In this paper an innovative process to increase superheated steam temperature in Waste-To-Energy plant (WTE) is shown. This solution is mainly characterized by a fluidised bed reactor in which hot flue gas is treated in a double way, chemical and mechanical, that together with gas recirculation increase the energy conversion efficiency, rising superheated steam temperature, without decreasing superheater useful life. This paper shows the last experimental data obtained from the test facility installed at the Hera S.p.A. WTE plant in Forlì and changes that will be carry out to increase experimental campaign duration and also to give suggestion to design an industrial solution.
A. Bianchini, M.Pellegrini, C.Saccani (2009). Hot Waste to Energy Flue Gas Treatment Using an Integrated Fluidised Bed Reactor. WASTE MANAGEMENT, 29, 1313-1319 [10.1016/j.wasman.2008.09.007].
Hot Waste to Energy Flue Gas Treatment Using an Integrated Fluidised Bed Reactor
BIANCHINI, AUGUSTO;PELLEGRINI, MARCO;SACCANI, CESARE
2009
Abstract
In this paper an innovative process to increase superheated steam temperature in Waste-To-Energy plant (WTE) is shown. This solution is mainly characterized by a fluidised bed reactor in which hot flue gas is treated in a double way, chemical and mechanical, that together with gas recirculation increase the energy conversion efficiency, rising superheated steam temperature, without decreasing superheater useful life. This paper shows the last experimental data obtained from the test facility installed at the Hera S.p.A. WTE plant in Forlì and changes that will be carry out to increase experimental campaign duration and also to give suggestion to design an industrial solution.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
