模拟老化过程增强农作物秸秆生物炭对吸附镉和铅的固定化作用。

Enhanced immobilization of cadmium and lead adsorbed on crop straw biochars by simulated aging processes.

机构信息

College of Water Sciences, Beijing Normal University, Beijing, 100875, China.

MOE Key Laboratory for Earth Surface Processes, College of Urban and Environmental Sciences, Peking University, Beijing, 100871, China.

出版信息

Environ Pollut. 2022 Jun 1;302:119064. doi: 10.1016/j.envpol.2022.119064. Epub 2022 Feb 25.

DOI:10.1016/j.envpol.2022.119064

PMID:35227844

Abstract

Aging is an important natural process affecting the physiochemical properties of biochar, while mechanistic understanding of its effect on the adsorbed heavy metals is still lacking. After adsorption of Cd and Pb, biochars produced from wheat straw (WS) and maize straw (MS) at 300 and 500 C (denoted as WS300, WS500, MS300, and MS500, respectively) were subjected to 60 cycles of wet-dry or freeze-thaw aging. The results showed that simulated aging treatment transformed the Cd and Pb adsorbed on the low-temperature biochars from the readily and potentially bioavailable fractions into the non-bioavailable one, while the fractionation of Cd and Pb adsorbed on WS500 and Pb on MS500 barely changed. Spectroscopic characterization revealed that simulated aging enhanced the complexation of Cd and precipitation of Pb on the biochars. These findings suggest that heavy metals could be effectively immobilized on low-temperature biochars amended to contaminated soils in the long term.

摘要

老化是影响生物炭理化性质的一个重要自然过程，但其对吸附重金属的影响的机理仍不清楚。在吸附 Cd 和 Pb 后，用 300 和 500°C 下制备的小麦秸秆（WS）和玉米秸秆（MS）生物炭（分别表示为 WS300、WS500、MS300 和 MS500）进行 60 个干湿或冻融循环老化处理。结果表明，模拟老化处理将低温生物炭上吸附的 Cd 和 Pb 从易生物利用和潜在生物利用部分转化为非生物利用部分，而 WS500 上吸附的 Cd 和 MS500 上吸附的 Pb 的分馏变化很小。光谱特征表明，模拟老化增强了 Cd 的络合和 Pb 的沉淀。这些发现表明，低温生物炭可有效固定污染土壤中的重金属。

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模拟老化过程增强农作物秸秆生物炭对吸附镉和铅的固定化作用。

Enhanced immobilization of cadmium and lead adsorbed on crop straw biochars by simulated aging processes.

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