| 1 |
A discussion on the leaching process of the ion-adsorption type rare earth ore with the electrical double layer model
Xiao YF, Gao GH, Huang L, Feng ZY, Lai FG, Long ZQ
Minerals Engineering, 120, 35, 2018 |
| 2 |
Environmental assessment of electricity generation from an Italian anaerobic digestion plant
Fantin V, Giuliano A, Manfredi M, Ottaviano G, Stefanova M, Masoni P
Biomass & Bioenergy, 83, 422, 2015 |
| 3 |
Influencing factors on NOX emission level during grate conversion of three pelletized energy crops
Diaz-Ramirez M, Sebastian F, Royo J, Rezeau A
Applied Energy, 115, 360, 2014 |
| 4 |
Experimental trends of NO in circulating fluidized bed combustion
Tourunen A, Saastamoinen J, Nevalainen H
Fuel, 88(7), 1333, 2009 |
| 5 |
A study of pollutant emission characteristics of partially premixed turbulent jet flames
Lyle KH, Tseng LK, Gore JP, Laurendeau NM
Combustion and Flame, 116(4), 627, 1999 |
| 6 |
Nitric oxide formation in dilute hydrogen jet flames: Isolation of the effects of radiation and turbulence-chemistry submodels
Barlow RS, Smith NSA, Chen JY, Bilger RW
Combustion and Flame, 117(1-2), 4, 1999 |
| 7 |
A turbulent jet chemical reaction model: NOx production in jet flames
Broadwell JE, Lutz AE
Combustion and Flame, 114(3-4), 319, 1998 |
| 8 |
Flamelet-based modeling of NO formation in turbulent hydrogen jet diffusion flames
Sanders JPH, Chen JY, Gokalp I
Combustion and Flame, 111(1-2), 1, 1997 |
| 9 |
The influence of fuel jet precession on the global properties and emissions of unconfined turbulent flames
Nathan GJ, Turns SR, Bandaru RV
Combustion Science and Technology, 112, 211, 1996 |
| 10 |
Effects of flame lifting and acoustic excitation on the reduction of NOx emissions
Chao YC, Yuan T, Tseng CS
Combustion Science and Technology, 114, 49, 1996 |
