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第 1 期贾艳萍，等: Mn 促进 Fe/C 微电解反应速率及降解污染物机理 ·161·

1125-1135, 1170. 37(9): 3498-3507.
[5] BHAVIVA R R, UMADEVI M, PARIMALADEVI R. Enhanced [23] XU C C (许淳淳), WANG Z S (王紫色), WANG J L (王菊琳).
photocatalytic degradation of textile dyeing wastewater under UV Appearance and formation process of corrosion products on
and visible light using ZnO/MgO nanocomposites as a novel archaeological iron in simulated soil media[J]. CIESC Journal (化工
photocatalyst[J]. Particulate Science and Technology, 2020, 38(7): 学报), 2005, 56(12): 2373-2379.
812-820. [24] CAO P G (曹佩根), XU H Y (徐浩元), CAO W D (曹文东), et al.
[6] BAE W, HAN D, KIM E, et al. Enhanced bioremoval of refractory Two-dimensional surface Raman imaging of a roughened iron
compounds from dyeing wastewater using optimized sequential electrode in saline solution[J]. Spectroscopy and Spectral Analysis
anaerobic/aerobic process[J]. International Journal of Environmental (光谱学与光谱分析), 2000, 20(6): 800-802.
Science and Technology, 2016, 13(7): 1675-1684. [25] GU W ( 顾伟 ), CAO P G ( 曹佩根 ), GU R A ( 顾仁敖 ).
[7] ZHANG L L, YUE Q Y, YANG K L, et al. Enhanced phosphorus and Surface-enhanced Raman spectroscopy in studies of corrosion and
ciprofloxacin removal in a modified BAF system by configuring inhibition on an iron surface[J]. Spectroscopy and Spectral Analysis
Fe-C micro electrolysis: Investigation on pollutants removal and (光谱学与光谱分析), 2005, 25(9): 1412-1417.
degradation mechanisms[J]. Journal of Hazardous Materials, 2018, [26] ZHANG Y P (张亚萍), WANG J H (王金慧), YU L Q (于濂清), et
342(15): 705-714. al. In situ synthesis of iron oxide/pyrite composite by vapour
[8] WANG Y B (王毅博), FENG M Q (冯民权), LIU Y H (刘永红), et deposition process and its photoelectricity properties[J]. Journal of
al. Recent advances on iron-carbon micro-electrolysis technology for China University of Petroleum (Edition of Natural Science) (中国
refractory wastewater[J]. Chemical Industry and Engineering 石油大学学报: 自然科学版), 2019, 43(2): 171-176.
Progress (化工进展), 2018, 37(8): 3188-3196. [27] CAI D R (蔡东仁), ZHAN G W (詹国武), XIAO J R (肖静冉), et al.
[9] YANG B, GAO Y Y, YAN D M, et al. Degradation characteristics of Synthesis of sulfonic acid functionalized ionic liquids for catalytic
color index direct blue 15 dye using iron-carbon micro-electrolysis applications in biodiesel production[J]. CIESC Journal (化工学报),
coupled with H 2O 2[J]. International Journal of Environmental 2021, 72(7): 3601-3612.
Research and Public Health, 2018, 15(7): 1523-1536. [28] SHEN X M (申星梅), CHENG G Q (程国庆), SONG L L (宋路路),
[10] WANG G (王刚). Study on the new micro electrolysis preparation et al. Structure and infrared emissivity of Sr doped lanthanum
and pretreatment of azo dye wastewater[D]. Tianjin: Tianjin manganites[J]. Journal of the Chinese Ceramic Society (硅酸盐学
University of Science and Technology (天津科技大学), 2016. 报), 2016, 44(9): 1315-1319.
[11] HE W (何威), LI G J (李桂菊), SONG J (宋洁), et al. Research on a [29] FENG C Q (冯传启), ZHANG K L (张克立), SUN J T (孙聚堂).
new type of micro-electrolysis material for the degradation of Research on IR spectra of Li-Mn spinel[J]. Spectroscopy and
printing and dyeing wastewater[J]. Industrial Water Treatment (工业 Spectral Analysis (光谱学与光谱分析), 2003, 1(2): 279-281.
水处理), 2018, 38(10): 71-74. [30] DUAN J S (段鉴书), LI Y (李艳), XU X M (许晓明), et al. Raman
[12] SUN Z Z, LIU Z H, HAN L, et al. Study on the treatment of spectroscopy of ion exchange in interlayer of triclinic birnessite[J].
simulated azo dye wastewater by a novel micro-electrolysis filler[J]. Earth Science (地球科学), 2018, 43(5): 1623-1634.
Water Science and Technology, 2019, 79(12): 2279-2288. [31] TONG Q S (童庆松), YANG Y (杨勇), LIAN J M (连锦明).
[13] TEBO B M, BARGAR J R, CLEMENT B G, et al. Biogenic Electrochemical performance of doped LiMn 2O 4 synthesized by used
manganese oxides: Properties and mechanisms of formation[J]. titanium doped electrolytic manganese dioxide[J]. Chinese Journal of
Annual Review of Earth and Planetary Sciences, 2004, 32(1): Inorganic Chemistry (无机化学学报), 2005, 12(12): 19-25, 4.
