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Affordable, Low-Carbon Diesel Fuelfrom Domestic Coal and Biomass
2008 Gasification Technologies Conference2008 Gasification Technologies ConferenceOctober 5th – 8th, 2008
Thomas J Tarka PE
GTC 2008, October 5th-8th, 2008
Thomas J. Tarka, PEOffice of Systems, Analyses, and Planning (OSAP)National Energy Technology Laboratory (NETL), US DOE
Coal and Biomass to Diesel FuelOverviewOverview
CBTL Presentation Outline• Background & Context
• Study Goals• Study Goals• Strategic Issues
• Methodology• Plant ConfigurationPlant Configuration• Economic Assumptions• GHG Accounting
• Results• FT Diesel GHG Profile• Capital Costs• Effects of Carbon Pricing on Economics
S mmar• Summary
2
Coal and Biomass to Diesel FuelOverviewOverview
CBTL Presentation Outline• Background & Context
• Study Goals• Study Goals• Strategic Issues
• Methodology• Plant ConfigurationPlant Configuration• Economic Assumptions• GHG Accounting
• Results Terminology• FT Diesel GHG Profile• Capital Costs• Effects of Carbon Pricing on Economics
S mmar
TerminologyCoal to Liquids (CTL)Coal and Biomass to Liquids (CBTL)Biomass to Liquids (BTL)
• SummaryCCS = Carbon Capture and StorageATR = Auto-Thermal Reformer
3
Coal and Biomass to Diesel FuelStudy Goals…Study Goals…
Affordable Low-Carbon Diesel Fuel from Domestic Coal and BiomassAffordable, Low-Carbon Diesel Fuel from Domestic Coal and Biomass
4
Coal and Biomass to Diesel FuelStudy Goals…Study Goals…
Affordable Low-Carbon Diesel Fuel from Domestic Coal and BiomassAffordable, Low-Carbon Diesel Fuel from Domestic Coal and Biomass
“Affordable”AffordableComparable inprice to today’s
fuels and projectedfuture pricesfuture prices
5
Coal and Biomass to Diesel FuelStudy Goals…Study Goals…
Affordable Low-Carbon Diesel Fuel from Domestic Coal and BiomassAffordable, Low-Carbon Diesel Fuel from Domestic Coal and Biomass
“Affordable” “L C b ”AffordableComparable inprice to today’s
fuels and projectedfuture prices
“Low-Carbon”Having life-cycle GHGemissions similar to or
below petroleum-d i d di lfuture prices derived diesel
6
Coal and Biomass to Diesel FuelStudy Goals…Study Goals…
Affordable Low-Carbon Diesel Fuel from Domestic Coal and BiomassAffordable, Low-Carbon Diesel Fuel from Domestic Coal and Biomass
“Affordable” “L C b ” “D ti C l d Bi ”AffordableComparable inprice to today’s
fuels and projectedfuture prices
“Low-Carbon”Having life-cycle GHGemissions similar to or
below petroleum-d i d di l
“Domestic Coal and Biomass”Fuels are produced from
domestically available feedstocks. future prices derived diesel
7
Coal and Biomass to Diesel FuelStudy Goals…Study Goals…
Affordable Low-Carbon Diesel Fuel from Domestic Coal and BiomassAffordable, Low-Carbon Diesel Fuel from Domestic Coal and Biomass
“Affordable” “L C b ” “D ti C l d Bi ”AffordableComparable inprice to today’s
fuels and projectedfuture prices
“Low-Carbon”Having life-cycle GHGemissions similar to or
below petroleum-d i d di l
“Domestic Coal and Biomass”Fuels are produced from
domestically available feedstocksfuture prices derived diesel
E iE iEnergyEnergy
EconomicEconomicSustainabilitySustainability ClimateClimate
ChangeChange
gygySupplySupply
SecuritySecurity
8
Coal and Biomass to Diesel FuelStudy Goals…Study Goals…
Affordable Low-Carbon Diesel Fuel from Domestic Coal and BiomassAffordable, Low-Carbon Diesel Fuel from Domestic Coal and Biomass
“Affordable” “L C b ” “D ti C l d Bi ”AffordableComparable inprice to today’s
fuels and projectedfuture prices
“Low-Carbon”Having life-cycle GHGemissions similar to or
below petroleum-d i d di l
“Domestic Coal and Biomass”Fuels are produced from
domestically available feedstocksfuture prices derived diesel
