novel ccu technologies a sapea report · 2018-10-03 · w/ ccs o 2 s t-o 2 s fossil (reduced)...
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Novel CCU TechnologiesA SAPEA Report
Marco Mazzotti, ETH ZurichDG Clima Workshop
Brussels – September 17th, 2018
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Outline
1. The CCU system2. RES efficiency in delivering energy services3. Carbon balances of technology chains4. Innovation needed
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1. The CCU system
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2. CO2conversion
C-rich product 3. Product
utilizationC-rich waste1. CO2
capture CO24. Disposal
of CO2
1. The CCU system
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2. CO2conversion
C-rich product 3. Product
utilizationC-rich waste1. CO2
capture CO24. Disposal
of CO2
1. The CCU system
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2. CO2conversion
C-rich product 3. Product
utilizationC-rich waste1. CO2
capture CO24. Disposal
of CO2
1. The CCU system
2.2. H2synthesis H2
2.3. CO2 + H2 reaction
2.1. RES harvesting power
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2. CO2conversion
C-rich product 3. Product
utilizationC-rich waste
1. CO2capture CO2
4. Disposal of CO2
1. The CCU system
2.2. H2synthesis
H22.3. CO2 +
H2 reaction2.1. RES
harvesting power
CCU POTENTIAL IN EU TO SUPPORT:• climate change objectives;• circular economy (O- vs. L-economy);• energy security and RES deployment;• evolution of CO2 capture systems.
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2. CO2conversion
C-rich product 3. Product
utilizationC-rich waste
1. CO2capture CO2
4. Disposal of CO2
1. The CCU system
2.2. H2synthesis
H22.3. CO2 +
H2 reaction2.1. RES
harvesting power
CCU POTENTIAL IN EU TO SUPPORT:• climate change objectives;• circular economy (O- vs. L-economy);• energy security and RES deployment;• evolution of CO2 capture systems.
WG VIEW: SOCIETAL SERVICES• power generation and distribution;• fuels (and power) for transport;• long-term long-range RES storage;• industrial products and materials.
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2. CO2conversion
C-rich product 3. Product
utilizationC-rich waste
1. CO2capture CO2
4. Disposal of CO2
1. The CCU system
2.2. H2synthesis
H22.3. CO2 +
H2 reaction2.1. RES
harvesting power
CCU CYCLES• Energy cycle• Carbon cycle• Material cycles
CCU POTENTIAL IN EU TO SUPPORT:• climate change objectives;• circular economy (O- vs. L-economy);• energy security and RES deployment;• evolution of CO2 capture systems.
WG VIEW: SOCIETAL SERVICES• power generation and distribution;• fuels (and power) for transport;• long-term long-range RES storage;• industrial products and materials.
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2. RES efficiency in service delivery
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2. RES efficiency in service delivery
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2. RES efficiency in service delivery
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2. RES efficiency in service delivery100%
100%
80%
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H2
100%
H2O
40%
45%
2. RES efficiency in service delivery100%
100%
80%
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H2
100%
H2O
40%
45%
2. RES efficiency in service delivery100%
100%
80%
CH4
15%
35%
CO2 + REN
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H2
100%
H2O
40%
45%
2. Energy mix100%
100%
80%
CH4
15%
35%
CO2
CO2 + REN
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H2
100%
H2O
40%
2. Road transport
100%
80%
CH4
15%
CO2
CO2 + REN
9 PWh4.5 PWh 24 PWh
Road EU-283.5 PWh (2015)
RES EU-282.5 PWh (2015)
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3. Carbon balances
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3. Carbon balances
1. L-economy
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3. Carbon balancesFunctional unit
processing utilizationC-rich product
C-free product
C-rich feedstock (reduced C)
C-free resources (materials and/or
energy)
CO2 CO2
C-free waste
C-free waste
service
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3. Carbon balancesFunctional unit 1: C-use and centralized CO2 emissions
