black liquor gasification design project gp wauna gasifier design justin aldrich, adam cooper, khoa...
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![Page 1: Black Liquor Gasification Design Project GP Wauna Gasifier Design Justin Aldrich, Adam Cooper, Khoa Hua, Jim Jollimore Mill Integration Sean Noste, Steve](https://reader034.vdocuments.mx/reader034/viewer/2022042821/56649cf95503460f949cad75/html5/thumbnails/1.jpg)
Black Liquor Gasification Design Project
GP Wauna
Gasifier DesignJustin Aldrich, Adam Cooper, Khoa Hua, Jim Jollimore
Mill IntegrationSean Noste, Steve Ross, John Salvatier, Peter Siedenburg, Nilar Thein-chen
EnvironmentalCody Hargrove, Sonha Pham, Claire Schairbaum, Larissa Zuk
EconomicsDarrow Conley, Ryan McMahon, Vinh Nguyen, Suzy Quach
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Agenda
Gasifier Design
Mill Integration
Environmental
Economics
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High Temperature Gasification
Image Source: http://www.eng.utah.edu/~whitty/blackliquor/colloquium2003/pdfs_handouts/5.6.Lindblom-Chemrec_Handout.pdf
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High Temperature Gasification
Syngas Properties:Heating Value
Sulfur
Low Temp Gasifier
High Temp Gasifier
Natural Gas
Higher Heating Value (MJ/kg)
20.95 9.32 42.5
Low Temp Gasifier
High Temp Gasifier
H2S in Syngas
(%mol)2.250 1.737
H2S in Syngas values from Larson 2003.
Gasifier values from Larson 2003. Natural gas value from Wikipedia.
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High Temperature Gasification
Effect on Causticization Load
ReliabilityWeyerhauser, New Bern, Chemrec Booster 1996.
Low Temp Gasifier
High Temp Gasifier
High Temp Booster
Sulfur (%) ~90% ~50% ~15%
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Low Temperature: Pros
Low TemperatureBetter return on energy
Ease of getting chemicals backH2S is in a gaseous form
Proven system that is currently runningNorampac Trenton Ontario
Use heat to produce needed steam and electricity
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Low Temperature: Con
Need additional equipment to recover Chemicals Air scrubbers to recover SO2
Higher initial cost than High Temp ~32% higher initial startup
cost
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Trim Cooler
Raw Syngas, 40°C
2 Stage Gas
Cooler orHeat
Exchanger
O2 Plant
High Temp
Gasifier1000°C35 bar
165 TPD
GL CondHX
SelexolAbsorber
40 °C~30 bar
SelexolStripper40 °C
~30 bar
To Lime Kiln
BL Solids @ 67% Solids
Air, 20°C
Vent
Cooled Green Liquor132°C
Cooling Water
200°C35 bar
Raw Syngas
Raw Syngas, 122°C
Clean Syngas
40°C~30 Bar
LP Steam
WL Scrubber
H2S and CO2
High Sulfidity White Liquor
95% O2, 20°C
LP Steam?
Cooling Water?
White Liquor
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Raw Syngas, 40°C
Raw Syngas, 600°C
Trim Cooler
SelexolAbsorber
40 °C~25 bar
SelexolStripper40 °C
~25 bar
Clean Syngas
40°C
LP Steam
WL Scrubber
H2S and CO2
High Sulfidity White LiquorOr Green Liquor
White Liquor
Low Temp
Gasifier650°C1.2 bar
165 TPD
Low Pressure
Superheater
BL Solids @ 67% Solids
Mix Tank & Filter
Na2CO3
Dregs
Clean Syngas
PC Heater Flue Gas
HX
Steam
Superheated Steam
Heat Exchanger
Cooling Water
LP Steam or Warm Water
Compressor
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Claus PlantConverts H2S gas into elemental sulfur
Has two parts: thermal stage and catalytic stages
Operates at moderate temperatures (340° C to 200° C)
Uses Titanium Dioxide or Alumina as a catalyst94 to 97% efficiency depending on the number
of catalytic stages
2H2S + O2 → S2 +2H2O
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Liquor Scrubbing
Product gas stream contains CO2 and H2SScrubbing CO2 generates Na2CO3 which increase the
lime kiln load
Use the NaOH in the liquor to regain the pulping chemical Na2S
85% efficiency at sulfur recoveryH2S + 2NaOH → Na2S + 2H2O
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CrystaSulf
Uses SO2 to convert H2S into elemental sulfur
Operates at lower temperatures (170 °C)Claims to be more economical for 0.2 to 30
LTPD H2S flows
Uses hydrocarbons and amines as catalysts 2H2S + SO2 → ⅜ S8 + 2H2O + 33kcal/gmole
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Mill Integration: Objective
Energy and Mass Balance on Process
Create WinGEMS Model
Determine Impact of Gasifier
Effect of Burning Syngas in Lime Kiln
Transportation of Syngas
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Schematic from Wauna Mill
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Steam Balance CalculationSteam Usage KPPHEvaporators 83Concentrator 39PM 1,2 36PM 5 32PM 6,7 23Bleach Plant 90Recaust 18Kamyr 54M&D Sawd 38Total 413