E iE iEnergyEnergy E iE iEconomicEconomic
SustainabilitySustainability ClimateClimateChangeChange
gygySupplySupply
SecuritySecurity
EconomicEconomicSustainabilitySustainability
9
Energy Strategy Complexity
Economic Economic SustainabilitySustainabilityyy
Energy Energy Supply Supply Climate Climate
ChangeChangepp ypp ySecuritySecurity ChangeChange
10
Energy Strategy Complexity
Economic Economic SustainabilitySustainability
Energy Supply Security- 12 MMbpd of imports- 66% of our refinery inputs yy
Energy Energy Supply Supply Climate Climate
ChangeChangepp ypp ySecuritySecurity ChangeChange
11
Energy Strategy Complexity
Economic Sustainability- Oil is up 75% from Jan07
+ $326B sent off-shore in 2007+ $360B already spent as of July
Economic Economic SustainabilitySustainability
$ y p y- Businesses hit hardest
+ Inelastic demand in diesel/jet+ Refining capacity limitations
yy
Energy Energy Supply Supply Climate Climate
ChangeChangepp ypp ySecuritySecurity ChangeChange
12
Energy Strategy Complexity
Climate Change- Highest GHG emissions
Economic Economic SustainabilitySustainability
Highest GHG emissions of any sector
- No easy way to reduce emissions from existinginfrastructure: + S ll i t
yy+ Small point sources+ Dilute gas
Energy Energy Supply Supply Climate Climate
ChangeChangepp ypp ySecuritySecurity ChangeChange
13
Energy Strategy Complexity
Economic Economic SustainabilitySustainability
Aiming for Balanced Solutionsyy
Energy Energy Supply Supply Climate Climate
ChangeChangepp ypp ySecuritySecurity ChangeChange
14
MethodologyPl t C fi ti• Plant Configurations
• Economic Terminology & Assumptions
• GHG Accounting
15
Coal and Biomass to Diesel FuelPlant ConfigurationsPlant Configurations
10 Plant ConfigurationsCoal to Liquids (CTL)Coal and Biomass to Liquids (CBTL)Biomass to Liquids (BTL)
CCS = Carbon Capture and StorageATR = Auto-Thermal Reformer Configuration Notes
• 50,000 bpd maximum plant size
• Max Biomass Feed: 4,000 dry tons per dayMarginal land only: Food Crops Not Displaced30-50 mile collection radiusNo soil/root carbon
CO Capture• Fuels Production Maximized
Zero Excess Power ProducedRecycle Configuration
CO2 Capture• CCS → >90% CO2 Capture
• CCS+ATR → >95% CO2 Capture
16
Economic MethodologyTerminology & AssumptionsTerminology & Assumptions
• Required Selling Price (RSP)• Price diesel fuel product must be sold at to cover costs• Price diesel fuel product must be sold at to cover costs
• Operating Costs• Debt Service• Repay Investors (20% IRROE)
17
Economic MethodologyTerminology & AssumptionsTerminology & Assumptions
• Required Selling Price (RSP)• Price diesel fuel product must be sold at to cover costs• Price diesel fuel product must be sold at to cover costs
• Operating Costs• Debt Service• Repay Investors (20% IRROE)
• Crude Oil Equivalent Price (COE)• Diesel market price defined by petroleum-derived diesel,
and therefore crude oil
• Historically, the price ratio of ultra-low sulfur petroleum diesel (ULSD) is sold for 125% the price of crude oil
• By-product Sales• Naphtha by-product market price is 77% of diesel price
18
Financing Scenarios for xTL Plants• Coal-based projects are unlikely to be financed in the near-termCoal based projects are unlikely to be financed in the near term
– Carbon regulatory uncertainty– Oil price uncertainty– Technical uncertainty
3 d 4th f ki d l t till id d i k• 3rd or 4th of a kind plant still considered risky– Require “High Risk” Financing – Fuels market has high level of uncertainty– Carbon regulation has passed, removing regulatory risk
• Government incentives can significant mitigate risks– Extend Debt Term and reduce interest rates– Applicable incentives already in place in EPACT 2005 and CCPI
