Wet Flue Gas Desulphurisation FGD at Oxyfuel conditions - PowerPoint PPT Presentation

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Wet Flue Gas Desulphurisation FGD at Oxyfuel conditions

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Slurry withdrawn continuously (no hydrocyclones) Model describing pilot plant ... A slightly lower slurry pH counters the effects. Future work. Limestone PSD ... – PowerPoint PPT presentation

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Title: Wet Flue Gas Desulphurisation FGD at Oxyfuel conditions


1
Wet Flue Gas Desulphurisation (FGD) at Oxyfuel
conditions
  • Brian B. Hansen Søren Kiil Jan E. Johnsson
  • CHEC Annual Day, DTU, October 1st, 2009

2
Wet Flue Gas Desulphurisation
  • The wet FGD process
  • CaCO3(s) SO2(g) 2H2O ½O2 ? CaSO4?2H2O(s)
    CO2
  • Major reactions (Kiil, 1998)
  • ? Absorption of SO2
  • ? Oxidation of HSO3- to SO42-
  • ? Limestone dissolution
  • ? Gypsum crystallisation
  • Important parameters
  • ? Desulphurisation degree
  • ? Gypsum moisture content
  • ? Gypsum impurity content (limestone etc.)

Courtesy of DONG Energy
1
3
The oxy-fuel concept
Oxy-fuel combustion ? Substitution of fuel air
with oxygen ? Flue gas recycle in order to
control temperature/convective heat transfer ?
Gas phase enriched in CO2 H2O ? Capture and
compression of CO2 Flue gas desulphurization ?
Ensuring a clean product i.e. transport and
geological storage considerations ? Wet FGD
before compression (traditional) ? As part of
the compression (research stage)
Courtesy of Vattenfall
2
4
Project objective
  • ? To experimentally investigate and simulate the
    changes in
  • wet FGD plant operation facilitated by oxyfuel
    conditions
  • - CO2 atmosphere
  • - Higher saturation temperature
  • - Potentially higher SO2 concentration
  • - Potentially reduced flue gas flow rate

3
5
Process changes
  • ? CO2 atmosphere
  • - CO2 absorption (absorber) and release (holding
    tank)
  • - Increased HCO3- concentration (wt CaCO3)
  • CaCO3 2H ? Ca2 HCO3- H ? Ca2
    H2O CO2
  • - Increased limestone availability in absorber
    (?)
  • ? Higher saturation temperature
  • - Decreased gas solubility (?)
  • - Increased diffusion coefficients (wt CaCO3)
  • ? SO2 concentration/flue gas flow rate
  • - Prolonged gas phase residence time (?)
  • - Increased importance of liquid phase
    resistance (?)

4
6
Pilot plant outline
  • Overview
  • ? Flue gas Gas burner/cylinders
  • ? SO2 added to flue gas stream
  • ? SO2 removed in falling film column
  • ? Slurry withdrawn continuously
  • (no hydrocyclones)
  • Model describing pilot plant
  • ? Steady state model
  • - Plug flow (absorber)
  • - Well-mixed tank (holding tank)
  • - 4 rate determining steps
  • - Verified against experimental data

5
7
Experimental methodology
  • Experimental procedure
  • ? Steady state
  • - 5 days desulphurisation
  • - 1000 ppm SO2 flue gas (natural gas burner)
  • ? Oxy-fuel experiments
  • - Until a steady limestone consumption rate
  • - 1000 ppm SO2 flue gas (gas cylinders)
  • Comments
  • ? Water evaporation in the top of column
  • - Contributes to flue gas flow rate
  • ? Flue gas flow rate measurement
  • - Gas property dependent

6
8
Experimental Overview

7
9
Experimental Results (1/2)
CaCO3 2H ? Ca2
HCO3- H ? Ca2 H2O CO2 ? An increased
content of residual limestone - Increased
bicarbonate concentration (lower dissolution
rate) ? An increased desulphurization degree
- Higher absorber pH (residual limestone and
carbonate buffer) ? A minor decrease of
operating pH compensate the changes facilitated
by oxy-fuel conditions
8
10
Experimental Results (2/2)
? Oxy-fuel An increased
absorber pH desulphurization degree
9
11
Conclusions and future work
  • Desulphurisation of an Oxyfuel flue gas stream
  • ? An increased degree of desulphurisation (?)
  • - Higher absorber pH HCO3- buffer and
    increased limestone dissolution
  • ? An increased content of residual limestone
  • - Higher HCO3- concentration in holding tank
  • ? A slightly lower slurry pH counters the
    effects
  • Future work
  • ? Limestone PSD
  • ? Evaluation of experimental results
  • ? Evaluation of model assumptions concerning CO2
    content of gas phase
  • ? Simulations

10
12
Tak for opmærksomheden/ Thanks for the Attention !
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