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药渣生物炭基质联合麦饭石对土壤-黑麦草体系的调控与机制
摘要点击 1347  全文点击 561  投稿时间:2019-03-21  修订日期:2019-05-08
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中文关键词  中药渣生物炭  麦饭石  土壤  黑麦草      修复机制
英文关键词  traditional Chinese medicine slag biochar  maifanite  soil  ryegrass  copper  cadmium  repair mechanism
作者单位E-mail
肖亮亮 南昌航空大学环境与化学工程学院, 南昌 330063 1170179629@qq.com 
丁园 南昌航空大学环境与化学工程学院, 南昌 330063 1005803795@qq.com 
中文摘要
      以板蓝根药渣为原料,选择300℃和500℃厌氧裂解制备2种生物炭(BC300和BC500)、BC500载Fe改性炭(Fe-BC500)、天然麦饭石(MFS)、BC500与MFS等质量组合[BC500∶MFS(1∶1)]、Fe-BC500与MFS等质量组合[Fe-BC500∶MFS(1∶1)]材料为钝化剂,采用室内盆栽实验和等温吸附实验,研究了其对土壤-黑麦草体系的调控效果,并通过比表面孔分布测定(BET)、扫描电镜分析(SEM)、X射线衍射(XRD)和傅里叶变换红外光谱(FTIR)探讨了其机制.结果表明,在添加量为2%(土)时,BC300、BC500、Fe-BC500、MFS、BC500∶MFS(1∶1)和Fe-BC500∶MFS(1∶1)均可显著降低(P<0.05)黑麦草体内Cu和Cd含量以及显著增加黑麦草的生物量,且黑麦草的叶绿素含量和根系活力均可指示这一效果.BC300处理抑制黑麦草吸收Cu和Cd,增加黑麦草的生物量的效果要优于其他处理,可使黑麦草地下部分Cu和Cd含量分别减少44.78%和63.89%,地上部分分别减少76.34%和53.40%;地下部分生物量增加327.22%,地上部分生物量增加504.11%.Langmuir方程更好地拟合BC300、BC500和Fe-BC500的吸附效果,且对Cu的最大吸附量分别为8.02、9.20和8.82 mg·g-1;对Cd的最大吸附量分别为7.97、8.51和7.70 mg·g-1.Freundlich方程能更好地拟合MFS的吸附效果,对Cu和Cd的最大吸附量分别为7.03 mg·g-1和6.10 mg·g-1.BC300和BC500主要通过其表面羟基、羧基、羰基和酯基,Fe-BC500主要通过其表面羟基和铁羟基,MFS主要通过其中NaAlSi3O8和Al2Si2O5(OH)4表面的硅羟基、羟基和羧基分别与Cu和Cd发生配合反应,进而达到钝化修复Cu和Cd污染土壤的效果.因此,药渣生物炭、铁改性药渣生物炭和麦饭石及其组合材料均可被用于Cu和Cd复合污染土壤修复,但修复机制不同.
英文摘要
      An indoor pot experiment and isothermal adsorption experiment were used to examine the regulation of soil-ryegrass system treatments. For the treatments, Banlangen dregs were selected as a raw material alongside two kinds of biochar (BC300, BC500) prepared by pyrolysis at 300℃ and 500℃ under anoxic conditions. Fe was modified by BC500 (Fe-BC500), which was then combined with maifanite (MFS) as a passivating agent[BC500:MFS (1:1) and Fe-BC500:MFS (1:1)]. Surface pore distribution (BET), scanning electron microscopy (SEM), X-ray diffraction (XRD), and Fourier-transform infrared spectroscopy (FTIR) were used in the analyses. The results showed that treatment with BC300, BC500, Fe-BC500, MFS, BC500:MFS (1:1), and Fe-BC500:MFS (1:1) significantly reduced the Cu and Cd content (2% content in soil) of ryegrass (P<0.05) and significantly increased the biomass of ryegrass. This effect could have resulted from the enhanced chlorophyll content and root activity of the ryegrass. The effect of BC300 was better than the other treatments, which reduced the content of Cu and Cd in the roots of ryegrass by 44.78% and 63.89%, respectively, and in the aboveground biomass by 76.34% and 53.40%, respectively. The biomass of roots was also increased by 327.22%, and the aboveground biomass increased by 504.11%. The Langmuir equation produced the best fit for adsorption effects of BC300, BC500, and Fe-BC500, for which the maximum adsorption capacity for Cu was 8.02, 9.20, and 8.82 mg·g-1, respectively. The maximum adsorption capacity for Cd was 7.97, 8.51, and 7.70 mg·g-1, respectively. The Freundlich equation gave a better fit for the adsorption of MFS. In this case, the maximum adsorption capacity for Cu and Cd was 7.03 mg·g-1 and 6.10 mg·g-1, respectively. BC300 and BC500 mainly passes through their surface hydroxyl, carboxyl, carbonyl, and ester groups; Fe-BC500 mainly passes through its surface hydroxyl group and iron hydroxyl group; MFS mainly passes through its silicon hydroxyl group, hydroxyl group, and carboxyl group on the surface of NaAlSi3O8 and Al2Si2O5(OH)4 and then to repair passivated Cu and Cd contaminated soil effect. Therefore, Banlangen dregs biochar, iron-modified Banlangen dregs biochar, maifanite, and the combination of these materials can be used for the remediation of Cu and Cd contaminated soils, although the mechanism of remediation is different.

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