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W4281775737 abstract "Alkali is a problematic component in biomass and may create various operation issues in normal combustion as well as chemical looping combustion using biomass fuels (bio-CLC). To investigate the interaction of alkali with an oxygen carrier, a methodology has been developed where alkali salts are added with impregnated charcoal particles. This work studies the effect of K2CO3 and Na2CO3 on the fluidization/agglomeration behavior and reactivity as well as the interaction of a braunite manganese ore oxygen carrier with K and Na in a batch fluidized bed reactor. Charcoal impregnated with K2CO3 (K-charcoal) and charcoal impregnated with Na2CO3 (Na-charcoal) were used as solid fuels in the reduction step of the simulated CLC cycles. CH4 and syngas (50% CO + 50% H2) were periodically used to evaluate the reactivity of braunite before and after solid fuel experiments. In total, more than 50 cycles were performed for both K-charcoal series and Na-charcoal series tests, while some additional cycles with non-impregnated charcoal were conducted and considered as a reference. Partial agglomeration and partial defluidization were found after cycles with K-charcoal and Na-charcoal, and the use of K-charcoal tends to lead to the partial agglomeration/defluidization faster than the use of Na-charcoal. K, Na, Si, and Ca were found at a higher concentration on the surface of the agglomerated particles and can be assumed to be responsible for the partial agglomeration. The partial agglomeration with K-charcoal happened likely as a result of surface melting of the braunite particles, whereas the formation of the low-melting-point Na–Si–Ca system could be responsible for agglomeration in the Na-charcoal experiments. The concentration of K and Na in the braunite bed was found to increase during cycles with the alkali charcoals. In total, the added masses of K and Na were 0.8 and 1.2% of the bed, and around 40 and 80% of added K and Na were found, respectively, in the used oxygen carrier particles. Although partial agglomeration and accumulation were observed in the presence of these alkalis, the reactivity of used braunite was scarcely changed in comparison to the fresh sample." @default.
W4281775737 created "2022-06-13" @default.
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W4281775737 date "2022-06-02" @default.
W4281775737 modified "2023-10-14" @default.
W4281775737 title "Oxygen Carrier and Alkali Interaction in Chemical Looping Combustion: Case Study Using a Braunite Mn Ore and Charcoal Impregnated with K2CO3 or Na2CO3" @default.
W4281775737 cites W1493086008 @default.
W4281775737 cites W1737217399 @default.
W4281775737 cites W1817445719 @default.
W4281775737 cites W1987300891 @default.
W4281775737 cites W1989208640 @default.
W4281775737 cites W1993456757 @default.
W4281775737 cites W1993672091 @default.
W4281775737 cites W1994705705 @default.
W4281775737 cites W1995640561 @default.
W4281775737 cites W2005722017 @default.
W4281775737 cites W2020364254 @default.
W4281775737 cites W2023007821 @default.
W4281775737 cites W2023972500 @default.
W4281775737 cites W2030609919 @default.
W4281775737 cites W2039455471 @default.
W4281775737 cites W2052066594 @default.
W4281775737 cites W2058404945 @default.
W4281775737 cites W2063222878 @default.
W4281775737 cites W2065486200 @default.
W4281775737 cites W2065712024 @default.
W4281775737 cites W2068273170 @default.
W4281775737 cites W2069923074 @default.
W4281775737 cites W2072186203 @default.
W4281775737 cites W2087316588 @default.
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W4281775737 cites W2105889601 @default.
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W4281775737 cites W2133966591 @default.
W4281775737 cites W2136888045 @default.
W4281775737 cites W2156157987 @default.
W4281775737 cites W2158129968 @default.
W4281775737 cites W2160332912 @default.
W4281775737 cites W2168767372 @default.
W4281775737 cites W2186018701 @default.
W4281775737 cites W229865425 @default.
W4281775737 cites W2315556760 @default.
W4281775737 cites W2315628658 @default.
W4281775737 cites W2327317101 @default.
W4281775737 cites W2334825531 @default.
W4281775737 cites W2370976763 @default.
W4281775737 cites W2509592956 @default.
W4281775737 cites W2553038646 @default.
W4281775737 cites W2579220164 @default.
W4281775737 cites W2610347739 @default.
W4281775737 cites W273067920 @default.
W4281775737 cites W2748037121 @default.
W4281775737 cites W2762729966 @default.
W4281775737 cites W2772210381 @default.
W4281775737 cites W2775185835 @default.
W4281775737 cites W2789335817 @default.
W4281775737 cites W2804628660 @default.
W4281775737 cites W2806466928 @default.
W4281775737 cites W2897101623 @default.
W4281775737 cites W2948072684 @default.
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W4281775737 cites W3214080424 @default.
W4281775737 cites W4230682300 @default.
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W4281775737 doi "https://doi.org/10.1021/acs.energyfuels.2c00553" @default.
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