کد مقاله | کد نشریه | سال انتشار | مقاله انگلیسی | نسخه تمام متن |
---|---|---|---|---|
6475042 | 1424968 | 2017 | 8 صفحه PDF | دانلود رایگان |
- The effect of H2O(g) on limestone reactions was examined with bench scale reactor.
- Calcination and sulphation were studied in air and oxycombustion conditions.
- A single particle model was used to analyze the experimental results.
- The results showed enhanced sulphur capture in presence of water vapour.
Limestone is used widely in fluidized bed energy applications for sulphur capture. The conditions of the novel fluidized bed energy processes can differ from the conditions (i.e., temperature and gas concentrations) in conventional fluidized bed applications for energy production. The influence of H2O(g) on calcination and indirect sulphation was examined with one limestone type in a bench-scale reactor. A time-dependent multilayer particle model was used for analysing the experimental results. The studied atmosphere included 0%, 10% or 20% H2O(g) and two different CO2 concentration levels (15% and 50%). The temperature level was the same in all tests (â¼1188Â K). The added H2O(g) increased the conversion degree compared to conditions without H2O(g) in all test conditions. The model was used to explicate the observed differences between test results with and without H2O(g) and determine the conversion curve, conversion profile and magnitude of reactions and diffusion as a function of radius and time. The results show that different sulphation patterns and conversion degrees can be explained with different limitations inside the particles in terms of time and in different conditions.
Journal: Fuel - Volume 196, 15 May 2017, Pages 233-240