EIGHTH ANNUAL CONFERENCE ON CARBON CAPTURE & SEQUESTRATION

EIGHTH ANNUAL CONFERENCE ON CARBON CAPTURE & SEQUESTRATION Session: Retrofitting Coal Fired Plants for CCS Mitsubishi Heavy Industries Approach to Commercialization of Post Combustion CO2 Capture Technology for Coal Fired Power Plants Masaki Iijima, Ronald Mitchell and Steven Holton May 4 7, 2009 Sheraton Station Square Pittsburgh, Pennsylvania 1

MHI - Commercial CO 2 Capture Experience MHI s Post Combustion CO 2 Capture Technology World leader post combustion CO 2 capture technology licensor, with a history of almost 20 years of R&D, for state-of-the-art Post Combustion Carbon Capture Technology and 10 years of commercial operation experience Five commercial PCC plants in operation (from a variety of natural gas sources) 1999 2005 2006 2006 2009 200 t/d Malaysia 330 t/d Japan 450 t/d India 450 t/d India 450 t/d India Construction on 4 additional commercial PCC plants continues; UAE 400 tpd (2009), Bahrain 450 tpd (2009), Pakistan 340 tpd (2010), Vietnam 280 tpd (2010) and several other contracts under negotiation 2

Map of MHI commercial CO2 capture plant sites 3 3 2006 India (Aonla) 450 Mt/d 4 4 2006 India (Phulpur) 450 Mt/d 8 8 2010 Pakistan 340 Mt/d 2 2 2005 Japan 330 Mt/d 7 7 2009 Bahrain 450 Mt/d 9 9 2010 Vietnam 240 Mt/d 5 6 6 2009 Abu Dhabi 2009 India 5 400 Mt/d 450 Mt/d 1 1 1999 Malaysia 200 Mt/d 3

MHI - R&D Strength & Experience Deployment of R&D Facilities for specific PCC testing a) 2.0 tpd Nanko Osaka pilot plant from 1991 b) 1.0 tpd Hiroshima pilot plant (MHI s R&D Centre) c) 0.2 tpd mobile test unit d) Absorber 1 by 1 scale test plant in Mihara (400 MW equivalent) e) 10 tpd Matsushima pilot for testing coal fired flue gas a b c d e MHI s proprietary KS-1 solvent and process Energy saving, lower degradation & many other features. MHI is continually working to improve solvent performance and overall process efficiency using our R&D facilities. Global coal based PCC/CCS demonstration projects Japan 10 tpd PCC; ~6000 hrs experience, Germany 100 tpd PCC; start up in 2010, USA 500 tpd PCC; start up in 2011, UK 2 x 3000 tpd PCC; start up in 2014, others being developed 4

MHI Natural Gas CO 2 Recovery Ready to go!! MHI completed basic design on a 3,000 tpd single train PCC Plant MHI is offering this plant on a commercial basis MHI is involved in several global CCS commercial projects for natural gas Gas Boiler Gas Turbine 5

MHI s Global Natural Gas Fired CO 2 -EOR/CCS Project Work under Negotiation Canada CO2-EOR / CCS Project, Natural Gas Flue Gas Norway CO2-EOR / CCS Project, Natural Gas Flue Gas b) Middle East CO2-EOR Project, Natural Gas Flue Gas US CO2-EOR Project, Natural Gas Flue Gas a) Middle East CO2-EOR Project, Natural Gas Flue Gas 6

MHI s Global Coal Fired CCS Project Work in Various Study & Test Phases Canada CCS Project, Coal Fired Flue Gas UK CCS Project, Coal Fired Flue Gas Denmark CCS Project, Coal Fired Flue Gas Japan CO2 Capture Project, Coal Fired Flue Gas, ~6,000 hrs testing complete Germany CO2 Capture Project, Coal Fired Flue Gas b) US CCS Project, Coal Fired Flue Gas a) US CCS Project, Coal Fired Flue Gas Australia CCS Project, Coal Fired Flue Gas 7

MHI CO2 Capture Reference Plants Long term operational experience is essential for large scale commercialization 2016 MHI Nat. Gas MHI Coal Under Construction FEED Canada 3000 tpd UK CCS Demo 3000 tpd Middle East 3000 tpd Norway 3000 tpd 2012 Today 2008 Germany 100 tpd Japan 10 tpd US 500 tpd Pakistan 340 tpd Japan 330 tpd Vietnam 240 tpd India 450 tpd Bahrain 450 tpd India 2 x 450 tpd Abu Dhabi 400 tpd 1990 Japan 1 tpd Japan 1 tpd Bench scale Japan 2 tpd Pilot scale Demonstration scale Malaysia 200 tpd Commercial Scale 8

MHI s roadmap to commercialization for coal fired boilers Next Step (1) Verification of influence of impurities at larger scale (2) Improved integration of the CO 2 recovery system with the flue gas pre-treatment components (3) Optimisation of removal methods for impurities accumulating in the absorbent (3) Next step will lead to commercialization for coal PCC Norway PCC EU/US/ Canada PCC Demo MHI s Operating Experience PCC Demo 1 tpd 2 10 200 330 450 450 100 500 3000 ~3000 Pilot scale experience (Natural Gas & Coal) Commercial Experience (Natural Gas) Demo (Coal) Demo (Coal) Commercial (Gas Turbine) Coal 9

