National Energy Technology Laboratory - Modeling of LBNL MOF … · • Diamine-Appended MOF...
Transcript of National Energy Technology Laboratory - Modeling of LBNL MOF … · • Diamine-Appended MOF...
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Modeling of LBNL MOF Sorbents
Debangsu Bhattacharyya, Goutham Kotamreddy, Ryan HughesWest Virginia University
Janine CarneyNETL
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• Diamine-Appended MOF Overview
• Challenges of the Appended MOF
• Isotherm/TGA Modeling
– Weighted Dual-Site Langmuir
– Dual-Site Sips
– TGA Model
• Fixed Bed Modeling
• Future Work
Outline
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• Being developed by Lawrence Berkeley National Lab
• Currently considering Gen I diamine-appended MOF1
• Complicated mechanism forming multiple products- carbamate, carbamic acid, carbamate-
carbamic acid chain formation along with physical adsorption
Diamine-Appended MOF Overview
1 –Siegelman, R.L., McDonald, T.M., Gonzalez, M.I., Martell, J.D., Milner, P.J., Mason, J.A., Berger, A.H., Bhown, A.S., Long, J.R. Controlling Cooperative Adsorption in
Diamine-Appended Mg2(dobpdc) Metal-Organic Frameworks. Journal of the American Chemical Society. 2017; 139, 10526-10538
• dmpn-Mg2(dobpdc)
dmpn=2,2-dimethyl-1,3-diaminopropane
Dopbdc=4,4′-dioxido-3,3′-biphenyldicarboxylate
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• Diamine-Appended MOF Overview
• Challenges of the Appended MOF
• Isotherm/TGA Modeling
– Weighted Dual-Site Langmuir
– Dual-Site Sips
– TGA Model
• Fixed Bed Modeling
• Future Work
Outline
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5
▪ Unusual shapes of the isotherms and strong
nonlinearity with temperature
▪ High driving force, but the limiting
mechanisms are mass transfer and heat
transfer
▪ Design and development of efficient thermal
management system
▪ Optimal step location
