References
- B. Singh, H. Singh, Synthesis of 2,2′,4,4′,6,6′-hexanitrostilbene, Defense Sci. J. 31 (1981) 305–308.
- B. Singh, R.K. Malhotr, Hexanitrostilbene and its properties, Defense Sci. J. 33 (1983) 165–176.
- M. Lu, R.K. Sun, X.L. Chun, A new method for synthesizing hexanitrostilbene (in Chinese), J. Nanjing Univ. Sci. Technol. 77(5) (1994) 8–11.
- F.J. Ludzack, D.K. Noran, Tolerance of high salinities by conventional wastewater treatment process, Water Poll. Control Fed. 37(10) (1965) 1404–1416.
- F. Kargi, A.R. Dincer, Effect of salt concentration on biological treatment of saline wastewater by fed-batch operation, Enzyme Microb. Technol. 19(7) (1996) 529–537.
- A. Uygur, F. Kargi, Salt inhibition on biological nutrient removal from saline wastewater in a sequencing batch reactor, Enzyme Microb. Technol. 34(3–4) (2004) 313–318.
- D.R. Wellington, W.R. Mitchell, Invitro cytotoxicity of certain munition nitroaromatic compounds, Chemosphere 23(3) (1991) 363–373.
- H. Schmitt, R. Altenburger, B. Jastorff, G. Schuurmann, Quantitative structure-activity analysis of the algae toxicity of nitroaromatic compounds, Chem. Res. Toxicol. 13(6) (2000) 441–450.
- M.G. Roberts, C.L. Rugh, H. Li, B.J. Teppen, S.A. Boyd, Geochemical modulation of bioavailability and toxicity of nitroaromatic compounds to aquatic plants, Environ. Sci. Technol. 41(5) (2007) 1641–1645.
- V. Miliukiene, N. Cenas, Cytotoxicity of nitroaromatic explosives and their biodegradation products in mice splenocytes: Implications for their immunotoxicity, Z. Naturforsch. C 63(7–8) (2008) 519–525.
- J.X. Zhao, T. Chai, Y.C. Liu, S.X. Zhao, L.L. Lin, Study on treatment of HNS wastewater by SCWO, Initiators Pyrotechnics 4 (2010) 46–49.
- C.Y. Wu, T. Cai, F.C. Lin, Y. Zou, G.Q. Yu, Screening of a bioflocculant-producing strain capable of HNS wastewater-degrading and application study, Tech. Water Treat. 37(1) (2011) 58–61.
- J.J. Creskoff, Vacuum distillation process and apparatus with direct air contact condensing for desalination of water, US Patent Publication No. US 3553084, 1971.
- E. Vuori, A. Pelander, K. Himberg, M. Waris, K. Niinivaara, Removal of nodularin from brackish water with reverse osmosis or vacuum distillation, Water Res. 31(11) (1997) 2922–2924.
- H.Y. Chen, C.R. Wu, Y. Jia, X. Wang, X.L. Lu, Comparison of three membrane distillation configurations and seawater desalination by vacuum membrane distillation, Desalin. Water Treat. 28(1–3) (2011) 321–327.
- J.R. Longanbach, W.H. Mlnk, Development of a process for PCB removal from triaryl phosphate hydraulic fluids by vacuum distillation, Environ. Sci. Technol. 17(5) (1983) 305–307.
- N. Li, H.Z. Ma, B. Wang, Advanced treatment of paper mill wastewater by catalytic vacuum distillation, Desalin. Water Treat. 16(1–3) (2010) 298–303.
- W. Mao, H.Z. Ma, B. Wang, Performance of batch vacuum distillation process with promoters on coke-plant wastewater treatment, Chem. Eng. J. 160(1) (2010) 232–238.
- Q.L. Zhao, Z.F. Ye, M.H. Zhang, Treatment of 2,4,6-trinitrotoluene (TNT) red water by vacuum distillation, Chemosphere 80(8) (2010) 947–950.
- W. Xie, H.Y. Ding, X.D. Zhang, The detection method of ethanol in wine and fruit wine, Chin. J. Chromatogr. 22(5) (2004) 561.
- O.J. Hao, K.K. Phull, A.P. Davis, J.M. Chen, S.W. Maloney, Wet air oxidation of trinitrotoluene manufacturing red water, Water Environ. Res. 65(3) (1993) 213–220.
- A.R. Fernández-Alba, L.H. Guil, G.D. López, Y. Chisti, Toxicity of pesticides in wastewater: A comparative assessment of rapid bioassays, Anal. Chim. Acta 426(2) (2001) 289–301.
- C.J. Kelly, N. Tumsaroj, C.A. Lajoie, Assessing wastewater metal toxicity with bacterial bioluminescence in a bench-scale wastewater treatment system, Water Res. 38(2) (2004) 423–431.
- Z.F. Ye, Q. Zhao, M.H. Zhang, Y. Gao, Acute toxicity evaluation of explosive wastewater by bacterial bioluminescence assays using a freshwater luminescent bacterium, Vibrio qinghaiensis sp. Nov, J. Hazard. Mater. 186(2–3) (2011) 1351–1354.
- G.-H. Liu, S.-N. Zhu, Z.F. Ye, Reduction in the acute toxicity of explosive wastewater containing toxic nitroaromatic compounds by a nanoscale zerovalent iron pretreatment process, Water Air Soil Pollut. 223(8) (2012) 5049–5055.
- Z.Y. Wang, Z.F. Ye, C.Y. Wang, J.H. Mou, H.C. Jiao, Z. Shen, TNT red water treatment with vacnuln distillation coupling in immobilized microorganism process (in Chinese), China Environ. Sci. 28(10) (2008) 883–887.