Near-Term:100% Equity
Mid-Term: No Incentives
Mid-Term: Gov’t Incentives2
Debt/Equity Ratio 0 50/50 60/40
Debt Term1 n/a 15 years 25 years
Interest Rate n/a 9.5% 7.5%
IRROE 20% 20% 20%
19
1 Economic life of the plant is assumed to be 30 years.2 This is the NETL reference case.
Climate ChangePetroleum-Derived Diesel GHG EmissionsPetroleum Derived Diesel GHG Emissions
Crude Oil Extraction &
TransportationVehicle Transportation7%
Refining
Operation83%
9%
Transportation & Distribution
1%1%
Source: GREET 1.8b set at Year 2005
20
Climate ChangeEffects of GHG Regulation on EconomicsEffects of GHG Regulation on Economics
• Hypothetical Carbon Trading Scheme• Petroleum derived diesel is used as a reference case for emissions• Petroleum-derived diesel is used as a reference case for emissions
• FT diesel price is affected by life-cycle emissions of the fuel
C b dit i f di l f l ith d d i i• Carbon credit given for diesel fuel with reduced emissions Reduces RSP
• Carbon debit charged if emissions are greater than petroleum-dieselI RSPIncreases RSP
• NOTE: Price of petroleum-derived products are not affected (baseline)
L C b F l St d d (LCFS)• Low-Carbon Fuel Standard (LCFS)
21
Results
22
Emissions of CBTL Plants Compared to Petroleum DieselPetroleum Diesel
)- 7
4%
%), -
40%
%CTL w/o CCS, +152%
300%
ssio
ns
w/ CCS+A
TR, -
364%
w/ CCS, -
324%
/o C
CS, - 98
%
L w/CCS+
ATR (3
0wt%
),
L w/ CCS+A
TR (1
5wt%
),
L w/ CCS (1
5wt%
), -31
%
w/ CCS+A
TR, -
10%
w/ CCS, -2
%
,
100%
200%
iese
l GH
G E
mis
BTL w
/
BTL w
/
BTL w
/o
CBTL w
CBTL w
CBTL
CTL w
CTL w
100%
0%
05 P
etro
leum
Di
-200%
-100%
hang
e fr
om 2
00
400%
-300%
Perc
enta
ge C
h
23
-400%Source for Petroleum-derived diesel: GREET 1.8b, 2005 base year
Emissions of CBTL Plants Compared to Petroleum DieselPetroleum Diesel
)- 7
4%
%), -
40%
%CTL w/o CCS, +152%
300%
ssio
ns
w/ CCS+A
TR, -
364%
w/ CCS, -
324%
/o C
CS, - 98
%
L w/CCS+
ATR (3
0wt%
),
L w/ CCS+A
TR (1
5wt%
),
L w/ CCS (1
5wt%
), -31
%
w/ CCS+A
TR, -
10%
w/ CCS, -2
%
,
100%
200%
iese
l GH
G E
mis
BTL w
/
BTL w
/
BTL w
/o
CBTL w
CBTL w
CBTL
CTL w
CTL w
100%
0%
05 P
etro
leum
Di
-200%
-100%
hang
e fr
om 2
00
Adding CCS brings
400%
-300%
Perc
enta
ge C
h
CTL 2-10% below
Petroleum diesel
24
-400%Source for Petroleum-derived diesel: GREET 1.8b, 2005 base year
Emissions of CBTL Plants Compared to Petroleum DieselPetroleum Diesel
)- 7
4%
%), -
40%
%CTL w/o CCS, +152%
300%
ssio
ns
w/ CCS+A
TR, -
364%
w/ CCS, -
324%
/o C
CS, - 98
%
L w/CCS+
ATR (3
0wt%
),
L w/ CCS+A
TR (1
5wt%
),
L w/ CCS (1
5wt%
), -31
%
w/ CCS+A
TR, -
10%
w/ CCS, -2
%
,
100%
200%
iese
l GH
G E
mis
BTL w
/
BTL w
/
BTL w
/o
CBTL w
CBTL w
CBTL
CTL w
CTL w
100%
0%
05 P
etro
leum
Di
-200%
-100%
hang
e fr
om 2
00
400%
-300%
Perc
enta
ge C
h
Adding up to 30 wt% biomass brings CBTL 74% below petroleum diesel
25
-400%Source for Petroleum-derived diesel: GREET 1.8b, 2005 base year
Emissions of CBTL Plants Compared to Petroleum DieselPetroleum Diesel
)- 7
4%
%), -
40%
%CTL w/o CCS, +152%
300%
ssio
ns
w/ CCS+A
TR, -
364%
w/ CCS, -
324%
/o C
CS, - 98
%
L w/CCS+
ATR (3
0wt%
),
L w/ CCS+A
TR (1
