De Lima, L.C., H.A. Carmona, C.V.M. Da Silva and F.S. Cavalcante Jr., 2011. Oxygen excess controlo f industrial combustion through the use of automotive Lambda sensor. Int. Trans. J. Eng. Manage Applied Sci. Technol., 2: 365-373.
Direct Link |
Eskilsson, D., M. Ronnback, J. Samuelson and C. Tullin, 2004. Optimisation of efficiency and emissions in pellet burners. Biomass Bioenergy, 27: 541-546.
Gibson, R.W., R.V. Kumar and D.J. Fray, 1999. Novel sensors for monitoring high oxygen concentrations. Solid State Ionics, 121: 43-50.
Direct Link |
Johansson, A., F. Johnsson, F. Niklasson and L.E. Armand, 2007. Dynamics of furnace processes in a CFB boiler. Chem. Eng. Sci., 62: 550-560.
McDonald, R.J., T.A. Butcher and R.F. Krajewski, 1998. Development of self tuning residential oil burner-oxygen sensor assessment and early prototype system operating experience. Brookhaven National Laboratory, Informal Report BNL-66045, Upton, New York, USA., pp: 26.
Niklasson, F., F. Johnsson and B. Leckner, 2003. Local air ratio measured by zirconia cell in a circulating fluidised bed furnace. Chem. Eng. J., 96: 145-155.
Shuk, P., E. Bailey and U. Guth, 2008. Zirconia oxygen sensor for the process application: State-of-the-art. Sensors Transducers J., 90: 174-184.
Souza Sobrinho, A.S., R.S. Nascimento, R.S. Pinheiro and L.C. de Lima, 2007. Measurements of the flue gases oxygen concentration by lambda sensor. Rev. Technol., 31: 91-98.
Varamban, S.V., R. Ganesan and G. Periaswami, 2005. Simultaneous measurement of emf and short circuit current for a potentiometric sensor using perturbation technique. Sensors Actuactors B, 104: 94-102.
Wiesendorf, V., E.U. Hartage, J. Wether, F. Johansson and J. Sterneus et al., 1999. The CFB boiler in gardanne-an experimental investigation of its bottom zone. Proceedings of the 15th International Conference on Fluidized Bed Combustion, May 16-19, 1999, Savannah, Georgia, USA -.