carbon dioxide capture (cc) options for energy intensive industries dr. avinash n. patkar head-...
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CARBON DIOXIDE CAPTURE (CC) OPTIONS FOR ENERGY INTENSIVE INDUSTRIES Dr. Avinash N. Patkar Head- Corporate Environment & Safety Group The TATA Power Company Ltd. (TPC) International Workshop on Carbon Capture and Storage in Power Sector: R&D Priorities in India New Delhi, INDIA - PowerPoint PPT PresentationTRANSCRIPT
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CARBON DIOXIDE CAPTURE (CC) OPTIONS FOR ENERGY INTENSIVE
INDUSTRIES
Dr. Avinash N. PatkarHead- Corporate Environment & Safety Group
The TATA Power Company Ltd. (TPC)
International Workshop on Carbon Capture and Storage in Power Sector: R&D Priorities in
India New Delhi, INDIAJanuary 23, 2008
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THE TATA POWER COMPANY LIMITED
Thermal Hydro Wind
1) Trombay (1,330 MW)
2) Jojobera (428 MW)
3) Belgaum (81 MW)1) Khopoli (72 MW)
2) Bhivpuri (75 MW)
3) Bhira (300 MW)
1) Supe (17 MW)
2) Nagar (45 MW)
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Energy Use and CO2 Emission Per Person
0
5
10
15
20
25
kWh per person
CO2 (tons/yr) per person
ELECTRICITY USE AND CO2 (PER CAPITA, 2005)
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AVERAGE CO2 EMISSIONS (MT/MWh)1: INDIA
Fuel Small (S) Medium (M) Large (L) S/M/L Size, MW
Coal 1.20 1.05 1.00 100/250/500
Lignite 1.32 1.23 1.28 75/125/250
N. Gas 0.43 0.42 0.43 50/75/100
1: Central Electric Authority of India Database (2006). See reference for assumptions.
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REDUCING CO2 EMISSIONS – STEPS
Prepare a CO2 and GHG Emissions Inventory.
Improve efficiency by energy audits and rehabilitating old, inefficient plants.
Higher efficiency technologies (Super-Critical and IGCC) for new plants.
Renewable energy – Hydro, wind, solar, bio-energy, ocean and geo-thermal.
Carbon Capture and Sequestration (CCS).
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PFD FOR MEA CO2 CAPTURE (CC) SYSTEM
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AMINE BASED COMMERCIAL SOLVENTS1
Supplier/ Solvent Loss, Solvent Cost Steam UsedSolvent kg/ton CO2 $/kg $/ton CO2 kg/kg CO2
Many/MEA 1.0 to 3.0 1.25 1.20 to 2.50 2.0
Fluor/MEA+ 2.0 1.50 2.30 2.3
MHI/KS-1* 0.35 3.00 1.55 1.5
1: US EPA (2006); +: With Inhibitors *: Hindered Amines
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BUDGET ESTIMATES FOR NEW PLANT (500 MW): WITHOUT CC 1,2,3
Parameter Sub Critical Super CriticalNet Thermal Eff., % 34.8 41.9 Net Heat Rate, Kcal/kWh 2,490 2,070 Coal Used tons/hr 200.7 166.9 Gross Power, MW 541 543 Capital Investment, $/ kW 1,387 1,575 COE, cents/kWh 5.2 4.3 1: Sub-bituminous coal; High Heating Value (HHV) = 4,800 kcal/kg (as received). 2: EPA, 2006: With a SCR system (NOx < 15 ppmv) and a limestone FGD (SO2 < 10 ppmv).3: Costs are + 30%, US Dollars. December 2004.
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BUDGET ESTIMATES FOR NEW PLANT (500 MW): WITH CC 1,2,3,4
Parameter Sub Critical Super CriticalNet Thermal Eff., % 26.1 31.5 Net Heat Rate, Kcal/kWh 3,110 2,590 Coal Used tons/hr 261.5 208.6 Gross Power, MW 670 673 Capital Investment, $/ kW 1,997 2,270 COE, cents/kWh 7.8 4.3 1: Sub-bituminous coal; HHV = 4,800 kcal/kg (as received). CO2 Removal = 85%.2: EPA, 2006: With a SCR system (NOx < 15 ppmv) and a limestone FGD (SO2 < 10 ppmv).3: Costs are + 30%, US Dollars. December 2004.4: IPCC, 2005 (TS.3): CC system - More energy (24%); higher capital (44%) and
higher COE (42%) than baseline. These are the lower values of a range given.
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PROBLMES WITH MEA SYSTEMS
• Degradation of MEA due to O2, SO2, NOx• Losses to flue gas and leakage: Solvent costs• High solvent regeneration energy required• Corrosion of vessels, packing, piping • High capital costs (+ ~ 44% for new) • High operating costs (+ ~ 24% for new)• High Cost of Energy (+ ~ 42% for new)• Retrofit could be almost double as expensive
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R&D WORK WITH CC SOLVENT SYSTEMS
• Solvents with higher CO2 loading (kg/kg)• Solvents that will resist O2, SO2, NOX
• Packing with higher surface area (250 m2/m3)• Packing with lower gas DP at high gas velocity
(3 m/sec) and high L/G ratio (60 m3/m2.hr)• (NH4)2CO3: Alstom and Powerspan (in USA)• K2CO3: U. of Texas, Austin, TX, USA• Penalty Targets: Energy < 10%; Cost < 20%
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PFD FOR OXY-FUEL COMBUSTION
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REVIEW OF OXY-FUEL COMBUSTION
Advantages• Concentrated SO2, NOx and CO2
• Absorption systems will be much smaller• A 30 MW demo plant is planned by Vattenfall Disadvantages• Higher energy for pure O2 than MEA system• Difficult to retrofit • Pilot scale work so far (< 1 MW)
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R&D WORK ON OXY-FUEL COMBUSTION
• More efficient membranes for pure O2 system
• More efficient adsorbents for pure O2 system
• Optimization of combustion and CC• Defined system for SO2 and NOx control• A 10 MW pilot plant is planned by B&W• A 30 MW demo plant is built by Vattenfall
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CONSTRAINTS ON CC TECHNOLOGIES: 2008
High Investment and energy
penalty
Sequestration/ReuseUncertainty
Technologies at pilot/demo scale
Regulatory uncertainty
Amine CC capital investment will be ~1.9 Crore/MW (~44% of power plant); Parasitic energy would be ~ 24% of gross output and COE will be ~42% higher as of Jan. 2008! More for Oxy-Fuel CC.
CC technologies for coal-fired power plant are in pilot (1-5 MW) or demo (10-30 MW) scale; Thus uncertainty in scale-up to 500 MW
Limited CO2 reuse in Gas/Oil/Methane Recovery; Costs of compression/liquification and transport
No global consensus, Limits long-term loans and raises interest rates: Limited global financing