[1] |
DENISE M A, ISABELLE M C, DARREN S D, et al. Organic and inorganic composition and microbiology of produced waters from pennsylvania shale gas wells[J]. Applied Geochemistry, 2015, 60(4): 116-125.
|
[2] |
ZHANG L, LIU X, GUO X, et al. Investigation on the degradation of brilliant green induced oxidation by NiFe2O4 under microwave irradiation[J]. Chemical Engineering Journal, 2011, 173(3): 737-742. doi: 10.1016/j.cej.2011.08.041
|
[3] |
GUPTA V K, SUHAS. Application of low-cost adsorbents for dye removal: A review[J]. Journal of Environmental Management, 2009, 90(8): 2313-2342. doi: 10.1016/j.jenvman.2008.11.017
|
[4] |
ADAK A, BANDYOPADHYAY M, PAL A. Removal of crystal violet dye from wastewater by surfactant-modified alumina[J]. Separation & Purification Technology, 2005, 44(2): 139-144.
|
[5] |
SLOKAR Y M, MAJCEN L M A. Methods of decoloration of textile wastewaters[J]. Dyes & Pigments, 1998, 37(4): 335-356.
|
[6] |
MANAL M A, EL-NAGGAR S, EL-AASAR A, et al. Bioremediation of crystal violet using air bubble bioreactor packed with pseudomonas aeruginosa[J]. Water Research, 2005, 39(20): 5045-5054. doi: 10.1016/j.watres.2004.08.001
|
[7] |
LIAO Y, FU M, CHEN L, et al. Catalytic oxidation of toluene over nanorod-structured Mn-Ce mixed oxides[J]. Catalysis Today, 2013, 216(18): 220-228.
|
[8] |
CHEN C C, LIAO H J, CHENG C Y, et al. Biodegradation of crystal violet by pseudomonas putida[J]. Biotechnology Letters, 2007, 29(3): 391-396. doi: 10.1007/s10529-006-9265-6
|
[9] |
MEHRJOUEI M, SIEGFRIED M, DETLEV M. A review on photocatalytic ozonation used for the treatment of water and wastewater[J]. Chemical Engineering Journal, 2015, 263(1): 209-219.
|
[10] |
ANA M, REY A, FERNANDO J, et al. Solar photo-ozonation: A novel treatment method for the degradation of water pollutants[J]. Journal of Hazardous Materials, 2016, 317(1): 36-43.
|
[11] |
杨静, 王建兵, 王亚华, 等. 高级氧化工艺处理煤化工浓盐水[J]. 环境工程学报, 2015, 9(8): 3680-3686. doi: 10.12030/j.cjee.20150815
|
[12] |
王超, 赵旭, 侯子义, 等. 光电催化氧化处理反渗透浓水[J]. 环境工程学报, 2014, 1(8): 3189-3194.
|
[13] |
WANG J L, XU L J. Advanced oxidation processes for wastewater treatment: formation of hydroxyl radical and application[J]. Critical Reviews in Environmental Science and Technology, 2012, 42(3): 251-325. doi: 10.1080/10643389.2010.507698
|
[14] |
王利平, 沈肖龙, 倪可, 等. 非均相催化臭氧氧化深度处理炼油废水[J]. 环境工程学报, 2015, 9(5): 2297-2302.
|
[15] |
杜松, 金文标, 王吉坤, 等. 非均相催化臭氧氧化处理煤化工高含盐废水[J]. 煤炭科学技术, 2018, 46(9): 54-58.
|
[16] |
DHANDAPANI B, OYAMA S T. Gas phase ozone decomposition catalysts[J]. Applied Catalysis B: Environmental, 1997, 11(2): 129-166. doi: 10.1016/S0926-3373(96)00044-6
|
[17] |
CHEN C, LI Y, MA W, et al. Mn-Fe-Mg-Ce loaded Al2O3 catalyzed ozonation for mineralization of refractory organic chemicals in petroleum refinery wastewater[J]. Separation and Purification Technology, 2017, 183(1): 1-10.
|
[18] |
亓丽丽. 非均相臭氧催化氧化对氯苯酚机理研究及其工艺应用[D]. 哈尔滨: 哈尔滨工业大学, 2013.
|
[19] |
庄海峰. 催化臭氧化-生物组合工艺深度处理煤制气废水效能的研究[D]. 哈尔滨: 哈尔滨工业大学, 2015.
|
[20] |
朱秋实, 陈进富, 姜海洋, 等. 臭氧催化氧化机理及其技术研究进展[J]. 化工进展, 2014, 33(4): 1010-1014.
|
[21] |
IKHLAQ A, BROWN D R, KASPRZYK-HORDERN B. Mechanisms of catalytic ozonation: An investigation into superoxide ion radical and hydrogen peroxide formation during catalytic ozonation on alumina and zeolites in water[J]. Applied Catalysis B: Environmental, 2013, 129(1): 437-449.
|
[22] |
QI F, XU B, CHEN Z, et al. Catalytic ozonation of 2-iso-propyl-3-methoxypyrazine in water by γ-AlOOH and γ-Al2O3: Comparison of removal efficiency and mechanism[J]. Chemical Engineering Journal, 2013, 219(1): 527-536.
|
[23] |
DAI Q, WANG J, YU J, et al. Catalytic ozonation for the degradation of acetylsalicylic acid in aqueous solution by magnetic CeO2 nanometer catalyst particles[J]. Applied Catalysis B: Environmental, 2014, 144(1): 686-693.
|
[24] |
AFZAL S, QUAN X, ZHANG J. High surface area mesoporous nanocast LaMO3(M=Mn, Fe) perovskites for efficient catalytic ozonation and an insight into probable catalytic mechanism[J]. Applied Catalysis B: Environmental, 2017, 206(1): 692-703.
|