David Van Wagener The University of Texas at Austin Research Review Meeting January 11, 2008.
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Transcript of David Van Wagener The University of Texas at Austin Research Review Meeting January 11, 2008.
![Page 1: David Van Wagener The University of Texas at Austin Research Review Meeting January 11, 2008.](https://reader035.fdocuments.us/reader035/viewer/2022070413/5697bf9a1a28abf838c9229a/html5/thumbnails/1.jpg)
David Van WagenerThe University of Texas at Austin
Research Review MeetingJanuary 11, 2008
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OverviewBackground
Introduction to stripper modelingMinimizing stripper energy requirementSolvent and configuration options
Recent pilot plant results/rate based stripper model
Equilibrium stripper model in Aspen Plus®
System model resultsSolar powered stripping
Stripping by flashingConclusionsFuture Work
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Absorption/Stripping
Steam 30 psia
Absorber Stripper
Gas in
Sweet Gas Out
Makeup Water
Lean SolventRich Solvent
CO2
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The Need For Stripper ModelingStripper energy requirement accounts for a large
% of total operating cost
Reboiler and compressor operation consumes generated steam from power plant
Stripper design is critical to minimize energy requirement and reduce operating cost for CO2 removal
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Contributions to Energy RequirementSensible heat
Influenced by heat capacity and liquid flow rate
Latent heatControlled by heat of desorption:
Stripped steamDescribed by H2O/CO2 ratio in product vaporRelated to energy requirement through heat of
vaporization of water
2,COdesH
TCOmol
LCH
capacity
solvP
1
2,
OHvapHCOmol
OHmolH
2,2
2 *
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Solvent ChoicesPrior work by Oyenekan concluded
performance is enhanced by using solvents with:High ΔHdesorption
High capacityHigh reaction rate with CO2
MEAIndustry standard: 7m MEAGreat ΔHdes and reasonable capacityReaction rate with CO2 hinders performanceDegradation at high T is an issue
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Solvent ChoicesK+/PZ
5m/2.5m has a high ΔHdes and fast rates, but only marginal capacity
4m/4m improves the capacity and maintains other qualities
MDEA/PZAlso has a high ΔHdes and fast ratesAdditionally, it has exceptional capacity
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Stripper ConfigurationsVarious configurations of stripping columns
can improve performance by:Reducing reboiler dutiesReducing stripped steamDecreasing the lean loading and solvent rate
Significant work was done by Oyenekan to identify potentially beneficial configurationsInternal exchange stripperMultipressure stripperDouble matrix stripper
Determined to be most beneficial
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Double Matrix Stripper
Rich Solvent
Lean Solvent
Semi-lean Solvent
Product CO2
High P Low P
Water Knockout
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Flashing Stripper using Solar Energy
Rich Solvent
Lean Solvent
Product CO2
Water Knockout
Solar energy via heated medium
T1, P1
T2, P2
T3, P3
1. Initial heating of solvent to high temperature using solar energy
2. 3 sequential adiabatic flashes
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Levels of Aspen Calculation Rigorousness
Equilibrium Mass Transfer• Equilibrium stages
• Equilibrium Radfrac and ACM• Thermal equilibrium in stage• Specify CO2 efficiency and
number of stages
• Equilibrium reaction stages• Ratefrac (Freguia) and Fortran
(Tobieson, NTNU)• Access built-in models for a
kla, kga• Specify packing type and
height
Kinetics with Mass Transfer• Rate approximation
• Rate-based Radfrac and ACM• Simple boundary layer• Specify kg’=f(ldg, T, kl)
• Rigorous rate calculation• RateSep• Multiple boundary layer
segments• Specify rate constants• Current absorber modeling
approach
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Modeling SoftwareEquilibrium Stages
Equilibrium Reactions
Rate-Based Reactions
ACM √ √ √
RadFrac √
RateSep √ √
ACM is very functional, but requires extensive programming
RateSep is an add-in function of RadFrac which uses discretized segments and rigorous calculations to approximate mass transfer and reaction rates
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Optimization of Lean Loading1. Independent stripper section (constant rich
loading)• Trade-off of sensible heat with stripped steam• Optimum lean loading occurs with lowest
equivalent work:
2. Stripper coupled with absorber (constant absorber specs)
• Predicts the rich ldg to accompany a specified lean loading
