Gasification has the potential to combine energy production and
resource recovery in the utilization of sewage sludge. We present an experimental
study on sewage sludge gasification in a 90 kW entrained flow reactor, investigating
air and O2 as gasification agent and the influence of CO2 or KCl on gasification
performance. The overall conversion in the entrained flow gasification of sewage
sludge ranged from 88 to 95%, and the cold gas efficiency was between 45 and 51%
on a dry basis. The lower heating value of the syngas from air-blown gasification
was around 3.5 MJ/N m3
. We demonstrated the increase in the lower heating
value using CO2 instead of N2 for equipment cooling. O2-blown gasification
increased the lower heating value to 8.4 MJ/N m3 and reduced the syngas volume
flow by approximately 60%. Plant nutrients such as P and K remained in the gasification ash, making it a potential raw material for
fertilizer production. However, a significant share of S became gaseous, which needs to be considered when further using the syngas.
The entrained flow gasification of sewage sludge enabled the partial volatilization of heavy metals such as Hg, Tl, Cd, Pb, As, Zn, Cu,
and Ni. The bottom ash from O2-blown gasification complied with all limits from the German Fertilizer Ordinance. However, the
bottom ash from air-blown gasification exceeded the limits for Ni, Cu, and Cd. In general, only small amounts of Cu and Ni
evaporated during gasification. KCl acted as a catalyst in the gasification process and improved the gasification performance for the
overall conversion and cold gas efficiency. Based on our results, KCl did not increase the partial volatilization of heavy metals in
gasification. Therefore, we advise against using KCl as an additive in entrained flow gasifiers with a water quench.
«
Gasification has the potential to combine energy production and
resource recovery in the utilization of sewage sludge. We present an experimental
study on sewage sludge gasification in a 90 kW entrained flow reactor, investigating
air and O2 as gasification agent and the influence of CO2 or KCl on gasification
performance. The overall conversion in the entrained flow gasification of sewage
sludge ranged from 88 to 95%, and the cold gas efficiency was between 45 and 51%
on a dry basis. The...
»
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