287-328. [32] HE J (何婧), XU Z G (徐志广), ZENG Y X (曾允秀), et al. Effect of
[14] LI T (李彤), YANG H (杨浩), YANG K W (杨凯文), et al. Treatment substituents on Mn―O bond in oxo-manganese ( Ⅴ ) corrole
of hydroquinone-containing wastewater by Fe-Mn-C complexes[J]. Acta Physico-Chimica Sinica (物理化学学报), 2012,
microelectrolysis process[J]. Environmental Protection of Chemical 28(7): 1658-1664.
Industry (化工环保), 2015, 35(2): 127-131. [33] JIAO J Z (焦金珍), LI S H (李时卉), HUANG B C (黄碧纯).
[15] CHEN Y F (陈月芳), CAO L X (曹丽霞), YU L L (于璐璐), et al. Preparation of manganese oxides supported on graphene catalysts
Pretreatment of refractory pesticide wastewater by intensified and their activity in low-temperature NH 3-SCR[J]. Acta
microelectrolysis[J]. Chinese Journal of Environmental Engineering Physico-Chimica Sinica (物理化学学报), 2015, 31(7): 1383-1390.
(环境工程学报), 2012, 6(7): 2361-2366. [34] WANG S (王帅), XU J P (徐俊平), WANG N (王楠), et al.
[16] SONG Z (宋智), SHEN Z X (申泽星), WANG F Y (王飞羽), et al. Structural characteristics of mineral-microbial residues formed by
Research on treatment of dyestuff wastewater through microbial utilization of lignin joined with Fe, Al, Mn-oxides based on
micro-electrolysis[J]. Journal of Kunming University of Science and FTIR and SEM Techniques[J]. Spectroscopy and Spectral Analysis
Technology(Science and Technology) (昆明理工大学学报: 理工 (光谱学与光谱分析), 2018, 38(7): 2086-2093.
版), 2007, 32(2): 83-85.
[17] LUO F S( 罗发生 ). The treatment of lead and zinc smelting [35] TANG C (汤超), LIAO Z T (廖宗廷), ZHONG Q (钟倩), et al.
Roman spectra and microstructure charateristics of dendrite in
wastewater by Fe-C micro-electrolysis and flocculation[D]. Xingjiang nephrire gravel[J]. Spectroscopy and Spectral Analysis (光
Kunming: Kunming University of Science and Technology (昆明理谱学与光谱分析), 2017, 37(2): 456-460.
工大学), 2011.
[18] ZHOU S W (周升旺). A study of reaction between metallic [36] GAO W L (高婉露), WANG X L (王小林), QIU Y (丘靥), et al.
Raman spectroscopic measurements of the composition and pressure
manganese and water in MnCl 2 solution[J]. China Manganese of C-H-O-N volatiles: Influences of pressure, temperature and fluid
Industry (中国锰业), 2008, 26(4): 37-40.
composition[J]. Geochimica (地球化学), 2020, 49(2): 121-140.
[19] LAO D P (劳德平), DING S Q (丁书强), NI W (倪文), et al. [37] ZHAO Y Y (赵媛媛), LIU W J (刘文静), DONG P (董培), et al.
Preparation polysilicate aluminum ferric coagulant from solid waste
which containing aluminum, iron and silicon: Response surface Fabrication of Ti/PbO 2 electrodes with polyaniline interlayer for
method optimization and microstructure characterization[J]. China electro-catalytic oxidation of organic pollutants[J]. Chemical
Environmental Science (中国环境科学), 2018, 38(10): 3720-3728. Industry and Engineering Progress ( 化工进展 ), 2019, 38(12):
[20] TANG L P (唐立朋), WEI Q S (魏群山), LYU Q (吕强), et al. 5478-5486.
Optimization of dyeing wastewater treatment with new eco-friendly [38] LIU Z H ( 刘作华 ). Study on microwave-induced catalytic
polysilicate ferromanganese[J]. Environmental Science (环境科学), degradation of aqueous methyl orange solution with mineral bearing
2019, 40(1): 318-326. chromium[D]. Chongqing: Chongqing University (重庆大学), 2005.
[21] LI N (李娜), SUN Z M (孙竹梅), RUAN F H (阮福辉), et al. [39] WANG F (王芳). Research on treatment of methyl orange simulated
Mechanism of removing arsenic (Ⅲ) with ferric chloride[J]. CIESC dye wastewater using microwave assisted wet oxidation methods[D].
Journal (化工学报), 2012, 63(7): 2224-2228. Beijing: North China Electric Power University (华北电力大学),
[22] CUI M M (崔蒙蒙), WANG D S (王殿升), HUANG T Y (黄天寅), 2011.
et al. Adsorption characteristics of phosphorus wastewater on the
synthetic ferrihydrite[J]. Environmental Science (环境科学), 2016, （下转第 199 页）

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