Department of Environmental Engineering, Peking University , Beijing 100871, China.
The Key Laboratory of Water and Sediment Sciences, Ministry of Education, Beijing 100871, China.
Environ Sci Technol. 2017 Jul 18;51(14):8110-8118. doi: 10.1021/acs.est.7b02194. Epub 2017 Jun 30.
Landfill leachate concentrate is a type of refractory organic wastewater with high environmental risk. Identification of refractory components and insights into the molecular transformations of the organics are essential for the development of efficient treatment process. In this report, molecular compositions of dissolved organic matter (DOM) in leachate concentrate, as well as changes after anaerobic/aerobic biodegradation and coagulation with salts, were characterized using electrospray ionization (ESI) coupled with Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS). DOM in leachate concentrate were more saturated and less oxidized with more nitrogen and sulfur-containing substances (accounting for 50.0%), comparing with natural organic matter in Suwannee River. Selectivity for different classes of organics during biodegradation and coagulation processes was observed. Substances with low oxidation degree (O/C < 0.3) were more reactive during biodegradation process, leading to the formation of highly oxidized molecules (O/C > 0.5). Unsaturated (H/C < 1.0) and oxidized (O/C > 0.4) substances containing carboxyl groups were preferentially removed after coagulation with Al or Fe sulfate. The complementary functions of biodegradation and coagulation in the treatment of DOM in leachate concentrate were verified at the molecular level. Lignin-derived compounds and sulfur-containing substances in leachate concentrate were resistant to biodegradation and coagulation treatments. To treat leachate concentrate more effectively, processes aimed at removal of such DOM should be developed.
垃圾渗滤液浓缩液是一种具有高环境风险的难处理有机废水。识别难处理成分并深入了解有机物的分子转化对于开发有效的处理工艺至关重要。在本报告中,使用电喷雾电离(ESI)与傅里叶变换离子回旋共振质谱(FT-ICR MS)联用,对渗滤液浓缩液中溶解有机物(DOM)的分子组成以及厌氧/好氧生物降解和盐混凝后的变化进行了表征。与苏万尼河中的天然有机物相比,渗滤液浓缩液中的 DOM 更饱和,氧化程度更低,含氮和含硫物质更多(占 50.0%)。在生物降解和混凝过程中观察到对不同类有机物的选择性。在生物降解过程中,氧化程度较低的物质(O/C < 0.3)反应性更高,导致形成高度氧化的分子(O/C > 0.5)。在 Al 或 Fe 硫酸盐混凝后,含有羧基的不饱和(H/C < 1.0)和氧化(O/C > 0.4)物质被优先去除。生物降解和混凝在渗滤液浓缩液 DOM 处理中的互补作用在分子水平上得到了验证。渗滤液浓缩液中的木质素衍生化合物和含硫物质对生物降解和混凝处理具有抗性。为了更有效地处理渗滤液浓缩液,应开发旨在去除此类 DOM 的工艺。
