Fuller Mark E, Hedman Paul C, Chu Kung-Hui, Webster Todd S, Schaefer Charles E, Tran Danielle N, Hatzinger Paul B
Aptim Federal Services, 17 Princess Road, Lawrenceville, 08648, NJ, USA.
Aptim Federal Services, 17 Princess Road, Lawrenceville, 08648, NJ, USA.
Chemosphere. 2025 Sep;386:144606. doi: 10.1016/j.chemosphere.2025.144606. Epub 2025 Aug 18.
The treatment of wastewater containing the new insensitive energetic formulation IMX-104, which consists of the legacy explosive RDX and insensitive high explosives (IHE), 2,4-dinitroanisole (DNAN) and 3-nitro-1,2,4-triazole-5-one (NTO), was evaluated using a dual anaerobic-aerobic membrane bioreactor system. RDX and DNAN in the wastewater were completely degraded in the anaerobic MBR, with no observed production of common reduced daughter products (e.g., MNX, DNX or TNX for RDX and 2-ANAN, 4-ANAN, and DAAN for DNAN). NTO concentrations as high as 2 g L were biotransformed predominantly to 3-amino-1,2,4-triazole-5-one (ATO) in the anaerobic MBR. The ATO degrading capacity of the aerobic MBR was exceeded at the high NTO concentrations, but subsequent polishing with 5 % sodium hypochlorite (∼4000 mg L free chlorine) resulted in complete ATO removal. Electrochemical oxidation and UV/HO treatment was also demonstrated to be effective for removal of residual ATO. The dual MBR system was fed a broader mixture of munitions constituents during some phases of operation, including HMX, TNT, nitroguanidine (NQ), perchlorate, and nitrate, and was observed to biodegrade these compounds even after a 90-day period when they were absent from the influent (i.e., during IMX-104 treatment). The dual MBR with sodium hypochlorite polishing proved to be highly effective for treatment of IMX-104 wastewater, as well as for removal of a variety of other munitions constituents.
采用厌氧-好氧双膜生物反应器系统对含有新型钝感含能配方IMX-104的废水进行了处理。IMX-104由传统炸药RDX和钝感高能炸药(IHE)、2,4-二硝基苯甲醚(DNAN)和3-硝基-1,2,4-三唑-5-酮(NTO)组成。废水中的RDX和DNAN在厌氧膜生物反应器中完全降解,未观察到常见还原子产物(如RDX的MNX、DNX或TNX以及DNAN的2-ANAN、4-ANAN和DAAN)的产生。在厌氧膜生物反应器中,高达2 g/L的NTO浓度主要生物转化为3-氨基-1,2,4-三唑-5-酮(ATO)。在高NTO浓度下,好氧膜生物反应器的ATO降解能力不足,但随后用5%次氯酸钠(约4000 mg/L游离氯)进行精处理可实现ATO的完全去除。电化学氧化和UV/H₂O₂处理也被证明对去除残留ATO有效。在运行的某些阶段,向双膜生物反应器系统中投喂了更广泛的弹药成分混合物,包括HMX、TNT、硝基胍(NQ)、高氯酸盐和硝酸盐,并且观察到即使在进水90天未出现这些化合物(即IMX-104处理期间)后,该系统仍能对其进行生物降解。事实证明,配备次氯酸钠精处理的双膜生物反应器对处理IMX-104废水以及去除各种其他弹药成分非常有效。
