| Record Nr. | UNINA-9910557580503321 |
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Saxen Henrik
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| Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021 | ||
| Materiale a stampa | ||
| Lo trovi qui: Univ. Federico II | ||
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