Page 160 - 《精细化工》2020年第3期

P. 160

·578· 精细化工 FINE CHEMICALS 第 37 卷

也是重点考虑的因素。关系到能耗的重要因素是极板 Technology (环境工程技术学报), 2013, 3(6): 514-518.
[9] WANG Yaping (王亚平), HU Shuwan (胡淑婉), CAO Feng (曹峰).
间的电阻值。极板间距和膜电阻决定电解过程的电压 Research progress of cathode materials for lithium ion batteries[J].
Power Supply Technology (电源技术), 2017, 41(4): 638-640.
值，缩短极板间距可进一步降低起始电压。离子克服 [10] FARAJI S, ANI F N. The development supercapacitor from activated
离子交换阻力完成迁移，离子交换膜自身电阻降低， carbon by electroless plating—A review[J]. Renewable and Sustainable
Energy Reviews, 2015, 42: 823-834.
电解过程离子迁移阻力随之降低，槽电压随之降低。 [11] LI Tongqing (李同庆). New progress of electrolytic manganese
dioxide production technology[J]. Battery Industry (电池工业),
所以，在符合电解条件下尽可能缩短极板间距，选用 2007, 12(3): 178-183.
膜电阻低的离子交换膜也是降低能耗的重要手段。当 [12] ACHARYA C, KAR R N, SUKLA L B. Studies on reaction mechanism
of bioleaching of manganese ore[J]. Minerals Engineering, 2003,
然，膜的选择不仅要考虑其阻值，利用膜法实现金属 16(10): 1027-1030.
[13] XIN B, CHEN B, DUAN N, et al. Extraction of manganese from
锰和二氧化锰的同步制备，关键还要考虑膜的选择透 electrolytic manganese residue by bioleaching.[J]. Bioresource
过性，以及膜的抗氧化性、耐久性，其直接关系到工 Technology, 2011, 102(2): 1683-1687.
[14] MENG Yunsheng (孟运生), XU Xiaojun (徐晓军), WANG Jikun (王吉
艺的投资成本以及中格室硫酸的回收效率。坤 ). Study on bacterial leaching of lean manganese ore[J].
Hydrometallurgy (湿法冶金), 2002, 21(4): 184-187.
[15] CHEN Shang (陈上), XIAO Zhuobing (肖卓炳), LIU Jianben (刘建
3 结论本), et al. Generation of manganese and manganese dioxide by
electrolysis in the same cell [J]. Journal of Jishou University (Natural
Science Edition) (吉首大学学报: 自然科学版), 2009, 30(3): 86-90.
不同影响因素在电解过程中既影响能耗，又直 [16] WANG Sanfan (王三反), ZHOU Jian (周键), WANG Ting (王挺), et
接影响产品质量及产量。 al. A membrane electrowinning cell for metal chloride refining: CN
102839396 A[P]. 2012-12-26.
通过跨学科组合，将传统电解锰和二氧化锰两 [17] ZHOU Jian ( 周键 ), WANG Sanfan ( 王三反 ). A membrane
electrowinning device for refining metal sulfate solution. CN103388161A
个系统用离子交换膜合二为一，通过对不同影响因 [P]. 2012-08-20.
素的实验分析发现：（1）在阴极，采用不锈钢极板控制 [18] CONG Lin (丛琳). Study on process flow of double membrane and
three chamber electrolysis[D]. Lanzhou: Lanzhou Jiaotong University
2+
溶液中 Mn 质量浓度 35~41 g/L、电解温度 35~37 ℃、 (兰州交通大学), 2014.
[19] GUAN Wenxue (关文学), WANG Sanfan (王三反), LI Yanhong (李艳
2
pH=7.0~7.2、电流密度 350~400 A/m 、添加剂 SeO 2 红). The development and prospects of ion exchange membranes are
浓度 0.03~0.04 g/L 的条件下，锰沉积效果最好，电 summarized. [J]. Applied Chemical Industry (应用化工), 2019, 48(4):
888-892.
流效率可维持在 75%左右；（2）在阳极，采用钛涂 [20] YANG Qingxia (杨青霞), WANG Sanfan (王三反), SONG Xiaosan (宋
小三), et al. Modification of PVDF cation exchange alloy membrane
二氧化铅极板，外加硫酸浓度达到 2.5 mol/L、电流 by polyaniline wetting method[J]. Industrial water treatment (工业水
2
密度 800 A/m 条件下，二氧化锰具有较高产量；（3）处理), 2019, 39(6): 86-88, 110.
[21] ZOU Xin (邹信), ZHANG Xuemin (张学敏), WANG Sanfan (王三
随着电解进行，中间隔室硫酸的浓度逐步增长，隔反), et al. Polyvinylidene fluoride sulfonic acid film modified by low
temperature plasma pre-irradiation [J]. Water Treatment Technology
室导电性提高，整个系统电压下降明显加快，最后 (水处理技术), 2018, 44(11): 38-40, 44.
趋于平稳，电解结束，硫酸质量浓度可达 100 g/L [22] ZHOU J, WANG S F, SONG X S. Electrodeposition of cobalt in double-
membrane three-compartment electrolytic reactor[J]. Transactions of
以上，经浓缩可重复用于制液，实现系统循环；（4） Nonferrous Metals Society of China, 2016, 26(6): 1706-1713.
[23] ZHOU Jian (周键), WANG Sanfan (王三反), SONG Xiaosan (宋