processing utilizationC-rich product
C-free product
C-rich feedstock (reduced C)
C-free resources (materials and/or
energy)
CO2 CO2
C-free waste
C-free waste
service
Functionalunit1:• fossil-fuel-firedpowerplant• largescaleindustrialboilerforheat
generation• chemicalplantcoupledtoincinerator
forC-richwastedisposal(polymericmaterials)
Functionalunit2:• ureaproductionanduse• fuels(cars,ships,planes)synthesis
anduse• chemicalplantnot-coupledto
incinerator,ortoincineratorwithoutCO2capture
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3. Carbon balancesFunctional unit 1: C-use and centralized CO2 emissions
Functional unit 2: C-use and distributed CO2 emissions
processing utilizationC-rich product
C-free product
C-rich feedstock (reduced C)
C-free resources (materials and/or
energy)
CO2 CO2
C-free waste
C-free waste
service
Functionalunit1:• fossil-fuel-firedpowerplant• largescaleindustrialboilerforheat
generation• chemicalplantcoupledtoincinerator
forC-richwastedisposal(polymericmaterials)
Functionalunit2:• ureaproductionanduse• fuels(cars,ships,planes)synthesis
anduse• chemicalplantnot-coupledto
incinerator,ortoincineratorwithoutCO2capture
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3. Carbon balances
1. L-economy
Functional unit 1: point source CO2emissions
Functional unit 2: distributed CO2 emissions
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3. Carbon balances
1. L-economyposit
ive
CO2
emiss
ions
Functional unit 1: point source CO2emissions
Functional unit 2: distributed CO2 emissions
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3. Carbon balances
1. L-economyposit
ive
CO2
emiss
ions
Fossil (reduced) carbonOxidized carbon (CO2)Synthetic (reduced) carbonBiogenic (reduced) carbon
Functional unit 1: point source CO2emissions
Functional unit 2: distributed CO2 emissions
Renewable energy sourceCO2 conversion plant, incl. electrolyzer for H2
Direct air capture of CO2 from the atmosphere (DAC)
Biomass treatment plant
Managed biomass growth
Post-combustion CO2 capture (PCC)
Underground CO2 storage
CO2 in the atmosphere
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3. Carbon balances
1. L-economy
3. L-economy
w/ CCS
po
sit
ive
CO
2
em
issio
ns
ne
t-ze
ro C
O2
em
issio
ns
Fossil (reduced) carbon
Oxidized carbon (CO2)
Synthetic (reduced) carbon
Biogenic (reduced) carbon
Functional unit 1: point source CO2
emissions
Functional unit 2: distributed CO2 emissions
Renewable energy source
CO2 conversion plant, incl. electrolyzer for H2
Direct air capture of CO2 from the atmosphere (DAC)
Biomass treatment plant
Managed biomass growth
Post-combustion CO2 capture (PCC)
Underground CO2 storage
CO2 in the atmosphere
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3. Carbon balances
1. L-economy
3. L-economyw/ CCS
posi
tive
CO
2em
issi
ons
net-
zero
CO
2em
issi
ons
4. L-economyw/ DAC-CS
Fossil (reduced) carbon
Oxidized carbon (CO2)
Synthetic (reduced) carbon
Biogenic (reduced) carbon
Functional unit 1: point source CO2
emissionsFunctional unit 2: distributed CO2 emissions
Renewable energy sourceCO2 conversion plant, incl. electrolyzer for H2
Direct air capture of CO2 from the atmosphere (DAC)
Biomass treatment plant
Managed biomass growth
Post-combustion CO2 capture (PCC)
Underground CO2 storage
CO2 in the atmosphere
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3. Carbon balances
1. L-economy
3. L-economyw/ CCS
2. L-economy w/ CCUposit
ive
CO2
emiss
ions
net-z
ero
CO2
emiss
ions
4. L-economyw/ DAC-CS
Fossil (reduced) carbonOxidized carbon (CO2)Synthetic (reduced) carbonBiogenic (reduced) carbon
Functional unit 1: point source CO2emissions
Functional unit 2: distributed CO2 emissions
Renewable energy sourceCO2 conversion plant, incl. electrolyzer for H2
Direct air capture of CO2 from the atmosphere (DAC)
Biomass treatment plant
Managed biomass growth
Post-combustion CO2 capture (PCC)
Underground CO2 storage
CO2 in the atmosphere
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3. Carbon balances
1. L-economy
3. L-economyw/ CCS
2. L-economy w/ CCU
5. O-economy w/ CCU
6. O-economyw/ DAC-CU
posi
tive
CO2
emis
sion
sne
t-ze
ro C
O2
emis
sion
s
4. L-economyw/ DAC-CS
