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Technology Collaboration Programme by IEA

CO2 capture in LNG

Noemi Ferrari, Svetlana van Bavel, Tetsuya Watanabe

Citation: IEAGHG, "CO2 capture in LNG", 2019-07, October 2019.

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Publication Overview

Natural gas demand is forecasted to grow continuously for the next 10 years, playing a vital role in the global energy mix in 2030. in the specific case of liquefied natural gas, projections indicate a continued upward growth. The majority of near-term growth in liquefaction capacity is likely to happen in North America and Australia, although a number of other projects have the potential to add significant liquefaction capacity in the long term as well.

Publication Summary

Natural gas (NG) is projected to play a vital role in the energy mix of the 21st century.  Its demand is forecasted to grow 2.5% a year for the next 10 years, ranking it second in the global energy mix in 2030.  This study was commission to provide a technical evaluation and cost assessment of capturing CO2 contained in produced natural gas and also CO2 emitted by fuel combustions for power generation for LNG trains and refrigerant cycle compressors in liquefied natural gas (LNG) plants, including small scale (SSLNG) and floating (FLNG) plants.  Prior to this study there was a lack of information on CO2 capture in LNG plants.  Consequently, the results of this study will be of direct interest to developers of LNG projects, the related capture technology, as well as vendors and policy makers.

  • Although pre-combustion and oxyfuel options are available for capturing fuel related CO2 emissions, post-combustion CO2 capture, using well proven chemical absorption technology, will be the preferred route for baseload LNG (with a liquefaction capacity of 4.6 mtpa, 2mol% feed gas, state-of-the-art C3MR refrigeration process, proprietary amine CO2 capture and located on the US Gulf Coast), as it can be installed without affecting the performance of the core process.  This option reduces technical risks and process complexity.
  • The cost of CO2 captured for a baseload LNG plant (as described above) was estimated at €47.3/tCO2 with the cost of CO2 avoided at €55.2/tCO2.  The levelised cost of LNG for the baseload LNG plant without CCS is €1.18/MMBtu (or €54.5/tLNG), with CO2 capture this cost increases by ~20% to €1.41/MMBtu (or €65.4/tLNG).  
  • The total range of cost encountered during the sensitivity analysis was €13 – €57/tCO2 for the capture cost and €14 – €78/tCO2 for the avoidance cost.  A CO2 emissions price of at least €129/tCO2 would be required to make the base case LNG plant with CCS economically feasible.
  • A CO2 capture design that is incorporated into an exclusive acid gas removal unit (AGRU), instead of capturing the fuel related emissions as well, could bring down costs significantly to about €30/tCO2. This figure is more in line with current CO2 prices in certain countries, for example Norway and Finland, which indicates the potential for the implementation of CCS.
  • Both SSLNG and FLNG plants have comparatively limited global capacity and therefore limited global CO2 emissions.  Global CO2 emissions from SSLNG are an order of magnitude smaller in comparison with emissions from baseload LNG plants and three orders of magnitude smaller than global CO2 emissions from power plants (8 – 10 mtpa vs 75 – 100 mtpa vs 10,000 mtpa).  In addition, application of currently available CO2 capture technologies face severe technical as well as economic challenges in these plants.  Thus, efforts should focus on CCS in baseload LNG plants with capture capacity plants of around 3,000 t/CO2 day equivalent to 1 mtpa.
  • Large scale LNG trains (such as those found in Qatar with a capacity of 7.8 mtpa LNG) may provide greater benefits for CO2 capture as a result of economies of scale. The total capture cost for plants this size is reduced by 12% with respect to the base case to about €41.6/tCO2 and avoidance cost reduced to about €48.4/tCO2.

Recommendations for further work include:

  • Pursuing general efforts to make CO2 capture systems more efficient
  • Assessment/development of other capture technologies as suitable for LNG
  • Developing strategies to reduce compression power requirement
  • Improving thermal efficiency of liquefaction process, e.g. through use of electric motor drives
  • Developing exhaust gas recycle (EGR) technology with particular focus on gas turbines in LNG
  • Demonstrating CCS in LNG on the fuel gas combustion processes

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