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Evaluation of CLC as a BECCS technology from tests on woody biomass in an auto-thermal 150-kW pilot unit

Øyvind Langørgen, Inge Saanum, Roger Khalil, Nils Erland L. Haugen

2023International journal of greenhouse gas control13 citationsDOIOpen Access PDF

Abstract

In this work, woody biomass is converted by chemical looping combustion (CLC) in the auto-thermally operated 150-kW pilot unit at SINTEF Energy Research in Norway, using ilmenite as an oxygen carrier. The pilot unit consists of two inter-connected circulating fluidized bed reactors, being the air and fuel reactor, respectively. The unit is simplified compared to many other lab and pilot units by not having a carbon stripper. The aim of the present study is to evaluate the main performance parameters when operating a relatively large CLC unit in auto-thermal mode, using a cheap natural mineral, ilmenite, as oxygen carrier. Another aspect with the tests is to verify if the omission of a carbon stripper can provide high enough capture efficiencies for solid fuels as biomass, with a large share of volatiles and a char remnant with high reactivity. As a comparison, tests with petcoke were performed, to assess the effect when using a fuel with a low share of volatiles and slow char conversion. The results imply that CO2 capture efficiencies can be well above 95 % in a larger industrial unit operating on biomass, even without a carbon stripper, but that a carbon stripper is definitely needed for fuels with less volatiles and low char reactivity.

Topics & Concepts

CharBiomass (ecology)Waste managementChemical looping combustionCombustionCarbon fibersIlmeniteEnvironmental scienceFluidized bedSolid fuelPilot plantProcess engineeringCoalMaterials scienceChemistryEngineeringMineralogyComposite numberOrganic chemistryComposite materialOceanographyGeologyChemical Looping and Thermochemical ProcessesOil, Gas, and Environmental IssuesCoal and Its By-products