5wt%
),
L w/ CCS (1
5wt%
), -31
%
w/ CCS+A
TR, -
10%
w/ CCS, -2
%
,
100%
200%
iese
l GH
G E
mis
BTL w
/
BTL w
/
BTL w
/o
CBTL w
CBTL w
CBTL
CTL w
CTL w
100%
0%
05 P
etro
leum
Di
-200%
-100%
hang
e fr
om 2
00
400%
-300%
Perc
enta
ge C
h
BTL with CCS is 300+% below petroleum diesel
26
-400%Source for Petroleum-derived diesel: GREET 1.8b, 2005 base year
Required Selling Price for Diesel Product
210
230
250bb
l
100% SG, no CCS, 5k bpd, -110%
100% Coal, no CCS, 50k bpd, +152%
D/E 60/40 I t 7 5%
170
190
210
ice,
Jan
-08
$/b D/E=60/40; Int.=7.5%;
Term=25 yrs.;IRROE=20%
130
150
170
Cru
de O
il Pr
i
90
110
130
Equi
vale
nt
CTL and BTL without CCS
70
90
0 50 100 150 200 250Credit/Debit for Life-Cycle GHG Emissions Below/Above Petroleum Baseline,
27
y ,Jan-08 $/metric ton CO2-equivalent
Required Selling Price for Diesel Product
210
230
250bb
l
100% SG, no CCS, 5k bpd, -110%
100% Coal, no CCS, 50k bpd, +152%
D/E 60/40 I t 7 5%
When the GHG emission value is zero, BTL isn’t feasible until oil is well
170
190
210
ice,
Jan
-08
$/b D/E=60/40; Int.=7.5%;
Term=25 yrs.;IRROE=20%
over $200/bbl.
130
150
170
Cru
de O
il Pr
i
90
110
130
Equi
vale
nt
CTL is feasible when
70
90
0 50 100 150 200 250Credit/Debit for Life-Cycle GHG Emissions Below/Above Petroleum Baseline,
CTL is feasible when oil exceeds $84/bbl.
28
y ,Jan-08 $/metric ton CO2-equivalent
Required Selling Price for Diesel Product
210
230
250bb
l100% SG, no CCS, 5k bpd, -110%
100% SG, CCS, 5k bpd, -324%
100% SG, CCS+ATR, 5k bpd, -364%
100% Coal, no CCS, 50k bpd, +152%
170
190
210
ce, J
an-0
8 $/
b , , p ,
D/E=60/40; Int.=7.5%; Term=25 yrs.;IRROE=20%
Adding CCS and an ATR to the BTL case d lif l GHG i i t l l
130
150
170
Cru
de O
il Pr
i reduces life-cycle GHG emissions to a level 364% below the petroleum baseline. But it is not economically preferred until the GHG
emission value exceeds $95/tonne.
90
110
130
Equi
vale
nt
70
90
0 50 100 150 200 250Credit/Debit for Life-Cycle GHG Emissions Below/Above Petroleum Baseline,
29
y ,Jan-08 $/metric ton CO2-equivalent
120
Required Selling Price for Diesel Product
110
/bbl
100% SG, CCS+ATR, 5k bpd, -364%
100% Coal, no CCS, 50k bpd, +152%
100% Coal, CCS, 50k bpd, -2%
D/E 60/40 I t 7 5%
100
rice,
Jan
-08
$/ D/E=60/40; Int.=7.5%; Term=25 yrs.;IRROE=20%When the option of
CTL+CCS is added, it becomes economically
90
Cru
de O
il Pr
becomes economically preferred when the GHG
emission value is between $5 and $135/tonne.
80
Equi
vale
nt
700 50 100 150 200 250
Credit/Debit for Life-Cycle GHGEmissions Below/Above PetroleumBaseline,
30
Credit/Debit for Life Cycle GHG Emissions Below/Above Petroleum Baseline, Jan-08 $/metric ton CO2-equivalent
120
Required Selling Price for Diesel Product
110
/bbl
100% SG, CCS+ATR, 5k bpd, -364%
100% Coal, no CCS, 50k bpd, +152%
100% Coal, CCS, 50k bpd, -2%
D/E 60/40 I t 7 5%
100
rice,
Jan
-08
$/ D/E=60/40; Int.=7.5%; Term=25 yrs.;IRROE=20%Adding CCS increases the
RSP by only $2/bbl (to $84/bbl) while reducing life cycle GHG
90
Cru
de O
il Pr while reducing life-cycle GHG
emissions to a level that is 2% less than the petroleum
baseline.
