Dealing with Aromatics in the Sulfur Recovery...
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Transcript of Dealing with Aromatics in the Sulfur Recovery...
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1
Eric Roisin
Dealing with Aromatics in the Sulfur Recovery Unit
A Comprehensive Summary
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2
Introduction
Review of litterature from Saudi Aramco
Development of Axens’ solution
Industrial feedback
Conclusion
Content
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Low H2S content results in :
Low furnace temperature
High COS and CS2 formation
The leaner the acid gas, the lower the recovery of S.
High recovery targets require converting COS/CS2.
Influence of AG concentration at thermal stage
H2S Content (%) 90 80 70 60 50 40
Furnace
Temperature (°C) 1240 1175 1110 1045 970 890
Fraction of S in
COS/CS2
1.1 2.45 3.55 4.4 5.1 5.9
Simulations using Sulsim, all flows at 35°C, 1% CH4, 4% H2O, bal CO2
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Thermal destruction of aromatics
Decomposition
temperature of
aromatics:
Benzene: 1050°C
Toluene: ~ 950°C
Xylene: 925°C
Source: B. Klint, LRGCC 2000
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Effect of Aromatics on Claus Catalyst
Aromatics famous for
poisoning Claus
catalysts via “carsul”
formation
Several industrial cases
already published
Reprinted from Gas Conditionning and Processing, Campbell Petroleum Series, 1998
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Middle Eastern feedback (2011)
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< 2/3 Acid Gas
Second converter
First converter
A.G.
Long split-flow configuration for ultra-lean cases
Air
Reheater
Condenser
Sulfur pit
Reheater
Condenser
Furnace
Increased flame temperature allowing operation
BUT:
Feed gas contaminants (BTX) reaching the catalyst
Problem of Shedgum and Uthmaniyah SRUs
» 3rd converter » TGTU » Incinerator
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Introduction
Review of litterature from Saudi Aramco
Development of Axens’ solution
Industrial feedback
Conclusion
Content
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The different effects of aromatics
Source: « Quantifying the Effect of Individual Aromatic Contaminants on
Claus Catalyst »; P. Crevier, LRGCC 2001
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The different effects of aromatics
Main Conclusions from this article:
Benzene, Toulene and Xylene have a different impact
on the catalyst
• Xylene is the main cause to deactivation. It shall be largely
removed or destroyed
• Benzene has a relatively minor effect
Deactivation rate is proportionnal to the aromatics
concentration
Deactivation rates depend upon the temperature
Source: « Quantifying the Effect of Individual Aromatic Contaminants on
Claus Catalyst »; P. Crevier, LRGCC 2001
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Available engineering solutions
Conclusions on the Saudi Aramco study cases:
O2 enrichment: split flow required if < 38% H2S,
Fuel gas co-firing: need for larger furnace and
converters; produces additional CS2
Change of the upstream amine: not acceptable due to
the CO2 impact on downstream process
Condense BTX in the acid gas: too warm climate
Strip BTX out of rich amine: too expensive
Acid gas enrichment: 6 times too costly
BTX Removal using activated carbon bed is viable
Source: « Evaluating Solutions to BTX Deactivation of Claus Catalyst in
Lean Feed SRUs »; P. Crevier, Brimstone 2002
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The effects of aromatics on Alumina and Titania
For TiO2 at 310°C (results at 80% conversion):
Xylene = 4.2 * Toluene
Toluene = 17.6 * Benzene
Catalyst life time prediction model
No need for drying and cooling the carbon beds after regeneration due to the minor impact of Benzene
All catalysts available on the market are not equivalent.
Source: « Performance of Commercial Titania and Titania Hybrid Catalysts
in the Presence of Aromatic Contaminants »; P. Crevier, LRGCC 2005
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Carbon bed absorption process
Source: « Saudi Aramco Eliminates Claus Catalyst Deactivation Caused by
Aromatics Using Activated Carbon »; P. Crevier, LRGCC 2007
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Carbon bed absorption process
Benefit:
Removing TX and part of B solves the poisoning
Recovered BTX can be valorized
Inconvenient:
Requires Installing additional major equipment
Large steam requirements
BTX contaminated water to be treated
Long term reliability of carbon beds exposed to water?
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Introduction
Review of litterature from Saudi Aramco
Development of Axens’ solution
Industrial feedback
Conclusion
Content
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Towards a catalytic solution?
Typical BTX content outlet of reaction furnaces:
0-100 ppm
Aromatics split should be mainly Benzene,
more than Toluene and Xylene
We looked for a catalytic solution to deal with BTX
contaminated lean acid gases, able to provide
sufficient COS and CS2 conversion
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The lean acid gas problem
Dealing with lean acid gases implies:
A reduced furnace temperature:
Aromatics (Benzene) breakthrough?
