Temperature effects on metabolism, ventilation, and oxygen ...
High Temperature Membrane Technology for Oxygen Production
Transcript of High Temperature Membrane Technology for Oxygen Production
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Prof. Dr.-Ing. M. Modigell
Dipl.-Ing. S. Engels
High Temperature Membrane Technology for Oxygen Production
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Oxyfuel-Process
ASU
N2
airCO2
O2
O2 + flue gas
coalwater
steam
flue gas
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OXYCOAL-AC Process
O2 + flue gas
coal
efficiency drop < oxyfuel
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Principle of OTM-Membranes
• high permeation rate:jO2 > 3 Nml/(cm2min)
• as thin as possible activemembrane layer
Wagner-equation:
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Concepts with and without Contact to the Flue Gas
CO2, CO, O2, H2O, SO2, NOx, dust
combustion
air
N2T = 850°C
flue gasT = 300°Cp = 1bar
p = 20bar
100 % O2T = 850°C
1
2
• higher total efficiency• higher permeation rate,smaller membrane area
• flue gas recirculation temperature 850°C• chemical stable membranes
• no contact between membrane and flue gas
• cold recirculation (~300°C)• lower permeation rate,
larger membrane area• complete heat input by air, heat
up of air to 850 °C
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functional tests of membrane materialspermeation testseffects of flue gas components (CO2, SO2, CO, NOx, H2O ...)long term stability
high temperature joining methoddevelopment of joining methods between membrane (ceramic material)and module material (steel)
model development and scale-upheat and mass transfer across the membraneCFD-based optimisation and construction of industrial applicablemembrane modules
Research Topics
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High Temperature Test Facilitygas mixing system
tubular oven(T<1050°C)
temperature: < 1050°Csweep gas: He, CO2, O2, CO, SO2 , NO, H2O
pressure: 0.01 - 1.5 bar absfeed gas: synthetic air / air
pressure: 1 - 25 bar abs
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selected materials are tested
Ba0.5 Sr0.5 Co0.8 Fe0.2 O3-δ (BSCF)
Sr0.5 Ca0.5 Mn0.8 Fe0.2 O3-δ (SCMF)
La2NiO4
membrane geometrytubular: length up to 500 mm
diameter: 8 – 15 mm
discs: diameter: 10 -15 mm
joining methods
force fit by spring and gold sealing
Membrane Materiales
high temperature silver or glas brazing
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• high permeation rate under ideal / inert conditions• 3 ml/(cm2min) feasible by means of thinner membranes(tested membrane thickness: 1 mm)
function of O2-partial pressure ratio
O2-
perm
eatio
n ra
te [m
l/cm
2 min
]
O2-
perm
eatio
n ra
te [m
l/cm
2 min
]
temperature [°C] Ln(PO2,Feed / PO2,Sweep) [-]
Ba0.5 Sr0.5 Co0.8 Fe0.2 O3-δ (BSCF)
temperature / absolute pressure
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Only applicable for air separation without direct contact to the flue gas !
high permeation rate, but critical chemical stability against CO2
O2-
perm
eatio
n ra
te[m
l/cm
2 min
]
time [min] time [min]
O2-
perm
eatio
n ra
te[m
l/cm
2 min
]
CO2 - Stability BSCF
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lower partial pressurelower permeation ratelarger membrane area
O2-
perm
eatio
n ra
te[m
l/cm
2 min
]
temperature [°C]
pO2-ratiowith sweepgas: 26with vacuum pump: 5
permeation rate (850°C, 20bar)2,05 ml/cm2min0,95 ml/cm2min
⎟⎟⎠
⎞⎜⎜⎝
⎛=
−
fluegasO
airOTK
MWagnerO p
pe
sTCj
Wagner
,
,
2
2
2ln
BSCF: without Contact to the Flue Gas
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• lower permeation rate compared to BSCF
• stable against CO2, NO, slow decrease of permeation rate
• unstable against 360 ppm SO2
100% CO2
O2-
perm
eatio
n ra
te [m
l/cm
2 min
]
temperature [°C]
O2-
perm
eatio
n ra
te [m
l/cm
2 min
]
time [h]
SO2 stability
La2NiO4
temperature / absolute pressure
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tested membrane material are unstable under Oxyfuel power plantconditions
interactions between steel and membrane material
new materials or chemical stable protective layers have to be developed
Measurements
OXYCOAL-AC(development of
power plant process,membrane modules)
MEMBRAIN HGF-Alliance(analysis and optimisation ofmembrane materials)
MEM-OXYCOAL(development of new membrane
materials)
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Module Concept without Contact to the Flue Gas
because of the critical chemical stability membrane modules without contact to the flue gas have to be developed at first
(IWM RWTH Aachen)
membrane module(42 tubes, 0.5m length)
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1m2-Membrane Module / High Temperature Sealing
(IWM RWTH Aachen)
high temperature silver brazing
BSCF
low pressure
perovskite
high pressure
casing
flance
baseplate
brazing socket
brazing
flancebrazing
10 x M33 screw
air
N2
O2(IWM RWTH Aachen)
high temperature silver brazing
BSCF
low pressure
perovskite
high pressure
casing
flance
baseplate
brazing socket
brazing
flancebrazing
10 x M33 screw
air
N2
O2
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Test Plant for Prototype 1m2-Membrane Module
1 bar < Pair < 35 barToven < 1550°C
Tgas preheater = 850°C 0.01 bar < Ppermeat < 1 bar
gas fluxes: pressure:temperature:min/400
2 NCO lV =&
min/400 Nair lV =&
high temperature oven
gas preheaters
air compressor
cooling system
flux control,pressure control
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Acknowledgment
The project MEM-BRAIN Alliance is supported by:Helmholtz-Gemeinschaft Deutscher Forschungszentren
The OXYCOAL-AC project is supported by:Bundesministerium für Wirtschaft und Technologie Federal State of NRW
RWE Power AG, E.ON Energie AG, Hitachi Power EuropeGmbH ,Linde AG, MAN Turbo AG, WS-Wärmetechnik GmbH
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Thank you for your attention!