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第 11 期 白鸿帆,等: 焙烧活化对 Mn/ATP 的组成及脱硫性能的影响 ·1847·
度为 300 ℃时,MnCO 3 开始分解生成 MnO 2 ,随着 over ordered mesoporous La-Mn-supported Al 2O 3-CaO sorbents[J].
Chemical Engineering Journal, 2017, 321(1): 277-285.
焙烧温度升高,MnO 2 逐渐分解生成 Mn 2 O 3 、Mn 3 O 4 和
[11] Zeng B, Yue H, Liu C, et al. Desulfurization behavior of Fe-Mn-
Mn 5 O 8 ,无单一 MnO 2 的生成,因而脱硫活性较低。 based regenerable sorbents for high-temperature H 2S removal[J].
(3)锰氧化物的脱硫活性与脱硫温度密切相 Energy & Fuels, 2015, 29(3): 1860-1867.
[12] Wang J, Liang B, Parnas R. Manganese-based regenerable sorbents
关。常见的环境温度下,升高温度有利于提高 for high temperature H 2S removal[J]. Fuel, 2013, 107(9): 539-546.
MnO 2 /ATP 的硫容。后续研究中,应扩大 MnO 2 /ATP [13] Guo Jing (郭婧), Wang Ju (王菊), Liang Bin (梁斌). Preparation and
characterization of manganese-based regenerable sorbents for high
的脱硫温度,以对其应用有更全面的认识。
temperature H 2S removal[J]. CIESC Journal (化工学报), 2013,
64(7): 2580-2586.
参考文献: [14] Zhang J, Wang L, Song H, et al. Adsorption of low-concentration
[1] Lonkar S P, Pillai V, Abdala A, et al. In-situ formed graphene/ZnO H 2S on manganese dioxide-loaded activated carbon[J]. Research on
nanostructured composites for low temperature hydrogen sulfide Chemical Intermediates, 2015, 41(9): 6087-6104.
removal from natural gas[J]. RSC Advances, 2016, 6: 81142-81150. [15] Zhang J, Wang G, Wang W, et al. Effect of calcination temperature on
[2] Ma Y, Chen Z, Gong H. Study on selective hydrogen sulfide removal desulfurization performance over Mn xO y supported on MCM-41 at
over carbon dioxide by catalytic oxidative absorption method with low temperatures[J]. Research on Chemical Intermediates, 2016,
chelated iron as the catalyst[J]. Renewable Energy, 2016, 96: 1119-1126. 42(6): 6003-6012.
[3] Zhang J F, Tong Z Q. Study on catalytic wet oxidation of H 2S into [16] Vanscoyoc G E, Serna C J, Ahlrichs J L. Structural changes in
sulfur on Fe/Cu catalyst[J]. Journal of Natural Gas Chemistry, 2006, palygorskite during dehydration and dehydroxylation[J]. American
15(1): 63-69. Mineralogist, 1979, 64: 215-223.
[4] Zhou X, Huang X, Xie A, et al. V 2O 5-decorated Mn-Fe/attapulgite [17] Zhang Jie (张杰), Tang Dingguo (唐定国), Liu Haowen (刘浩文),
catalyst with high SO 2 tolerance for SCR of NO x with NH 3 at low et al. Preparation of dimanganese trioxide by decomposing
temperature[J]. Chemical Engineering Journal, 2017, 326(15): 1074- manganese carbonate under high temperature[J]. Shandong Chemical
1085. Industry (山东化工), 2013, 42(4): 1-4.
[5] Wang X, Zhong D, Hou H, et al. Catalytic degradation of PNP and [18] Suárez M, Garcia E. Ftir spectroscopic study of palygorskite:
stabilization/solidification of Cd simultaneously in soil using Influence of the composition of the octahedral sheet[J]. Applied Clay
microwave-assisted Fe-bearing attapulgite[J]. Chemical Engineering Science, 2006, 31(1): 154-163.