High quantities of COS and CS2
to be hydrolyzed in the first converter
The catalyst to be loaded in the reactors need to be
very efficient in hydrolysis, and resistant towards
BTX poisoning
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Lab testing
Automated pilot test dedicated to this study
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Testing conditions
The following gas composition has been used for this
study:
6 % H2S, 4 % SO2, 1 % CS2,
10 % H2O, 25% CO2, 1% H2, N2 balance
5000 ppmv Toluene
Tests performed on ~150 ml of catalyst
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320°C with CR-3S
Quick deactivation
of CR-3S
Insufficient
conversion of CS2
Continuous
catalyst poisoning
0
20
40
60
80
100
0 12 24 36
time on stream (hr)
CS
2 c
on
versio
n (
%)
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0
20
40
60
80
100
0 12 24 36
time on stream (hr)
CS
2 c
on
versio
n (
%)
320°C with CRS 31
• High initial
activity
• Quick
deactivation at
320°C
• Conversion
reaches a
“plateau”
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• Lower initial
activity
• Similar slope
deactivation
• Conversion
reaches a
“plateau”
300°C with CRS 31
0
20
40
60
80
100
0 12 24 36
time on stream (hr)
CS
2 c
on
versio
n (
%)
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• Lower initial
activity
• Acceptable
deactivation
• Conversion
reaches a
“plateau” at 60
%
280°C with CRS 31
0
20
40
60
80
100
0 12 24 36
time on stream (hr)
CS
2 c
on
versio
n (
%)
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Effect of temperature on CRS 31
0
20
40
60
80
100
0 12 24 36
time on stream (hr)
CS
2 c
on
versio
n (
%)
280°C
300°C
320°C
• Detrimental
influence of
temperature
• Operating at
280°C is more
favorable
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Comparison of Catalyst Performances
Catalyst CR-3S CRS 31
Temperature, °C 320 320 300 280
Initial CS2 conv., 88 % 98 % 94 % 86 %
Deactivation, %/h 3.1 4.4 3.3 2.0
60% conv. After 9h 9h 9h 26h
CRS 31 at 280°C same performances than CR-3S
at 320°C, but lasts 3 times longer!
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CSM 31 purposes
1. Increases H2S/SO2, increased furnace temperature
2. Converts nasty Toluene and Xylene to “catalytically friendly” Benzene (hydrodealkylation)
3. Uses Water gas shift conversion which produces H2 continuously:
SO2 + 3 H2 H2S + 2 H2O
CO + H2O H2 + CO2
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1/3 CSM 31 + 2/3 CRS 31 at 280°C
• Deactivation
slope very low
• Better than pure
CRS 31 after 5
testing hours
0
20
40
60
80
100
0 12 24 36
Time on stream (hr)
CS
2 c
on
versio
n (
%)
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1/3 CSM 31 + 2/3 CRS 31 at 320°C
• Protection by
CSM 31 has
limitations
• Always keep
catalyst bed
below 300°C
0
20
40
60
80
100
0 12 24 36
Time on stream (hr)
CS
2 c
on
versio
n (
%)
CR-3S
CRS 31
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Best strategies for TiO2 – Option 3
When aromatics are present
» Operate as cold as possible (<280°C)
» Load CSM 31 on top half of R1
» Load TiO2 in R2 to satisfy high
COS/CS2 conversion requirements
CSM 31
TiO2
Al2O3 / TiO2
R1 R2
0
20
40
60
80
100
0 12 24 36
time on stream (hr)
CS
2 c
on
versio
n (
%)
0
20
40
60
80
100
0 12 24 36
Time on stream (hr)
CS
2 c
on
versio
n (
%)
CSM 31 + CRS 31
= lifetime*3
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Introduction
Review of litterature from Saudi Aramco
Development of Axens’ solution
Industrial feedback
Conclusion
Content
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CSM31/CRS 31 combination has been loaded in 15
different units since mid 2008 (lifetime up to 5 years).
The ideal operation feedback would contain:
Details of the operating company and site location
Unit design capacity and process conditions
BTX measured at the inlet of the first reactor
Bed temperature profiles
COS and CS2 conversion trends
Comparison with previous catalyst performances
At the time of this presentation we did are not in the
position to publish such detailed data.
Definition of a complete feedback
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Feedback from North American SRU
Lean Acid Gas concentration, approx. 45%
Split Flow configuration
Usual catalyst lifespan: 6 months
No information on BTX content in the feed
High carsul contamination of previous alumina: 8% C
First catalyst bed loading: 70/30 CSM 31/CRS 31
Loaded in June 2009
No sign of deactivation after 1 year…
untill a sulfur fire killed the catalyst!
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Introduction
Review of litterature from Saudi Aramco
Development of Axens’ solution
Industrial feedback
Conclusion
Content
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Conclusions
Aromatics drastically effect the performances of Claus
catalysts. Their concentration shall be minimized by all
practical/economical means.
Saudi Aramco’s work is a major source of information.
Large BTX concentrations (>100ppm) can be removed
from AG using activated carbon absorbers.
Axens’ catalytic solution (CSM 31 + CRS 31) allows
processing low BTX concentrations (<100ppm) at
catalytic stage.
No additional equipment required
No extra operating cost
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Driving Sulfur Recovery Towards Excellence
Axens pioneered every evolution in sulfur recovery
catalysis over the past 50 years
• Al2O3/TiO2 hybrid : CRS 21 (1972)
• Fe Oxygen scavenger: AM (1976) & AMS
• Pure TiO2: CRS 31 (1984) & CRS 31 TL
• Optimized Alumina: CR-3S (1994)
• LT hydrogenation: TG 107 (2004) & TG 136
• BTX management: CSM 31 (2007)
• Low turndown : CR-3S LG (2014)
Focussing on the benefits of our customers
made us Sulfur recovery catalyst World leader
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Axens Sulfur Complete Portfolio
• CR: Claus alumina
• CR-3S: Improved Claus alumina
• DR Series: Active bed supports
• CRS 31: Titanium dioxide catalyst
• CRS 31 TL: Low density titanium dioxide catalyst
• AM & AMS: Oxygen scavengers
• CSM 31: BTX management
Claus Catalysts
Tail Gas Treatment Catalysts
• TG 103: TG hydrogenation catalyst, spherical
• TG 107: Low temperature TG hydrogenation catalyst, spherical
• TG 203: Low density TG hydrogenation catalyst, spherical
• TG 136: Low temperature TG hydrogenation catalyst, extrudate