80
Equi
vale
nt
700 50 100 150 200 250
Credit/Debit for Life-Cycle GHGEmissions Below/Above PetroleumBaseline,
31
Credit/Debit for Life Cycle GHG Emissions Below/Above Petroleum Baseline, Jan-08 $/metric ton CO2-equivalent
120100% SG CCS ATR 5k b d 364%
Required Selling Price for Diesel Product
110
$/bb
l
100% SG, CCS+ATR, 5k bpd, -364%
100% Coal, no CCS, 50k bpd, +152%
100% Coal, CCS, 50k bpd, -2%
100% Coal, CCS+ATR, 50k bpd, -10%
100
rice,
Jan
-08
$
D/E=60/40; Int.=7.5%; Term=25 yrs.;IRROE=20%
Adding an ATR reduces GHG emissions to a level 10% below the petroleum baseline but is not an
90
t Cru
de O
il Pr petroleum baseline, but is not an
economically preferred option.
80
Equi
vale
nt
700 50 100 150 200 250
Credit/Debit for Life-Cycle GHG Emissions Below/Above Petroleum Baseline,
32
y ,Jan-08 $/metric ton CO2-equivalent
120% SG CCS %
Required Selling Price for Diesel Product
110
/bbl
100% SG, CCS+ATR, 5k bpd, -364%
100% Coal, no CCS, 50k bpd, +152%
100% Coal, CCS, 50k bpd, -2%
15 wt% SG, CCS, 50k bpd, -31%
100
rice,
Jan
-08
$/
30 wt% SG, CCS, 30k bpd, -61%
D/E=60/40; Int.=7.5%; Term=25 yrs.;IRROE=20%
CBTL+CCS:
30 wt%
90
Cru
de O
il Pr 15 wt%
80
Equi
vale
nt
700 50 100 150 200 250
Credit/Debit for Life-Cycle GHGEmissions Below/Above PetroleumBaseline,
33
Credit/Debit for Life Cycle GHG Emissions Below/Above Petroleum Baseline, Jan-08 $/metric ton CO2-equivalent
120% SG CCS %
Required Selling Price for Diesel Product
110
/bbl
100% SG, CCS+ATR, 5k bpd, -364%
100% Coal, no CCS, 50k bpd, +152%
100% Coal, CCS, 50k bpd, -2%
15 wt% SG, CCS, 50k bpd, -31%15 wt% reduces life-cycle
100
rice,
Jan
-08
$/
30 wt% SG, CCS, 30k bpd, -61%
D/E=60/40; Int.=7.5%; Term=25 yrs.;IRROE=20%
15 wt% reduces life-cycle GHG emissions to a level 31% below the petroleum baseline and is feasible
$ /
90
Cru
de O
il Pr when oil exceeds $93/bbl.
80
Equi
vale
nt
700 50 100 150 200 250
Credit/Debit for Life-Cycle GHGEmissions Below/Above PetroleumBaseline,
34
Credit/Debit for Life Cycle GHG Emissions Below/Above Petroleum Baseline, Jan-08 $/metric ton CO2-equivalent
120% SG CCS %
Required Selling Price for Diesel Product
110
/bbl
100% SG, CCS+ATR, 5k bpd, -364%
100% Coal, no CCS, 50k bpd, +152%
100% Coal, CCS, 50k bpd, -2%
15 wt% SG, CCS, 50k bpd, -31%
100
rice,
Jan
-08
$/
30 wt% SG, CCS, 30k bpd, -61%
D/E=60/40; Int.=7.5%; Term=25 yrs.;IRROE=20%
The 15wt% CBTL+CCS ti i i ll
90
Cru
de O
il Pr option is economically
preferred when the GHG emission value is between
$100 and $140/tonne.