• Higher lean loadings result in higher rich loadings and/or solvent flows
KTKT
TKTQW
reboilersn
i i
iieq 313,
10
10*75.0 sink
1
sink
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Task: Analyze Recent Pilot Plant Run35%wt MEA was used to remove CO2
Analysis of stripper section:Loadings: 0.48 0.36Preboiler: 15.23 psiaMax temperature: 216.9°F (≈102°C)Removal: 63%Equivalent work: 41.2 kJ/mol CO2 (no compression or
pumping)
Currently the results are being evaluated using:Hilliard VLEEquilibrium reactions in RateSepSimulation flowsheet reflecting pilot plant operation
Regressions will be used to reconcile differences
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Stripper feed
Stripped vapor
Pilot Plant Reboiler DesignReboiler is separate
from stripping column
A fraction of the sump drawoff goes to the reboiler
The reboiler only vaporizes a portion of the incoming liquid
Stream temperatures vary depending on flow split
Sump drawoff
Reboiler
Reboiler bypassLean solvent
Reboiler vapor
Remaining liquid
solvent
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Model predictions
212.5°F(216.9°F)
Inlet specified
198.2°F(189.4°F)
122.3°F (112.8°F)159 lb/min (155 lb/min)ldg: 0.36 (0.36)
198°F (190°F)
194°F (190°F)
193°F (196°F)
Uses measured reboiler duty of 0.488 MMBtu/hr and 75% of sump directed to reboiler
Flows and loadings are closely predicted, but temperatures are off
207.8°F (208.8°F)
Aspen (Measured)
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Adjusting Reboiler Section
216.9°F(216.9°F)
Inlet specified
193.2°F(189.4°F)
130.5°F (112.8°F)159 lb/min (155 lb/min)ldg: 0.41 (0.36)
193°F (190°F)
191°F (190°F)
190°F (196°F)
Reboiler duty changed to 0.387 MMBtu/hr, 15% of sump directed to reboiler
Column temperature estimates are still inaccurate, and lean loading is also off
208.4°F(208.8°F)
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4m K+/4m PZ System Modeling
Gas in
Semilean return
Lean return
H2O return
CO2 product
Absorber Section
Cross Exchange Section
Stripper Section
Compression Section
Lean in
5.5 kmol/s
40°C
12.7% CO2
90% removal of CO2
160 kPa base pressure
Equilibrium reactions in
strippers
Hilliard K+/PZ model
500 MW plant specifications
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Design Specifications 90% removal in the 15 m
packed absorber Equal CO2 flow in
stripper and absorber lean streams
Equal reboiler temperatures
Cold side 5° approach in lean exchanger
Cold side 5° approach in semi-lean exchanger
Lean amine flow rate into absorber
Low-pressure stripper reboiler duty
High-pressure stripper reboiler duty
High-pressure stripper feed temperature
Low-pressure stripper feed temperature
Specification Vary
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Optimized Double Matrix/Intercooling vs. Simple Stripper/No Intercooling
Optimum loading is slightly different for two casesDouble matrix configuration yields energy savings,
but not overwhelminglyThe magnitude of savings do not agree with Oyenekan
data, but could be attributed to difference in loadings
Matrix Simple
Rich Loading (mol CO2/mol alk) 0.500 0.485
Lean Loading (mol CO2/mol alk) 0.385 0.397
Pressure (kPa) 265 -
Split 0.305 -
Equivalent Work (kJ/gmol CO2, to 1MPa) 31.48 33.71
Equivalent Work (kJ/gmol CO2, to 10MPa) 39.73 41.96
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To
dT
Solar stripping analysisMEA absorber model was used to determine a rich
loading with a given lean loading (initial value of 0.4)
Goals:Change the temperature step to attain original loadingOptimize the lean loading to minimize equivalent work
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Solar Stripping Analysis
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ConclusionsThe data from a pilot plant run was evaluated
The thermal efficiency is lowAn integrated system model was designed in
AspenPlusThis model demonstrated the double matrix stripper
configuration is advantageous over the simple stripper
Only 40% of the savings compared to previous isolated stripper models
Equivalent work is most sensitive to changes in loading
“Flashing strippers” are being investigated as an option for using several heat levels of solar generated steam in stripping
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Future WorkImplement new models for MEA, K+/PZ, and
ROC-16Upgrade to rate-based simulations
Explore mass transfer mechanisms in stripperFlashing in top stageRate-based reboiler as opposed to equilibrium
Complete Aspen tasks with MEARegress and reconcile differences for pilot plant
run Verify accuracy of new Hilliard MEA model
Quantify the feasibility of solar stripping
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