▪ Optimal selection and design of the contactor
with due consideration of CAPEX and OPEX
Challenges of the Appended MOFs where Models can Help
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• Diamine-Appended MOF Overview
• Challenges of the Appended MOF
• Isotherm/TGA Modeling
– Weighted Dual-Site Langmuir
– Dual-Site Sips
– TGA Model
• Fixed Bed Modeling
• Future Work
Outline
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Weighted Dual-Site Langmuir I𝒏 𝑷, 𝑻 = 𝒏𝑳 𝑷, 𝑻 𝟏 − 𝒘 𝑷, 𝑻 + 𝒏𝑼 𝑷, 𝑻 𝒘 𝑷, 𝑻
𝑛𝐿 =𝑛𝐿∞𝑏𝐿𝑃
1 + 𝑏𝐿𝑃
𝑛𝑈 =𝑛𝑈∞𝑏𝑈𝑃
1 + 𝑏𝑈𝑃+ 𝑏𝐻𝑃
𝑏∝ = 𝑏∝∞exp
𝐸∝𝑅𝑇
; ∝= L, U, H
𝑤 𝑃, 𝑇 =
𝑒𝑥𝑝𝑙𝑛 𝑃 − 𝑙𝑛(𝑃𝑠𝑡𝑒𝑝 𝑇 )
𝜎(𝑇)
1 + 𝑒𝑥𝑝𝑙𝑛 𝑃 − 𝑙𝑛(𝑃𝑠𝑡𝑒𝑝 𝑇 )
𝜎(𝑇)
𝛾
𝜎 𝑇 = 𝑋1exp 𝑋21
𝑇0−1
𝑇
𝑃𝑠𝑡𝑒𝑝 𝑇 = 𝑃𝑠𝑡𝑒𝑝,0exp−𝐻𝑠𝑡𝑒𝑝
𝑅
1
𝑇0−1
𝑇
Hefti, M., Joss, L, Bjelorbk, Z., Mazzotti, M., Faraday Discussions. 2016; 192, 153-
179
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Weighted Dual-Site Langmuir II𝒏 𝑷, 𝑻 = 𝒏𝑳 𝑷, 𝑻 𝟏 − 𝒘 𝑷, 𝑻 + 𝒏𝑼 𝑷, 𝑻 𝒘 𝑷, 𝑻
𝑛𝐿 =𝑛𝐿∞𝑏𝐿𝑃
1 + 𝑏𝐿𝑃+ 𝑏𝑏𝑃
𝑛𝑈 =𝑛𝑈∞𝑏𝑈𝑃
1 + 𝑏𝑈𝑃+ 𝑏𝐻𝑃
𝑏∝ = 𝑏∝∞exp
𝐸∝𝑅𝑇
; ∝= L, U, H, b
𝑤 𝑃, 𝑇 =
𝑒𝑥𝑝𝑙𝑛 𝑃 − 𝑙𝑛(𝑃𝑠𝑡𝑒𝑝 𝑇 )
𝜎(𝑇)
1 + 𝑒𝑥𝑝𝑙𝑛 𝑃 − 𝑙𝑛(𝑃𝑠𝑡𝑒𝑝 𝑇 )
𝜎(𝑇)
𝛾
𝜎 𝑇 = 𝑋1exp 𝑋21
𝑇0−1
𝑇
𝑃𝑠𝑡𝑒𝑝 𝑇 = 𝑃𝑠𝑡𝑒𝑝,0exp−𝐻𝑠𝑡𝑒𝑝
𝑅
1
𝑇0−1
𝑇
Pressure (bar)
n (
mm
ol/g
)
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Chemical Equilibrium
CO2 + N ՞ CO2−N
𝐾𝑒𝑞 =[𝐶𝑂2 − 𝑁]
[𝑁]=
𝑛𝑚𝑎𝑥,𝑐
𝑞𝑚𝑎𝑥 − 𝑛𝑚𝑎𝑥,𝑐
ln 𝐾𝑒𝑞 = 𝐾𝑎 +𝐾𝑏𝑇
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Dual-Site Sips Isotherm
𝒏 = 𝒏𝒎𝒂𝒙,𝒄
𝒃𝒂𝑷Τ𝟏 𝒏𝒂
𝟏 + 𝒃𝒂𝑷Τ𝟏 𝒏𝒂
+ 𝒏𝒎𝒂𝒙,𝒑
𝒃𝒃𝑷Τ𝟏 𝒏𝒃
𝟏 + 𝒃𝒃𝑷Τ𝟏 𝒏𝒃
𝑏 = 𝑏0exp𝑄𝑠𝑡𝑅𝑇0
𝑇0𝑇− 1
• Previously used to model CO2 adsorption on MOF’s and activated carbons1,2
1 - Bao, Z., Yu, L., Ren, Q., Lu, X., Deng, S. Adsorption of CO2 and CH4 on a magnesium-based metal organic framework. Journal of Colloid and Interface Science. 2011; 353, 549-556
2 - Tzabar, N., Brake, H. Adsorption isotherm and Sips models of nitrogen, methane, ethane, and propane on commercial activated carbons and polyvinylidene chloride. Adsorption. 2016; 22, 901-914
