Effects of Temperature, Operation Mode, and Steam Concentration on Alkali Release in Chemical Looping Conversion of BiomassExperimental Investigation in a 10 kWthPilot
Journal article, 2022

Alkali release was studied in a 10 kWth chemical looping pilot operated with a Linz-Donawitz (LD) slag oxygen carrier (OC) and three biomass fuels. Experiments were performed at three temperatures and in three operation modes: chemical looping combustion (CLC), chemical looping gasification (CLG), and oxygen-carrier-aided combustion (OCAC). Gas-phase alkali release was measured with a surface ionization detector (SID). Fuel reactor (FR) gas-phase alkali emissions increased with the temperature. This occurred as a result of increased evaporation of KCl and enhanced decomposition of alkali salts during char conversion. Air reactor (AR) alkali emissions were lower than in the FR and independent of the operating temperature. In comparison of operating modes, CLC and CLG modes resulted in similar gas-phase alkali emissions due to the similar extent of char conversion. In contrast, operation of the reactor system in OCAC mode resulted in significantly lower levels of gas-phase alkalis. The difference in alkali emission was attributed to the steam-rich atmosphere of CLC. The effect of steam was further investigated in CLC and OCAC tests. Lowering steam concentrations in CLC operation resulted in lower gas-phase alkali emissions, while introducing steam to the FR during OCAC operation resulted in higher alkali emissions. It was concluded that steam likely enhances gas-phase K release through a reaction of K2CO3 within the fuel char with steam to produce KOH(g). Solid sampling and analysis for K content was used along with SID measurements to develop a K mass balance for the reactor system. Mass balance results for the straw pellet fuel tests showed that LD slag OC absorbs approximately 15-51% of fuel K, 2.2% of fuel K is released to the gas phase, and up to 3.4% of fuel K is captured in the AR fly ash. The residual 40-80% of fuel K was determined to leave the FR as K-rich fly ash.

Author

Ivan Gogolev

Chalmers, Space, Earth and Environment, Energy Technology

Amir H Soleimani Salim

Chalmers, Space, Earth and Environment, Energy Technology

Daofeng Mei

Chalmers, Space, Earth and Environment, Energy Technology

Anders Lyngfelt

Chalmers, Space, Earth and Environment, Energy Technology

Energy & Fuels

0887-0624 (ISSN) 1520-5029 (eISSN)

Vol. 36 17 9551-9570

Förbränningskemi för biomassa med syrebärarmaterial

Swedish Research Council (VR) (2016-06023), 2017-01-01 -- 2024-12-31.

Chemical Looping gAsification foR sustainAble production of biofuels (CLARA))

European Commission (EC) (EC/H2020/817841), 2018-11-01 -- 2022-10-31.

Subject Categories

Energy Engineering

Chemical Process Engineering

Bioenergy

DOI

10.1021/acs.energyfuels.1c04353

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3/7/2024 9