Fossil (reduced) carbon
Oxidized carbon (CO2)
Synthetic (reduced) carbon
Biogenic (reduced) carbon
Functional unit 1: point source CO2
emissionsFunctional unit 2: distributed CO2 emissions
Renewable energy sourceCO2 conversion plant, incl. electrolyzer for H2
Direct air capture of CO2 from the atmosphere (DAC)
Biomass treatment plant
Managed biomass growth
Post-combustion CO2 capture (PCC)
Underground CO2 storage
CO2 in the atmosphere
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3. Carbon balances
1. L-economy
3. L-economy
w/ CCS
2. L-economy w/ CCU
5. O-economy
w/ CCU
6. O-economy
w/ DAC-CU
7. O-economy w/ bio-energy
po
sit
ive
CO
2
em
issio
ns
ne
t-ze
ro
CO
2
em
issio
ns
4. L-economy
w/ DAC-CS
Fossil (reduced) carbon
Oxidized carbon (CO2)
Synthetic (reduced) carbon
Biogenic (reduced) carbon
Functional unit 1: point source CO2
emissions
Functional unit 2: distributed CO2 emissions
Renewable energy source
CO2 conversion plant, incl. electrolyzer for H2
Direct air capture of CO2 from the atmosphere (DAC)
Biomass treatment plant
Managed biomass growth
Post-combustion CO2 capture (PCC)
Underground CO2 storage
CO2
in the atmosphere
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3. Carbon balances
1. L-economy
3. L-economy
w/ CCS
2. L-economy w/ CCU
5. O-economy
w/ CCU6. O-economy
w/ DAC-CU
7. O-economy w/ bio-energy
8. NET-economy w/ bio-
energy and CCS: BECCS
9. NET-economy w/
DAC and CS: DACCS
po
siti
ve C
O2
em
issi
on
s
ne
gati
ve C
O2
em
issi
on
s
ne
t-ze
ro C
O2
em
issi
on
s
4. L-economy
w/ DAC-CS
Fossil (reduced) carbon
Oxidized carbon (CO2)
Synthetic (reduced) carbon
Biogenic (reduced) carbon
Functional unit 1: point source CO2
emissions
Functional unit 2: distributed CO2 emissions
Renewable energy sourceCO2 conversion plant, incl. electrolyzer for H2
Direct air capture of CO2 from the atmosphere (DAC)
Biomass treatment plant
Managed biomass growth
Post-combustion CO2 capture (PCC)
Underground CO2 storage
CO2 in the atmosphere
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3. Carbon balances
1. L-economy
3. L-economyw/ CCS
2. L-economy w/ CCU
5. O-economy w/ CCU
6. O-economyw/ DAC-CU
7. O-economy w/ bio-energy
8. NET-economy w/ bio-energy and CCS: BECCS
9. NET-economy w/ DAC and CS: DACCS
posi
tive
CO
2em
issi
ons
nega
tive
CO
2em
issi
ons
net-
zero
CO
2em
issi
ons
4. L-economyw/ DAC-CS
A FEW COMMENTS• C-free RES to be LCA-assessed;• CCU neither sufficient nor needed for O-
economy, while CO2 capture needed;• CO2 storage necessary for NETs;• full LCA needed to allocate CO2 emissions
to stakeholders.
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3. Carbon balances
1. L-economy
3. L-economyw/ CCS
2. L-economy w/ CCU
5. O-economy w/ CCU
6. O-economyw/ DAC-CU
7. O-economy w/ bio-energy
8. NET-economy w/ bio-energy and CCS: BECCS
9. NET-economy w/ DAC and CS: DACCS
posi
tive
CO
2em
issi
ons
nega
tive
CO
2em
issi
ons
net-
zero
CO
2em
issi
ons
4. L-economyw/ DAC-CS
A FEW COMMENTS• C-free RES to be LCA-assessed;• CCU neither sufficient nor needed for O-
economy, while CO2 capture needed;• CO2 storage necessary for NETs;• full LCA needed to allocate CO2 emissions
to stakeholders.
SIMPLIFIED SYSTEM ANALYSIS• the whole technology chain, incl. RES,
CO2 source, product, C-waste release;• Carbon and energy balances around the
system boundaries;• infrastructure and land use needs;• deployment current and projected scale.
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4. Innovation needed1. Policy perspective – Measures, regulations and incentives
should examine the energy system, including CCU, in a holistic, integrated, coordinated and transparent manner.
2. Systemic perspective – A system approach is required when evaluating the energy system and its CCU sub-systems; progress is needed, in terms both of stakeholder awareness and of consistent definitions of system boundaries and of reference datasets.
3. Technology perspective – There are scientific and technical challenges in the areas of: 1. collection and purification of CO2 from different sources;2. synthesis of green-hydrogen via water splitting powered by RES;3. reductive activation catalytic technologies for CO2 conversion to
fuels and chemicals.