整个系统对膜的性能要求较高，特别是阳极格室一小三), et al. Ion transport of electrodeposited cobalt in a two-film
侧的阳膜，需具备良好的抗氧化性，虽然目前工业 three- chamber electrolyzer[J]. Journal of China Nonferrous Metals
(中国有色金属学报), 2016, (11): 2426-2432.
生产的阳膜已可以实现连续电解较长时间不损坏，但 [24] ZHANG Ying (张颖). Study on technological conditions and mass
transfer mechanism of electrolytic manganese and manganese dioxide in
从整个系统的工业化生产来看，膜寿命越长，电解 the same cell [D]. Chongqing : Chongqing University (重庆大学), 2006.
成本也就越低，膜的研发依然是整个系统的关键。 [25] LI Weishan (李伟善). Summary of electrolytic production of manganese
metal[J]. Guangdong Chemical Industry (广东化工), 1989, (1): 5-9.
[26] ZHANG Wenshan (张文山). Manufacturing method of electrolytic
参考文献： manganese metal in Japan[J]. China's Manganese Industry (中国锰业),
2011, 29(2): 55-59.
[1] YANG Zhizhong (杨志忠). Application and prospect of electrolytic [27] CHEN Nanxiong (陈南雄), LIAO Zanwei (廖赞伟). Effect of electrolyte
manganese metal in stainless steel industry[J]. China's Manganese composition on the process of electrolytic metal manganese[J]. China's
Industry (中国锰业), 2013, 31(1): 1-3.
[2] ZHU Zhigang (朱志刚). Review and future prospect of China's Manganese Industry (中国锰业), 2008, 26(4): 5-8.
electrolytic manganese industry in 2017[J]. China's Manganese [28] ZHOU Qiang (周强). Overview of electrolytic process for producing
Industry (中国锰业), 2018, 36(1): 1-5. manganese metal[J]. Journal of Lingling University (零陵学院学报),
[3] LI Tongqing (李同庆), LI Hui (李慧), ZHANG Liyun (张丽云). 2004, (11): 133-135.
Review and prospect of electrolytic manganese dioxide market in [29] CHEN Haiqing (陈海清), NIU Shasha (牛莎莎), WANG Zhixing (王志
2017[J]. China's Manganese Industry (中国锰业), 2018, 36(3): 1-4. 兴), et al. Study on preparation of microparticle electrolytic manganese
[4] DUAN N, DAN Z, WANG F, et al. Electrolytic manganese metal dioxide by electrolysis[J]. Hunan Nonferrous Metals (湖南有色金属),
industry experience based China’s new model for cleaner production 2015, 31(3): 51-56.
promotion[J]. Journal of Cleaner Production, 2011, 19(17): 2082-2087. [30] MAPHANGA R R, PARKER S C, NGOEPE P E. Atomistic simulation
[5] TAN Zhuzhong ( 谭柱中 ). EMM industry in China[J]. China's of the surface structure of electrolytic manganese dioxide[J]. Surface
Manganese Industry(中国锰业), 2005, 23(2): 5-6. Science, 2009, 603(21): 3184-3190.
[6] TAN Zhuzhong (谭柱中). Manganese metallurgy[M]. Changsha: Central [31] YANG Ping, MAN Ruilin, ZHAO Pengfei. Research progress of
South University Press (中南大学出版社), 2007: 15-22. additives of electrolytic manganese[J]. Journal of Chemical Industry &
[7] WANG Z Z, SHI F F, DAN Z G, et al. Suggestions for revising the Engineering, 2012, 33(3): 21-25.
evaluation index system of cleaner production in electrolytic manganese [32] GONG Jie, ZANGARI Giovanni. Electrodeposition and characterization
industry[J]. Journal of Environmental Engineering Technology, 2016, 6 of manganese coatings[J]. Journal of The Electrochemical Society,
(2): 175-179. 2002, 149(4): C209-C217.
[8] LI Xuhua (李旭华), ZHOU Changbo (周长波), ZHU Ningfang (朱 [33] CLARKE C J, BROWNING G J, DONNE S W. An RDE and RRDE
宁芳), et al. Evaluation of pollution control technology in electrolytic study into the electrodeposition of manganese dioxide[J]. Electrochimica
manganese industry[J]. Journal of Environmental Engineering Acta, 2006, 51(26): 5773-5784.

155 156 157 158 159 160 161 162 163 164 165