80
Equi
vale
nt
700 50 100 150 200 250
Credit/Debit for Life-Cycle GHGEmissions Below/Above PetroleumBaseline,
35
Credit/Debit for Life Cycle GHG Emissions Below/Above Petroleum Baseline, Jan-08 $/metric ton CO2-equivalent
120% SG CCS %
Required Selling Price for Diesel Product
110
/bbl
100% SG, CCS+ATR, 5k bpd, -364%
100% Coal, no CCS, 50k bpd, +152%
100% Coal, CCS, 50k bpd, -2%
15 wt% SG, CCS, 50k bpd, -31%
100
rice,
Jan
-08
$/
30 wt% SG, CCS, 30k bpd, -61%
D/E=60/40; Int.=7.5%; Term=25 yrs.;IRROE=20%
30 wt% reduces life-cycle GHG emissions to a level 61%
90
Cru
de O
il Pr below the petroleum baseline
but is not an economically preferred option
80
Equi
vale
nt
700 50 100 150 200 250
Credit/Debit for Life-Cycle GHGEmissions Below/Above PetroleumBaseline,
36
Credit/Debit for Life Cycle GHG Emissions Below/Above Petroleum Baseline, Jan-08 $/metric ton CO2-equivalent
120100% SG CCS+ATR 5k bpd 364%
Required Selling Price for Diesel Product
110
$/bb
l
100% SG, CCS+ATR, 5k bpd, -364%
15 wt% SG, CCS, 50k bpd, -31%
9 wt% SG, CCS, 50k bpd, -20%
D/E=60/40; Int.=7.5%;
100
rice,
Jan
-08
$ Term=25 yrs.;IRROE=20%
If a low-carbon fuel standard mandated a 20% life-cycle GHG emission reduction, all the
90
t Cru
de O
il Pr
life cycle GHG emission reduction, all the coal-only options would be eliminated.
80
Equi
vale
nt
700 50 100 150 200 250
Credit/Debit for Life-Cycle GHGEmissions Below/Above PetroleumBaseline,
37
Credit/Debit for Life Cycle GHG Emissions Below/Above Petroleum Baseline, Jan-08 $/metric ton CO2-equivalent
Summary of Economic Analysis
• CTL without CCS is the economically preferred alternative when GHG emission values are less than $5/metric ton of CO2-equiv.CO2 equiv.
• CTL is economically feasible over this range of GHG emission values when crude oil prices are $84/bbl or higheremission values when crude oil prices are $84/bbl or higher.
• Adding CCS to CTL is economically justified when the GHG i i l d $5/ t i t CO i demission value exceeds $5/metric ton CO2 equiv. and
produces diesel fuel with life-cycle GHG emissions that are 2% below the petroleum baseline.
• Adding CCS to CTL is very inexpensive, increasing the COE-RSP by only $2/bbl
38
Summary of Economic AnalysisAbsent a low carbon fuel standard CBTL is not an economically• Absent a low-carbon fuel standard, CBTL is not an economically preferred option unless GHG emission values exceed $100/metric ton of CO2-equiv.
• Under a 20% LCFS, the coal-only cases do not qualify and CBTL configurations would be economically preferred when GHG emission values range between $0 and $140/metric ton of CO2-equiv.
• The 15wt% CBTL plant has life-cycle GHG emissions that are 31% b l th t l b li d i i ll f ibl hbelow the petroleum baseline and is economically feasible when oil prices are $93/bbl or higher, even if the GHG emission value is zero.
• BTL plants are not economically preferred unless GHG emission values are extraordinarily high (above $140/metric ton of CO2-equiv).
39
Effect of Financing Scenarios on Diesel RSP(when GHG Emission Value is Zero)
350
324
300
350/b
bl
Today - 100% Equity
Mid-Term - No Gov't Incentive
Mid Term Loan Guarantee (NETL Ref )
263
229
200
250
rice,
Jan
-08
$/ Mid-Term - Loan Guarantee (NETL Ref.)
Mid-term scenarios assume a carbon regulation has been passed. All scenarios assume that two or three CTL/CBTL plants have been demonstrated in the U.S.
2 4 36
150
200
t Cru
de O
il Pr
121
124 13
2
134
13
96 99 105
107
108
82 84 89 91 93
50
100
Equi
vale
nt
0CTL w/o CCS,
50K bpdCTL+CCS, 50K
bpdCTL+CCS+ATR,
50K bpd9 wt%
CBTL+CCS, 50K 15 wt%
CBTL+CCS, 50K BTL+CCS+ATR,
30K bpd
40
p p p ,bpd
,bpd
p
Effect of Financing Scenarios on Jet Fuel RSP(when CO2 Allowance Price is Zero)(when CO2 Allowance Price is Zero)
405400
450
$/bb
l Today - 100% Equity
Mid-Term - No Gov't Incentive
328
86250
300
350
Pric
e, J
an-0
8
Mid-Term - Loan Guarantee (NETL Ref.)