Risk & Mitigation Scale Up of MHI s PCC Technology 3,000 tpd Plant Basic Design Complete (Nat. gas) >5,000 hrs experience with CO2 capture from coal fired flue gas (10 tpd scale) Commercial scale (400MW equiv.) liquid distribution tests at Mihara test plant Application of Advanced Computational Flow Dynamics (CFD) Technology Commercial Ammonia Plant Syntheses Gas 2,559 T/D CO2 recovery plant large scale experience with CO2 stripper >200 Commercial FGD Plants deployed large scale experience with flue gas absorber (max. capacity of >1,000MW single train) 10

MHI s Post Combustion CO 2 Capture Technology Coal Fired Demonstration experience Post Combustion Technology Cost competitive Apply to current fleet Simple & safe operation Flexible integration High purity CO 2 product Flue Gas Outlet ABSORBER CO 2 Purity 99.9 % C.W. STRIPPER (Regenerator) Flue Gas Cooler/Deep FGD Flue Gas C.W. Pre-treated Flue Gas C.W. Steam Reboiler 11

MHI s Long Term 10 t/d CO 2 Capture Demonstration Tests from a Coal Fired Boiler Outline of the Demonstration Plant Plant Outline Solvent : KS-1 Capacity : 10 T/D Feed Gas : Coal Fired Boiler (14.1 v% CO 2 ) Start-up : July 2006 Location : Nagasaki, Japan NOTE* Project funding support from RITE (50%) and cooperation from J-POWER. 12

MHI s Long Term 10 t/d CO 2 Capture Demonstration Tests from a Coal Fired Boiler Outline of the Demonstration Plant (1) Operation time-line (1) Jul 07 to Feb 08 = 4,028 hrs (2) 2008 = 1,000 hrs (3) Total = ~6,000 hrs (including commissioning) (2) Operation results (Availability 99%) Continuous operational period of >5,000 hrs with performance exceeding our expectations 13

MHI s Long Term 10 t/d CO 2 Capture Demonstration Tests from a Coal Fired Boiler Efficiency and capacity of CO2 recovery (1) CO 2 recovery efficiency >90% (2) CO 2 recovery capacity exceeded our expectations following >5,000hrs of demonstration operation CO2 Product Purity Heat Consumption for CO2 recovery Specific heat consumption required for CO2 Recovery Approx. 750 kcal/kg-co2 (730-820 kcal/kg-co2) Higher performance than that for natural-gas-fired boiler case Improved process reduces steam heat input by a further 15% (630-700 kcal/kg-co 2 ) 14

MHI s Long Term 10 t/d CO 2 Capture Demonstration Tests from a Coal Fired Boiler Influence of SOx, NOx & dust in the flue gas (1) SO x The SO x removal efficiency in deep FGD section: =<98% Almost all of the SO x at the outlet of the flue gas cooler was absorbed by the solvent and generated heat-stable salts (HSS) The HSS concentration was maintained at low levels by installing a deep FGD scrubbing section in the bottom of the flue gas cooler (2) NO x Absorption ratio-of NO x Flue gas cooler: almost zero Absorption: 1-3 % The HSS concentration was maintained at low levels (3) DUST An advanced filtration system maintains dust at low levels: =<10mg/kg Influence of dust: no accumulation observed & no flooding or plugging Heat transfer coefficient: No significant decreases were observed in the heat exchanger operated without cooling water 15

MHI s Long Term 10 t/d CO 2 Capture Demonstration Tests from a Coal Fired Boiler Conclusion Demonstration operation of ~6,000 hrs was achieved at a commercial coal-fired power station in Japan Behavior and impact of dust, SO x and NO x confirmed Results show that no significant, adverse influences on the process or the equipment were recorded Results indicate that flue gas pre-treatment is important to reduce the level of impurities entering the CO2 Recovery plant In conclusion The MHI CO2 Recovery process can be applied to coal-fired boilers. MHI is working on a next step larger scale demonstration of this process on coal fired flue gas 16

MHI s Experience and Capability in a CCS Project The only company who can provide the total solution Steam Turbine Boiler SCR EP FGD CO 2 Capture CO 2 Compression CO 2 Transport NOx Dust SOx CO2 Centrifugal Compressors Coal Fired Power Station FGD CO 2 Capture Plant A B S O R B E R C O O L E R S T R IP PE R DCFS MHI Fully Integrated Environmental Solutions 17

Conclusions A) MHI has extensive PCC R&D History (~20 years) B) MHI has multiple commercially operating PCC plants (up to 450 t/d scale) C) CO2 capture was successfully demonstrated on coal fired flue gas using a 10 t/d test plant located in Japan D) Medium scale demonstration of PCC is the next important step leading to commercialization of the technology for coal fired boilers E) MHI continues development of energy efficient solvents and processes through several ongoing projects F) MHI is the only company that can provide a total, integrated environmental solution for CCS at a coal fired power station G) MHI is ready to participate in large scale demonstration or commercial CCS projects and has unmatched experience and expertise in post combustion CO2 capture technology MHI s CO2 recovery process will provide an important counter measure against global warming 18

THANK YOU COME AND MEET THE MHI TEAM AT THE TECHNOLOGY EXHIBIT 19