Steam Produced KPPHRecovery Boiler 431Power Boiler 91Fluidized Bed Boiler 106
Total 628Total From PPT 557
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Calculation Comparison
According to Mill
Our Calculations
Extra Steam (KPPH)
50 144
Black Liquor, Redirected(Mlbs/hr of black liquor solids)
13.8 38.51
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WinGEMS Full Mill
Created By Pacific Simulation
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WinGEMS Modification
Wood chips
420 od st/day
0 gal total/min0 cons%
0 gal total/min0 cons%
0 gal total/min0 %mass
0 gal total/min0 cons%
0 mt/hr-14.7 psig
Pulp yield: 0 %
1800 gal total/min
0 gal total/min0 %mass
Blackliquor
626 gal total/min
Slaker
Lime Kiln Mudwasher
White liquorclarifier
0 od st/day0 gal total/min0 g/l as NaOH EA
1000 od st/day
0 gal total/min
CondensateBL spills Talloil
Mak
eup
chem
ical
s
Air
Green liquorclarifier
Smelt
Filtrate
1300 gal total/min
Weakblackliquor
EA: 0 g/l as NaOHSulfidity: 0 %0 gal total/min
0 gal total/minTTA: 0 g/l as NaOH
Grits
Flue gas
Toscrubber
Spent acid
ScrubberSpills
Wood chips
CaOMake-Up
Brownstockwashers
Strong black liquor
Digesterflash steam
Evaporators
Showerwater
Fresh watermakeup
Mud washer and filter filtrates
Kraft Pulp Mill and Recovery
Flashtank
Flashtank
Chippresteam
Washzone
CO
NT
INU
OU
S D
IGE
ST
ER
Fresh shower water
White liquor
Unbleached pulp
RecoveryBoiler
SDT
Weak wash to SDT
Lime
AirLost
lime dust
Weak wash
Clarified white liquor
Fuel
Fluegas
MakeupNaOH
Makeupchemicalsto mix tank
White liquorto digesters
Clarified green liquor
Dregs
Steamvents
Recoveredsulfur
Stream 59 flow is manipulated toachieve a TTA of 130 g/l as NaOHin the green liquor, stream 50.
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Burning Syngas in Lime Kiln
Combustion in kiln and TADsSulfur needs to be scrubbed from syngasSend scrubbed sulfur to kiln for recovery
Combustion in kiln onlyNo need to scrub sulfur from syngas
Potential increase in ball and ring formation from sulfur
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Transportation of SyngasHydrogen is main component in syngasAmount of carbon in steel decreases when in
contact with hydrogen creating pocketsMethane forms in pockets inside the steel
causing steel to become brittleChoice of material is very important
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Mill Integration: Conclusion
Modified WinGEMs Simulation AdequatelyFuture comparison of High and Low Temp
Using WinGEMSComparing chemical balancesSteam balanceLoad on lime kilnOptimal use of syngas
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Air Emissions Black liquor gasifier system should have low air
emissions including:CO2 (Carbon Dioxide)SO2 (Sulfur Dioxide)NOX (Nitride Oxides)VOCs (volatile organic compounds)TRS emissions (Total Reduced Sulfur)
A lot of contaminant removal is required to recover the pulping chemicals from the gas
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Air Emissions: High Temp vs. Low Temp
3.439 tpd (averaged from over a year)
2.507 tpd (averaged from over a year)
0.017 tpd (averaged from over a year)
Emissions (Low T) Emissions (High T)
0.014 tpd (averaged from over a year)
0.074 tpd (averaged from over a year)
3.014 tpd (averaged from over a year)
2.807 tpd (averaged from over a year)
0.275 tpd (averaged from over a year)
0.238 tpd (averaged from over a year)
Pollutant/Parameter
1.402 tpd (averaged from over a year)
1.272 tpd (averaged from over a year)
0.088 tpd (averaged from over a year)
SO2
TRS
PM
NOX
VOC
CO
Figure 1. Emissions estimated for low temperature and high temperature gasifiers. The values were calculated using a 353 day operating schedule per year. Source: Larson, E.D., & Consonni, S., & Katofsky, R.E. (2003). A Cost-Benefit Assessment of Biomass Gasification
Power Generation in the Pulp and Paper Industry.
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Air Emissions: Mill Limits
Figure 2. These are emission standards for the Georgia-Pacific mill in Wauna. Source: Oregon Department of Environmental Quality. (2005). Oregon Title V Operating Permit (Permit Number 04-0004). Portland, OR.
0.218 tpd (averaged from over a year)
NOX
VOC
CO
4.266 tpd (averaged from over a year)
5.147 tpd (averaged from over a year)
2.317 tpd (averaged from over a year)
6.133 tpd (averaged from over a year)
13.78 tpd (averaged from over a year)
Pollutant/ParameterTRS
Limit
PM
SO2
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Water Emissions & Usage Two water issues associated with the addition of gasifier:
Water Usage Thermal Pollution
Secondary treatment facility has a maximum capacity of 42 million gal/day.
In 2007, GP Wauna averaged 27.3 million gal/day. There is no way the gasifier will cause the mill to
increase its water consumption by 15 million gal/day.
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Thermal Pollution
Maximum allowable discharge temperature from secondary treatment plant is 20 °C.
In 2007, GP Wauna’s secondary treatment was fed waste water at a temperature of 29.3 °C.
The addition of 7.2 million gpd at 40 °C from the gasifier could potentially raise the temperature of the discharge waste water stream by 2 °C.
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Syngas ExposureCarbon Monoxide – PEL 50 ppm
EXTREMELY toxicFlammable
Hydrogen – No PELNot toxic; excessive exposure may lead to
asphyxiationEXTREMELY flammable
Carbon Dioxide – PEL 5,000 ppmToxic
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Syngas StorageStore in well ventilated areas.Store where temperature is less than 50 °CRemove sparking and ignition hazardsStainless steel is satisfactory
• Risk of embrittlement with hydrogen• Syngas is not pure hydrogen, so
embrittlement risk is minimal
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Natural Gas Usage
Natural gas
(Therms/year)Total CO2 Emissions
(metric tons/year)
Lim Kiln 4,029,600 3,641
PM 1,2 1,825,000 1,649
PM 5 4,197,500 3,792
PM 6 8,030,000 7,255
PM 7 9,125,000 8,244
Bed Boiler 1,314,000 1,187
LVHC 36,500 33
Total 28,557,600 25,802
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Raw Syngas Component
Component Volume %
CO 13.1
H2 13.7
CH4 0.75
H2O 63.7
CO2 7.6
H2S 0.67
COS 0.03
N2 0.14
Ar 0.37
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Raw Syngas Produced
BL enter Gasifer
(dry lbs/hour)Raw Syngas
(kg/year)Raw Syngas
(Therms/year)Natural Gas Needed
(Therms/year)
High Temp 13800 84,738,715 7,485,923 21,071,677
Low Temp 13800 110,549,826 21,952,785 6,604,815
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CO2 Produced
Syngas
(Therms/year)Syngas (kg/year)
CO(kg/year)
CO2 (kg/year)
CO2 (metric
tons/year)
Natural Gas High
21,071,677 52,307,341 29,889,909 19,038,159 19,038
Syngas High 7,485,923 18,582,702 2,415,751 2,950,980 2,951
Total 21,989
Natural Gas Low 6,604,815 16,395,481 9,368,846 5,967,418 5,967
Syngas Low 1,952,785 54,494,561 7,084,293 8,653,875 8,654
Total 14,621
Natural Gas only 28,557,600 70,890,042 40,508,596 25,801,653 25,802
Total 25,802
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Social ImpactBenefit
Improve the economics Greenhouse gases reduction
Lower net emission of CO2
Possible downsideWater thermal discharge
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Economics: Agenda Major Equipment Summary of Calculation Capital Cost Analysis Cost Reduction Conclusions
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Major Equipment and Components
Gasifier Air Separation Unit Sulfur Recovery Unit (SRU)
Selexol/RectisolGreen Liquor Scrubber
Gas Cooler (Heat Exchangers)
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Summary of Calculation
Capital cost adapted from Eric Larson’s A Cost-Benefit Assessment of
Biomass Gasification Power Generation in the Pulp and Paper Industry
Adjustment made with High Temp
2002$ inflated to 2008$
Scaled to Wauna specifications using 6-tenths factor
2576.8 tons BL/day 165.6 tons BL/day
Lang factor used to estimate indirect costs from direct costs
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Capital Cost AnalysisCost From Larson Article $ Million $ MillionDirect Cost Low Temp High TempGasifier Island and Green Liquor Filter 9.680 11.607Air Separation Unit 7.935Process gas handling 6.997Gas clean up and sulfur recovery 9.713 3.188Auxiliaries 1.321Total Direct 27.711 22.729
Indirect costConstruction Indirect 5.607 1.821Sales Tax, Customs, Duties 0.134Engineering 5.860 1.812Contingency 3.618 2.525EscalationSpare Parts 1.299 1.239Licensing Fee 0.081Owner's Costs 2.914 2.513Total Indirect 19.380 10.043
Total Installed 47.090 32.772
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Cost Reduction AnalysisLow Temp High Temp
Flow Syngas (kg/s) 23.76 24.24
Heating value (MJ/kg) 20.95 9.32
NG Heating Value (MJ/kg) 42.50 42.50
Syngas Energy Production (Therm/Day) 407,632 185,006
NG replacement (Therm/Day) 9,591.55 4,353.18
Savings by using Syngas ($ Million/Yr) 3.081 1.398
Total Installed ($ Million) 87.966 66.300
ROI (%) 6.54 4.27
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ConclusionsLow Temp Gasification
Higher up front costHigher ROIBetter at replacing natural gas with Syngas
High Temp Gasification Lower up front costLower ROI
Consult with design teamStability against Natural Gas Increase
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Questions