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Bin Weighting
• Used to equally represent the data along entire pressure range
• 𝑜𝑏𝑗 = 𝜀𝑇𝑊−1𝜀
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1
w=1
w=10𝟏 ≤ 𝒘 ≤ 𝟏𝟔𝟔
Bin Weighting Example
𝜀𝑖 =𝑞𝑖 − 𝑛𝑖𝑞𝑖
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Modified Dual-Site Sips Isotherm
𝒏 = 𝒏𝒎𝒂𝒙,𝒄
𝒃𝒂𝑷Τ𝟏 𝒏𝒂
𝟏 + 𝒃𝒂𝑷Τ𝟏 𝒏𝒂
+ 𝒏𝒎𝒂𝒙,𝒑
𝒃𝒃𝑷Τ𝟏 𝒏𝒃
𝟏 + 𝒃𝒃𝑷Τ𝟏 𝒏𝒃
𝑛𝑚𝑎𝑥,𝑐 =𝑛𝑚𝑎𝑥,𝑁𝐾𝑒𝑞,𝑐
1 + 𝐾𝑒𝑞,𝑐; 𝑛𝑚𝑎𝑥,𝑁 = 3.82 𝑚𝑚𝑜𝑙/𝑔
ln(𝐾𝑒𝑞,𝑐) = 𝐾𝑎 +𝐾𝑏𝑇
𝑏 = 𝑏0exp𝑄𝑠𝑡𝑅𝑇0
𝑇0𝑇− 1
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Modified Dual-Site Sips Isotherm I
𝒏 = 𝒏𝒎𝒂𝒙,𝒄
𝒃𝒂𝑷Τ𝟏 𝒏𝒂
𝟏 + 𝒃𝒂𝑷Τ𝟏 𝒏𝒂
+ 𝒏𝒎𝒂𝒙,𝒑
𝒃𝒃𝑷Τ𝟏 𝒏𝒃
𝟏 + 𝒃𝒃𝑷Τ𝟏 𝒏𝒃
𝑛𝑚𝑎𝑥,𝑐 =𝑛𝑚𝑎𝑥,𝑁𝐾𝑒𝑞,𝑐
1 + 𝐾𝑒𝑞,𝑐; 𝑛𝑚𝑎𝑥,𝑁 = 3.82 𝑚𝑚𝑜𝑙/𝑔
ln(𝐾𝑒𝑞,𝑐) = 𝐾𝑎 +𝐾𝑏𝑇
𝑏 = 𝑏0exp𝑄𝑠𝑡𝑅𝑇0
𝑇0𝑇− 1
𝑛𝑎 = 𝑛𝑎,1exp𝐸𝑛𝑎𝑅𝑇0
𝑇0𝑇− 1 ; 𝑇0 = 318 𝐾
𝑛𝑚𝑎𝑥,𝑝 = 𝑛max,𝑝,1
exp 𝐾𝑐 +𝐾𝑑𝑇
1 + exp 𝐾𝑐 +𝐾𝑑𝑇
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Modified Dual-Site Sips Isotherm II
𝒏 = 𝒏𝒎𝒂𝒙,𝒄
𝒃𝒂𝑷Τ𝟏 𝒏𝒂
𝟏 + 𝒃𝒂𝑷Τ𝟏 𝒏𝒂
+ 𝒏𝒎𝒂𝒙,𝒑
𝒃𝒃𝑷Τ𝟏 𝒏𝒃
𝟏 + 𝒃𝒃𝑷Τ𝟏 𝒏𝒃
+ 𝒅𝑷
𝑑 = 𝑑0exp𝐸𝑑𝑅𝑇
𝑛𝑚𝑎𝑥,𝑐 =𝑛𝑚𝑎𝑥,𝑁𝐾𝑒𝑞,𝑐
1 + 𝐾𝑒𝑞,𝑐; 𝑛𝑚𝑎𝑥,𝑁 = 3.82 𝑚𝑚𝑜𝑙/𝑔
ln(𝐾𝑒𝑞,𝑐) = 𝐾𝑎 +𝐾𝑏𝑇
𝑏 = 𝑏0exp𝑄𝑠𝑡𝑅𝑇0
𝑇0𝑇− 1
–
𝑛𝑎 = 𝑛𝑎,1exp𝐸𝑛𝑎𝑅𝑇0
𝑇0𝑇− 1 ; 𝑇0 = 318 𝐾
𝑛𝑏 = 𝑛𝑏,1exp𝐸𝑛𝑏𝑅𝑇0
𝑇0𝑇− 1 ; 𝑇0 = 318 𝐾
𝑛𝑚𝑎𝑥,𝑝 = 𝑛max,𝑝,1
exp 𝐾𝑐 +𝐾𝑑𝑇
1 + exp 𝐾𝑐 +𝐾𝑑𝑇
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Isotherm Model Comparison
RMSE=0.090 RMSE=0.067 RMSE=0.083
Weighted Dual-Site Langmuir I Modified Dual-Site Sips I Modified Dual-Site Sips II
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TGA Model Validation
𝑑𝑛
𝑑𝑡=𝑑𝑛𝑐ℎ𝑒𝑚𝑑𝑡
+𝑑𝑛𝑝ℎ𝑦𝑠
𝑑𝑡
𝑑𝑛𝑐ℎ𝑒𝑚𝑑𝑡
= 𝑘𝑐,0 exp−𝐸𝑐
𝑅𝑇𝑛𝑐ℎ𝑒𝑚∗ (𝑃, 𝑇) − 𝑛𝑐ℎ𝑒𝑚
𝑑𝑛𝑝ℎ𝑦𝑠
𝑑𝑡= 𝑘𝑝,0 exp
−𝐸𝑝
𝑅𝑇𝑛𝑝ℎ𝑦𝑠∗ (𝑃, 𝑇) − 𝑛𝑝ℎ𝑦𝑠
• Experimental data from LBNL
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• Diamine-Appended MOF Overview
• Challenges of the Appended MOF
• Isotherm/TGA Modeling
– Weighted Dual-Site Langmuir
– Dual-Site Sips
– TGA Model
• Fixed Bed Modeling
• Future Work
Outline