Mid-term scenarios assume a carbon regulation has been passed All scenarios assume that tw o or three
A “moderate” incentive, such as a loan guarantee, could make the use of CCS and biomass
69
28
150
200
250
uel S
ellin
g P been passed. All scenarios assume that tw o or three
CTL/CBTL plants have been demonstrated in the U.S.could make the use of CCS and biomass
economically preferable to CTL without CCS (even when CO2 allowances are valued at zero).
151
154 16
119
122 13
4
102
105 115
50
100
150
Req
'd J
et F
u
0CTL w /o CCS, 50K
bpdCTL+CCS, 50K bpd 15 w t% CBTL+CCS,
50K bpdBTL+CCS+ATR, 30K
bpd
R
41
The Path ForwardFuture Publications and AcknowledgementsFuture Publications and Acknowledgements
PublicationsAffordable, Low-Carbon Diesel Fuel from Domestic Coal and Biomasso dab e, o Ca bo ese ue o o est c Coa a d o assEstimated Publication Date: October 2008
Petroleum Baseline Life Cycle GHG AnalysisEstimated Publication Date: October 2008
Noblis– David Gray
Estimated Publication Date: October 2008
David Gray– Charles White
Princeton Environmental Institute– Dr Robert WilliamsDr. Robert Williams– Eric Larson – Thomas Kreutz
42
Questions?Questions?
43
Additi l I f tiAdditional Information
44
Total As-Spent Capital Cost(includes escalation & interest during construction)(includes escalation & interest during construction)
225,000
250,000
275,000ear
150,000
175,000
200,000
225,000
city, m
ixed
‐ye
75,000
100,000
125,000
barrel of capac
‐
25,000
50,000
$ per daily b
CTL 5
0k bp
dCT
L+CC
S 50k
bpd
L+CC
S+AT
R 50
k bpd
%CB
TL+C
CS 50
k bpd
%CB
TL+C
CS 50
k bpd
%CB
TL+C
CS 30
k bpd
TL+C
CS+A
TR 5k
bpd
45
CTL+
9% C
15%
C
30%
C
BTL
Distribution of Total Overnight Capital Costs15 wt% CBTL+CCS, 50k bpd15 wt% CBTL CCS, 50k bpd
Fuel Handling, Prep & Feed
11%
Inventory, Pre‐Production & Owner's Costs
Contingencies20%
6%
Gasification Island
20%
Island32%
Engineering & Construction
Mgmt.
CO2 Removal, Comp., Transport, Seq & MonitoringFT Synthesis
Balance of Plant
6%
46
Seq. & Monitoring5%
FT Synthesis11%
9%
Basis of Scenario 2A Finance Structure
ustr
y-Ba
sed
mm
enda
tion
Scen
ario
2 (1
)
ely
Ran
ge o
f n
Gua
rant
ee
mpa
cts (2
)
mpt
ions
for
enar
io 2
A
Comments
Indu
Rec
omfo
r S
Lik
eL
oan Im
Ass
u Sce
Capital, % Debt 50
up to 30 point
i
60 (10 point i )
The percentage of capital financed with debt was limited to 60% such that the DSCR was above 2.0 given the debt interest rate, debt term and IRROE assumed below. DSCR values above 1.75 will likely be required to secure debt financing increase increase) y q g
[1].
Debt Interest Rate, %
9.5 (LIBOR+6)
1 to 2.5 point
decrease
7.5 (2 point
decrease; LIBOR+4)
The interest rate on the guaranteed loans would likely be well below LIBOR+4, perhaps equal to the rate of a Treasury Bond. However, the competitive selection process may result in awards of federal loan guarantees that cover only a portion of the project debt. Consequently, the rate assumed here can be interpreted as the
weighted average of the guaranteed and unguaranteed ratesweighted average of the guaranteed and unguaranteed rates.
Debt Term, years 15
up to 15 year
increase
25 (10 year increase)
Required IRROE (over 20 no
impact
20 (no
30 years), % impact change)• The 12-month LIBOR is assumed to be 3.5%. • The debt service coverage ratio (DSCR) is the ratio of the operating profit to the cost of debt service (principal plus interest). • (1) Based on a 2008 NETL report that recommends finance structures for fossil energy projects [1]. • (2) Based on 2007 NETL report that assesses the impact of government incentives on the economics of a Fischer-Tropsch plant [2].
