Igor Novosselov
Titolo
Citata da
Citata da
Anno
Laboratory evaluation of the Shinyei PPD42NS low-cost particulate matter sensor
E Austin, I Novosselov, E Seto, MG Yost
PloS one 10 (9), e0137789, 2015
1312015
Chemical reactor network application to emissions prediction for industial dle gas turbine
IV Novosselov, PC Malte, S Yuan, R Srinivasan, JCY Lee
Turbo Expo: Power for Land, Sea, and Air 42363, 221-235, 2006
952006
Experimental and numerical study of NOx formation from the lean premixed combustion of CH4 mixed with CO2 and N2
KB Fackler, MF Karalus, IV Novosselov, JC Kramlich, PC Malte
Journal of Engineering for Gas Turbines and Power 133 (12), 2011
702011
Development and application of an eight-step global mechanism for CFD and CRN simulations of lean-premixed combustors
IV Novosselov, PC Malte
Journal of Engineering for Gas Turbines and Power 130 (2), 2008
672008
Chemical reactor networks for combustion systems modeling
IV Novosselov
University of Washington, 2006
58*2006
Aerosol collection and microdroplet delivery for analysis
PC Ariessohn, IV Novosselov
US Patent App. 12/364,672, 2010
482010
Particle interrogation devices and methods
IV Novosselov, PC Ariessohn, ED Dengler, M Hickner
US Patent 8,561,486, 2013
402013
Development and application of an eight-step global mechanism for CFD and CRN simulations of lean-premixed combustors
IV Novosselov, PC Malte
Turbo Expo: Power for Land, Sea, and Air 47918, 769-779, 2007
402007
Experimental and numerical investigation of electrohydrodynamic flow in a point-to-ring corona discharge
Y Guan, RS Vaddi, A Aliseda, I Novosselov
Physical Review Fluids 3 (4), 043701, 2018
332018
Analytical structure, dynamics, and coarse graining of a kinetic model of an active fluid
T Gao, MD Betterton, AS Jhang, MJ Shelley
Physical Review Fluids 2 (9), 093302, 2017
322017
Eight-step global kinetic mechanism on methane oxidation with nitric oxide formation for lean-premixed combustion turbines
IV Novosselov
University of Washington, 2002
322002
Analytical model of electro-hydrodynamic flow in corona discharge
Y Guan, RS Vaddi, A Aliseda, I Novosselov
Physics of plasmas 25 (8), 083507, 2018
292018
Aerosol collection apparatus and methods
PC Ariessohn, IV Novosselov, E Dengler
US Patent 8,539,840, 2013
282013
A skeletal mechanism for the reactive flow simulation of methane combustion
MF Karalus, KB Fackler, IV Novosselov, JC Kramlich, PC Malte
Turbo Expo: Power for Land, Sea, and Air 55119, V01BT04A065, 2013
282013
Two relaxation time lattice Boltzmann method coupled to fast Fourier transform Poisson solver: Application to electroconvective flow
Y Guan, I Novosselov
Journal of computational physics 397, 108830, 2019
262019
NOx behavior for lean-premixed combustion of alternative gaseous fuels
K Boyd Fackler, M Karalus, I Novosselov, J Kramlich, P Malte, S Vijlee
Journal of Engineering for Gas Turbines and Power 138 (4), 2016
252016
Trapping and aerogelation of nanoparticles in negative gravity hydrocarbon flames
RK Chakrabarty, IV Novosselov, ND Beres, H Moosmüller, CM Sorensen, ...
Applied Physics Letters 104 (24), 243103, 2014
242014
Supercritical water gasification: practical design strategies and operational challenges for lab-scale, continuous flow reactors
BR Pinkard, DJ Gorman, K Tiwari, EG Rasmussen, JC Kramlich, ...
Heliyon 5 (2), e01269, 2019
232019
Characterizing the mechanism of lean blowout for a recirculation-stabilized premixed hydrogen flame
MF Karalus, KB Fackler, IV Novosselov, JC Kramlich, PC Malte
Turbo Expo: Power for Land, Sea, and Air 44687, 21-30, 2012
222012
Removal rates of explosive particles from a surface by impingement of a gas jet
R Keedy, E Dengler, P Ariessohn, I Novosselov, A Aliseda
Aerosol Science and Technology 46 (2), 148-155, 2012
222012
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
Articoli 1–20