Journal, 2016, 304: 747-756. [19] Weng Shifu (翁诗甫), Xu Yizhuang (徐怡庄). Fourier transform
[6] Zhang Zhihong (张智宏), Liu Xingxing (刘幸幸), Li Mengzhou (李 infrared spectroscopy analysis[M]. Beijing: Chemical Industry Press
蒙舟), et al. Preparation and performance of desulfurizer CuO/ATP (化学工业出版社), 2016.
at ambient temperature[J]. CIESC Journal (化工学报), 2013, 64(7): [20] Zhang J, Wang G, Wang W, et al. Preparation of manganese dioxide
2604-2610. loaded activated carbon adsorbents and their desulfurization
[7] Li L, Wang Q N, Chen J Y. Desulfurization and regeneration performance[J]. Russian Journal of Physical Chemistry A, 2016,
properties study of Fe 2O 3/attapulgite removing H 2S[J]. Applied 90(13): 2633-2641.
Mechanics & Materials, 2012, 152/153/154: 348-353. [21] Ivanova S, Petit C, Pitchon V. A new preparation method for the
[8] Li Lan (李澜), Wang Qingning (王青宁), Yu Shurong (俞树荣), formation of gold nanoparticles on an oxide support[J]. Applied
et al. Attapulgite desulfurizer for gas phase removal of H 2S[J]. Catalysis A: General, 2004, 267(1): 191-201.
Environmental Pollution & Control (环境污染与防治), 2006, 28(8): [22] Jing H U, Sun K, Daiping H E, et al. Amorphous manganese oxide
572-575. for catalytic aerobic oxidation of benzyl alcohol[J]. Chinese Journal
[9] Wakker J P, Gerritsen A W, Moulijn J A. High temperature H 2S and of Catalysis, 2007, 28(12): 1025-1027.
COS removal with MnO and FeO on γ-Al 2O 3 acceptors[J]. Industrial [23] Yang Z, Zhang Y, Zhang W, et al. Nanorods of manganese oxides:
& Engineering Chemistry Research, 1993, 32(1): 139-149. synthesis, characterization and catalytic application[J]. Journal of
[10] Xia H, Chang X, Liu B. High-temperature H 2S removal performance Solid State Chemistry, 2006, 179(3): 679-684.
(上接第 1840 页) waterborne polyurethane for improved color stability[J]. New Journal
of Chemistry, 2015, 39(5): 3543-3550.
[21] Tao C, Han X, Bao J, et al. Preparation of waterborne polyurethane [28] Fan Meigong (樊美公), Yao Jiannian (姚建年). Light functional
with outstanding fluorescence properties and programmable emission materials science[M]. Beijing:Science Press (科学出版社), 2013:
intensity[J]. Polymer International, 2017, 66(6): 770-778. 15-43.
[22] Shi P, Jiang Q, Zhao X, et al. Study of the one-photon and [29] Satapathi S, Li L, Kumar A, et al. Strong two-photon-induced
two-photon properties of two water-soluble terpyridines and their fluorescence from a highly soluble polythiophene[J]. Optics
zinc complexes[J]. Dalton Transactions, 2015, 44(17): 8041-8048. Communications, 2011, 284(14): 3612-3614.
[23] Wang Zhonghua(王中华). Synthesis of polyacrylamide and its [30] Baek S H, Kim B K. Synthesis of polyacrylamide/polyurethane
derivatives[J]. Henan Chemical Industry(河南化工), 1989(1): 19-21. hydrogels by latex IPN and AB crosslinked polymers[J]. Colloids
[24] Han Feilong (韩飞龙). Synthesis and swelling behaviors of physical and Surfaces A:Physicochemical and Engineering Aspects, 2003,
crosslinking type polyurethane hydrogels[D]. Hefei: Anhui 220(1): 191-198.
University (安徽大学), 2016. [31] Zhang S W, Jiang J Q, Yang C, et al. Facile synthesis of waterborne
[25] Zhu Chunliu ( 朱春柳 ). Preparation and properties of solid UV-curable polyurethane/silica nanocomposites and morphology,
electrolytes based on nonionic waterborne polyurethane[D]. Hefei: physical properties of its nanostructured films[J]. Progress in Organic
Anhui University (安徽大学), 2016. Coatings, 2011, 70(1): 1-8.
[26] Han Xixi (韩曦曦). Synthesis and performance of a novel fluorescent [32] Wieczorek W, Such K, Florjanczyk Z, et al. Polyether,
poly(caprolactone)-type polyurethane[D]. Hefei:Anhui University polyacrylamide, LiClO 4 composite electrolytes with enhanced
(安徽大学), 2017. conductivity[J]. The Journal of Physical Chemistry, 1994, 98(27):
[27] Mao H, Wang C, Wang Y. Synthesis of polymeric dyes based on 6840-6850.