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Fixed Bed Modeling
18
• Dynamic, 1-D, non-isothermal model
• Incorporates external and internal mass transfer resistances
• Model will be updated when the information of the shaped particle is available
Bulk Gas Phase Species Balance
𝜀𝜕𝐶𝑔,𝑖
𝜕𝑡= −
𝜕 𝑣𝑔𝐶𝑔,𝑖
𝜕𝑧+ 𝜀
𝜕
𝜕𝑧𝐷𝑎𝑥
𝜕𝐶𝑔,𝑖
𝜕𝑧− 1 − 𝜀
3𝑘𝑓,𝑖
𝑎𝑝𝐶𝑔,𝑖 − ቚ𝐶𝑝,𝑖
𝑟=𝑟𝑝
Solid Phase Species Balance:
𝜀𝑝𝜕𝐶𝑝,𝑖𝜕𝑡
= − 1 − 𝜀𝑝 𝜌𝑝𝑑𝑛𝑖𝑑𝑡
+1
𝑟2𝜕
𝜕𝑟𝑟2𝐷𝑒𝑓𝑓,𝑖
𝜕𝐶𝑝,𝑖𝜕𝑟
𝑑𝑛𝑖𝑑𝑡
=𝑑𝑛𝑐ℎ𝑒𝑚,𝒊
𝑑𝑡+𝑑𝑛𝑝ℎ𝑦𝑠,𝒊
𝑑𝑡
𝑑𝑛𝑐ℎ𝑒𝑚,𝒊
𝑑𝑡= 𝑘𝑐,0 exp
−𝐸𝑐
𝑅𝑇𝑛𝑐ℎ𝑒𝑚,𝒊∗ (𝑃, 𝑇) − 𝑛𝑐ℎ𝑒𝑚,𝒊
𝑑𝑛𝑝ℎ𝑦𝑠,𝒊
𝑑𝑡= 𝑘𝑝,0 exp
−𝐸𝑝
𝑅𝑇𝑛𝑝ℎ𝑦𝑠,𝒊∗ (𝑃, 𝑇) − 𝑛𝑝ℎ𝑦𝑠,𝒊
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Fixed Bed Modeling
19
Bulk Gas Phase Energy Balance:
Pressure Drop:
−𝜕𝑃𝑔
𝜕𝑧=150 𝜇𝑔 1 − 𝜀 2𝑣𝑔
𝜀3 𝑑𝑝2 −
1.75 1 − 𝜀 𝜌𝑔 𝑣𝑔 𝑣𝑔
𝜀3 𝑑𝑝
𝜀𝜌𝑔𝜕𝐻𝑔
𝜕𝑡= −𝜌𝑔
𝜕 𝑣𝑔𝐻𝑔
𝜕𝑧− 1 − 𝜀 𝑎𝑝ℎ𝑓 𝑇𝑔 − 𝑇𝑠 −
4
𝐷𝑟ℎ𝑤 𝑇𝑔 − 𝑇𝑤
Bulk Solid Energy Balance:
𝜌𝑏𝜕𝐻𝑠𝜕𝑡
= 𝜌𝑏(−∆𝐻𝑖)𝑑𝑛𝑖𝑑𝑡
+ 𝑎𝑝ℎ𝑓 𝑇𝑔 − 𝑇𝑠 𝜌𝑤𝐶𝑝,𝑤𝜕𝑇𝑤𝜕𝑡
= 𝑎𝑤ℎ𝑤 𝑇𝑔 − 𝑇𝑤 − 𝑎𝑤1𝑈0 𝑇𝑤 − 𝑇∞
Wall Energy Balance:
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Model Validation
20
• Model Validation
• PDAEs solved using Aspen Custom Modeler using method of lines
• Experimental data from LBNL for the powdered material
Model Constants
Heat of Adsorption (kJ/mol) -65
Heat Capacity (J/g/oC) 1.457
Thermal Conductivity (W/m/K) 0.075
Heat Transfer Coefficient (W/m2/K) 50
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21
• Large temperature spikes due to high
heat of adsorption and poor heat removal
from the system
• Thermal management can
considerably increase performance
as seen by comparing isothermal
with non-isothermal cases for same
inlet conditions
• tb, isothermal = 80.4 min
• tb, non-isothermal = 22.7 min
Operating Conditions
Pressure (bar) 1.1
Temperature (°C) 25
Flow rate (mol/s) 120
yCO2 0.132
yH2O 0.055
yN2 0.813
Bed Length (m) 10
Bed Diameter (m) 3
Base Case
0
0.5
1
1.5
2
2.5
3
0 5 10 15 20 25 30
Lo
ad
ing (
mo
l/kg)
Time (min)
EntranceMiddleExit
25
30
35
40
