化学
生物炭
吸附
浸出(土壤学)
环境化学
硝酸盐
玉米秸秆
铵
磷酸盐
硝酸铵
弗伦德利希方程
土壤水分
农学
热解
水溶液
吸附
环境科学
水解
生物化学
有机化学
物理化学
生物
土壤科学
作者
C. Colin Hollister,James J. Bisogni,Johannes Lehmann
摘要
Biochar (BC) was evaluated for nitrogen (N) and phosphorus (P) removal from aqueous solution to quantify its nutrient pollution mitigation potential in agroecosystems. Sorption isotherms were prepared for solutions of ammonium (NH4+), nitrate (NO3−), and phosphate (PO4–P) using BC of corn (Zea mays L.) and oak (Quercus spp.) feedstock, each pyrolyzed at 350 and 550°C highest treatment temperature (HTT). Sorption experiments were performed on original BC as well as on BC that went through a water extraction pretreatment (denoted WX-BC). Ammonium sorption was observed for WX-Oak-BC and WX-Corn-BC, and Freundlich model linearization showed that a 200°C increase in HTT resulted in a 55% decrease in K*F values for WX-Oak-BC and a 69% decrease in K*F for WX-Corn-BC. Nitrate sorption was not observed for any BC. Removing metals by water extraction from WX-Oak-350 and WX-Oak-550 resulted in a 25 to 100% decrease in phosphate removal efficiency relative to original Oak-350 and Oak-550, respectively. No PO4–P sorption was observed using any Corn-BC. Calcium (Ca) leached from BC produced at 550°C was 63 and 104% higher than from BC produced at 350°C for corn and oak, respectively. Leaching of P was two orders of magnitude lower in WX-Oak-BC than in WX-Corn-BC, concurrent with similar difference in magnesium (Mg). Nitrate and NH4+ leaching from consecutive water extractions of all tested BCs was mostly below detection limits.
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