carbon capture and storage in the cement industry
TRANSCRIPT
Christoph ReißfelderGlobal Environmental Sustainability
Brightlands Campus, 11th October 2016
HeidelbergCement driving Carbon Capture and
Storage/Utilisation
HeidelbergCement in the world
Number 1 in aggregates, number 2 in cement,
and number 3 in ready-mixed concrete
HeidelbergCement
Italcementi
HeidelbergCement and Italcementi
Expanded HeidelbergCement Group in figures
63,000 employees
Core business– Aggregates
– Cement
– Downstream activities: ready-mixed concrete and asphalt
3,030 locations in around 60 countries (incl. joint ventures)– 620 production sites for sand, gravel, and crushed rock
– 161 cement and grinding plants
– 1,740 ready-mixed concrete plants
– 114 asphalt plants
Cement capacity 197 million tonnes (incl. joint ventures)
Aggregates reserves 19 billion tonnes
Cement manufacturing explained in 1 minute
Limestone
CaCO3
Calcining to
CaO
Sintering to
clinker
Grinding
to cement
1,6 ton limestone
+ 0,1 ton coal
=
1 ton cement
+ 0,8 ton CO2
Mandatory to deploy CCS/CCU to reach our goals!
4 levers to reduce CO2
Energy efficiency 27%
Alternative fuels 19%
Clinker substitution 9%
Carbon Capture & S/U 46%
2016
The cement sector will face one of the highest costs for carbon
capture (excluding the power sector)
Iron
&
steel
Cement
500 Mt/y
1.500 Mt/y
70 €/t
40 €/t
AFR &
Clinker substitution
Technology
HeidelbergCement beliefs & strategy (I)
Carbon Capture and Storage (CCS) is required
for a full de-carbonization of cement industry
CCS needs financial supporting mechanisms to
be competitive* feasible *imports/steel
CCS lacking public acceptance in mainland EU,
sufficiently accepted in Scandinavia and Canada
Carbon Capture & Utilization (CCU) commercial
today for small high-value-end-products
CCU potential to significant contribute to CCS/U
targets for cement industry in focus
Reliable technology
Financially sound
Public acceptance
HeidelbergCement beliefs & strategy (II)
CCS and CCU are mainly in
pre-competitive phase
HeidelbergCement
encourages and initiates
collective approaches
– within the cement industry
WBCSD-CSI
ECRA
– and beyond
lime-industry
automotive industry
start-ups
Large Scale Carbon Capture Norway
Test program 12 m€ final end 2016
– 75% funding government
– Amine scrubbing most reliable technology
Feasibility study done
– 40% CO2 capture using waste heat Brevik
– > 100m€ investment needed (+/- 30%)
– OPEX: > 40 €/t clinker
– CO2 from fertilizer industry + refinery will
be combined for shared storage
Next steps
– Evaluate to which extend Government of
Norway can finance CAPEX and OPEX to
avoid competitive out ruling of Norcem
– Evaluate how much HC can “bare” to
remain competitive
– 1½-2 years to finalize this phase
CEMCAP
9 mio € EU funding
September 2015
Econsense Berlin
Slide13
Oxyfuel Cement Kiln
Cooler Prototype:
HC-Hannover
Calciner prototype:
HC-Italcementi
Burner prototype
University of Stuttgart
CO2-enrichment: Oxyfuel Project for Cement Kilns
Funding in progress
Slite 7 qualified as demoplant
Consortium
Indirect heating raw meal:
– Separate process CO2
– Calix MgO proven process
10 tph demonstration plant,
Lixhe-Belgium
– Cement & Lime applications
– www.leilac.org.uk
LEILAC: CO2 separation@calcining (12 m€ EU-Horizon 2020)
Technology supplier
Design + supply equipment
Part of CAPEX
Energy-company
Construction + Operation
Power control market
Part of CAPEX
CO2 and H2 (made by excess renewable energy) to CH4
CO2-supply
Electricity supply
Part of CAPEX
Owner of the facility
Cement plant HC CO2
Automobile
company
E-gas offtake
Status of e-gas
Marketing of e-gas
cars
CCU with cyano bacteria and micro-algae
Modified bacteria to ethanol
Strategic Partnership with Joule Ltd
Large space
required and solar
radiation
EU funding not
approved
Audi cooperation
partner with Joule
Pilot test possible
in combination
with micro-algae
Microalgae for fish & fowl feed
Sweden & Turkey
Microalgae are reacting positively to
the flue-gas of cement kilns
Algal biomass can be a base material
for fishmeal and animal feed
Market – interesting for cement-industry
Fishmeal
Partner
2020 commercial
Ethanol as fuel
Partner Joule (+Audi)
2025 commercial
Carbon8: carbonating CaO rich ashes to light weight aggregates
Flue gas
20% CO2
85% of flow 15% of flow
CKD, sand
oil shale ash
Concluding remarks
The cement industry set ambitious targets
on CO2 reduction in the CSI-Roadmap 2050
Carbon Capture requires intensive cooperation
in our industry and HeidelbergCement is
demonstrating leadership in this domain
In its operations worldwide HC is testing and
developing (commercial) use of CO2 from our
stacks applying various technologies
CO2 will become a valuable asset…..
Christoph Reißfelder
Assistant Biodiversity & Public Affairs
Global Environmental Sustainability
+31 62 9097 354
Contacts: