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Chemical Looping Combustion 150 kW pilot unit at SINTEF

Chemical Looping Combustion 150 kW pilot unit at SINTEF

Chemical Looping Combustion – a novel technology able to capture CO2 without any gas separation step

Chemical Looping Combustion (CLC) is an oxy-fuel type of process without the need of an air separation unit. Instead, a metal oxide works as an oxygen carrier from the air to the fuel reactor. The metal-oxide oxygen carriers are mainly based on metals as Fe, Ni, Cu and Mn.

Fuels for the CLC process may be gas, oil, coal or biomass just as in traditional combustion. The exhaust from the fuel reactor contains only CO2 and H2O and the separation can be done simply by condensation of the H2O. Since no other gas separation steps are involved, CLC enables low energy requirements and low costs compared to most other CO2 capture technologies.

The facililty is a registered Research Infrastructure in EU ECCSEL

 

Key objectives
Bring chemical looping combustion closer to commercialization by:

  • developing new and optimized oxygen carriers and production methods
  • validating performance and operability of the 150 kW CLC pilot unit
CLC basic principle
CLC basic principle

The 150 kW CLC pilot unit

  • A double-loop circulating fluidised bed (CFB) reactor system
  • Industrial applicability and scalability
  • Flexibility with respect to oxygen carrier and fuel
  • Extensive process control and safety system
  • Cold flow model testing (scale 1 : 1) for concept validation
  • Air reactor 6.0 m high, internal diameter φ230 mm
  • Fuel reactor 6.7 m high (incl. lifter), internal diameter φ154 mm
CLC 150 kW pilot unit. simplified process flow diagram.
CLC 150 kW pilot unit. simplified process flow diagram.

Results from test campaign using CuO as oxygen carrier particles.
Øyvind LANGØRGEN, Inge SAANUM, Nils Erland L. HAUGEN. Chemical looping combustion of methane using a copper-based oxygen carrier in a 150 kW reactor system. 13th Conference on Greenhouse Gas Control Technologies (GHGT-13), 14 to 18 November 2016, Lausanne, Switzerland.

Projects

Why CCS?

The purpose of CO2 capture and storage (CCS) is to minimize CO2 emissions and prevent large amounts of carbon dioxide (CO2) from being released into the atmosphere. SINTEF conducts research on the whole value chain for CCS.

SINTEF leads the national Centre for Environment-friendly Energy Research (FME) on CCS - NCCS