47
Climate ChangePetroleum-Derived Diesel GHG EmissionsPetroleum Derived Diesel GHG Emissions
Raw Material Acquisition(coal and/or non-food biomass)
Raw Material Acquisition(coal and/or non-food biomass)
Raw Material Acquisition(coal and/or non-food biomass)( )
Transport to theEnergy Conversion Facility
( )
Transport to theEnergy Conversion Facility
( )
Transport to theEnergy Conversion Facilitygy y
Energy Conversion Facility(with carbon capture and transport)
gy y
Energy Conversion Facility(with carbon capture and transport)
gy y
Energy Conversion Facility(with carbon capture and transport)(with carbon capture and transport)
Transport, Storage,
(with carbon capture and transport)
Transport, Storage,
(with carbon capture and transport)
Transport, Storage,and Dispensing
End Use
and Dispensing
End Use
and Dispensing
End Use
48
Study BoundaryStudy BoundaryStudy Boundary
Life-Cycle GHG Emissions Equation
Total Cradle-to-Gate GHG Emissions for Producing Diesel, Naphtha, and Electricity (Raw Material Acquisition thru the exit gate of the energy conversion facility)
(−) Carbon Content (converted to CO2) of the Biomass Feedstock Utilized by the Energy Conversion Facility (applicable to CBTL facilities only)
(−) Naphtha Cradle-to-Gate GHG Co-product Displacement Value per Million Btu of Naphtha Produced
(−) Electricity Cradle-to-Gate GHG Co-product Displacement Value per Million Btu of Electricity Produced
(+) GHG Emissions from Transportation & Distribution of Diesel Fuel to the End User
(+) GHG Emissions from Combustion of the Diesel Fuel in the End Users Vehicle
Total Life-Cycle GHG Emissions for FT diesel Produced from a CTL or CBTL Facility
49
Comparison of Diesel Fuel Greenhouse Gas Profiles from Various StudiesProfiles from Various Studies
McCann O&G Journal (1999) Venezuela Heavy Crude
McCann, O&G Journal (1999), Venezuela Very Heavy Crude
EPA OTAQ (2006) Maximum Value
GM Study WTT (2001)
McCann, O&G Journal (1999), Canadian Light Crude
California LCFS (2007) - modified GREET Model
McCann, O&G Journal (1999), Saudia Light Crude
McCann, O&G Journal (1999), Venezuela Heavy Crude
…to Fuel Dispensing
NREL Biodiesel Study (1998)
GREET Ver. 1.8b (2008), Year 2005
EPA, OTAQ (2006) Average Value
GREET Ver. 1.8b (2008), Year 2010
U.C. Davis, LEM (2003), Year 2015
EPA, OTAQ (2006) Maximum Value …to Fuel Dispensing( vehicle tank).
- 5,000 10,000 15,000 20,000 25,000 30,000 35,000 40,000
Life Cycle GHG Contribution (g-CO2E/mmBtu of Fuel Dispensed)
EPA, OTAQ (2006) Minimum ValueFrom Extraction (oil well)...
50
Life-Cycle GHG Emissions for15wt% CBTL with CCS15wt% CBTL with CCS
Net to Atmosphere+ 2,015 tc/d
- -
9 425 BPD S th ti Di l
8,091 tc/dIn
9,425 BPD Synthetic Diesel20,575 BPD Synthetic Naphtha
8,091 tc/dOut
51
Required Selling Price for Diesel Product120
110
/bbl
100% SG, CCS, 5k bpd, -324%100% SG, CCS+ATR, 5k bpd, -364%100% Coal, no CCS, 50k bpd, +152%100% Coal, CCS, 50k bpd, -2%100% Coal, CCS+ATR, 50k bpd, -10%
100
ice,
Jan
-08
$/
, , p ,15 wt% SG, CCS, 50k bpd, -31%15 wt% SG, CCS+ATR, 50k bpd, -40%30 wt% SG, CCS, 30k bpd, -61%30 wt% SG, CCS+ATR, 30k bpd, -74%9 t% SG CCS 50k b d 20%
90
Cru
de O
il Pr
i 9 wt% SG, CCS, 50k bpd, -20%
D/E=60/40; Int.=7.5%; Term=25 yrs.;IRROE=20%
80
Equi
vale
nt
700 50 100 150 200 250
Credit/Debit for Life-Cycle GHGEmissions Below/Above PetroleumBaseline
52
Credit/Debit for Life Cycle GHG Emissions Below/Above Petroleum Baseline, Jan-08 $/metric ton CO2-equivalent
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