45
50
55
60
65
70
0 5 10 15 20 25 30Te
mp
era
ture
(°C
)Time (min)
EntranceMiddleExit
0
0.2
0.4
0.6
0.8
1
0 20 40 60 80 100
C/C
0
Time (min)
Isothermal
Non-Isothermal
tb=22.7 min tb=80.4 min
Breakthrough time: 𝐹𝑖𝑛𝑧𝐶𝑂2,𝑖𝑛 ∗ 0.1 ∗ 𝑡𝑏 = σ𝑖=1𝑛 𝐹𝑜𝑢𝑡,𝑖 𝑧𝐶𝑂2,𝑜𝑢𝑡,𝑖∆𝑡
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22
Impact of Residence Time (superficial velocity)
Nonisothermal Isothermal
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• Diamine-Appended MOF Overview
• Challenges of the Appended MOF
• Isotherm/TGA Modeling
– Weighted Dual-Site Langmuir
– Dual-Site Sips
– TGA Model
• Fixed Bed Modeling
• Future Work
Outline
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• LBNL is setting up fixed bed experiments where the temperature measurements at three
different locations in a fixed bed system will be available. The process model will be
validated with that data. The process model will be used to predict the temperature at other
locations where there are no sensors.
• Adsorption Chemistry Modeling
– Physically meaningful isotherm model
– Multicomponent isotherm model with due consideration of presence of water
• Modeling mass transfer and heat transfer for the final shaped particle
• Determination of optimal step location
• Develop efficient thermal management strategies
• Optimal fixed bed design
• Process modeling and optimization of a rotary packed bed
• Process modeling and optimization of a moving bed
• Development of a CFD model for the fluidized bed contactor
Future Work
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Acknowledgements
25
• LBNL and UC, Berkley(Jeffrey Long, Stephanie Didas, Rebecca
Siegelman, Surya Parker, Alex Forse, Jeff Martell) for the
experimental data and support
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For more information
https://www.acceleratecarboncapture.org/
Debangsu Bhattacharyya
West Virginia University
Janine Carney
NETL