Research and Practice of Deep Purification and Desalination Reuse Technology for Complex Gold Wastewater

Shaoyuan SHI; Junqiang WANG; Yongchun WANG; Guodong WANG; Manman ZHANG; Zhi SUN

doi:10.11872/j.issn.1005-2518.2018.04.535

Gold Science and Technology >

2018 , Vol. 26 >Issue 4: 535 - 542

DOI: https://doi.org/10.11872/j.issn.1005-2518.2018.04.535

Research and Practice of Deep Purification and Desalination Reuse Technology for Complex Gold Wastewater

Shaoyuan SHI ^,¹^,³ ,
Junqiang WANG ² ,
Yongchun WANG ² ,
Guodong WANG ² ,
Manman ZHANG ³ ,
Zhi SUN ¹

Expand

¹ Beijing Engineering Research Center of Process Pollution Control，Division of Environment Technology and Engi-neering，Key Laboratory of Green Process and Engineering，Institute of Process Engineering，Chinese Academy of Sciences，Beijing 100190，
²Lingbao Gold Group Co.，Ltd.，Lingbao 472500，Henan，China
³Zhengzhou Institute of Emerging Industrial Technology，Zhengzhou 450000，Henan，China

Received date: 2018-04-25

Revised date: 2018-07-16

Online published: 2018-10-17

Fold

Highlights

The serious environmental pollution is caused by gold hydrometallurgy wastewater due to containing large amount of inorganic salts，various heavy metals，ammonia nitrogen，cyanide and COD，etc.，but the target discharge of wastewater cannot be achieved by the present treatment technologies.A series of key technologies for advanced treatment and desalination reuse of gold hydrometallurgical wastewater have been developed，including waste acid purification and resource，valuable metal recovery and heavy metal removal，cyanide recovery by hydrophobic membrane，organic matter removal by advanced oxidation，electrodialysis desalination，etc.The key technologies were integrated for collaborative control and resource utilization of multiple pollutants，to establish the engineering package of multi pollutant collaborative control and resource for gold hydrometallurgy wastewater and to form a complete technology and equipment.The application feasibility of related technologies was verified by field test.The industrial application of the technology has been promoted for achieving the goal of advanced treatment and near zero discharge of gold hydrometallurgical wastewater.

Cite this article

Shaoyuan SHI , Junqiang WANG , Yongchun WANG , Guodong WANG , Manman ZHANG , Zhi SUN . Research and Practice of Deep Purification and Desalination Reuse Technology for Complex Gold Wastewater[J]. Gold Science and Technology, 2018 , 26(4) : 535 -542 . DOI: 10.11872/j.issn.1005-2518.2018.04.535

[an error occurred while processing this directive]

References

Publishing order | Descend order by publishing year | Descend order by cited within

1	尚军刚，杨要锋，赵可江. 难选冶矿黄金冶炼工艺和技术［J］.中国有色冶金，2012，52（1）：30-34. Shang Jungang ， Yang Yaofeng ， Zhao Kejiang . Extracting process and technology of refractory gold ore［J］.China Nonferrous Metallurgy，2012，52（1）：30-34.

2	梁高喜，张文岐，王伯义. 黄金冶炼生产废水的综合治理及利用［J］.中国有色冶金，2016，45（3）：64-66，70. Liang Gaoxi ， Zhang Wenqi ， Wang Boyi . Comprehensive treatment and utilization of wastewater from gold smelting［J］.China Nonferrous Metallurgy，2016，45（3）：64-66，70.

3	杨要峰，李林波. 黄金冶炼过程含重金属氰化废水处理研究［J］.黄金，2011，32（8）：58-60. Yang Yaofeng ， Li Linbo . Treatment of cyanidation wastewater containing heavy metals in gold smelting process［J］.Gold，2011，32（8）：58-60.

4	黄江波，覃朝科，黎朝，等. 黄金冶炼酸性废水提标处理试验研究［J］.广州化工，2016，42（10）：148-150. Huang Jiangbo ， Qin Zhaoke ， Li Zhao ，et al. Experimental research on upgrading the acid wastewater from the gold smelting［J］.Guangzhou Chemical Industry，2016，42（10）：148-150.

5	樊小娟. 云冶高砷酸性废水处理方案探讨［J］.有色冶炼，1998（5）：52-56. Fan Xiaojuan . Disscussion on the programme of the arsenic acid waste treatment of Yunye smelter［J］.Non-Ferrous Smelting，1998（5）：52-56.

6	陈芳芳，张亦飞，薛光. 黄金冶炼污染治理与废物资源化利用［J］.黄金科学技术，2011，19（2）：66-73. Chen Fangfang ， Zhang Yifei ， Xue Guang . Disposal to pollution and resource utilization to waste for gold smelting［J］.Gold Science and Technology，2011，19（2）：66-73.

7	方荣茂. 黄金冶炼厂含氰废水处理工艺研究及工程应用［J］.广州化工，2016，44（16）：116-119，154. Fang Rongmao . Research and engineering application on treatment process of cyanide wastewater in a gold smelter［J］.Guangzhou Chemical Industry，2016，44（16）：116-119，154.

8	石月凤，陈亚鹏，陈建新. 硫酸生产废水的综合治理［J］.河北省科学院学报，2008，25（2）：60-62. Shi Yuefeng ， Chen Yapeng ， Chen Jianxin . Comprehensive management of wastewater in sulphuric acid production［J］.Journal of the Hebei Academy of Sciences，2008，25（2）：60-62.

9	Kuyucak N ， Akcil A. Cyanide and removal options from effluents in gold mining and metallurgical processes［J］.Minerals Engineering，2013，51（5）：13-29.

10	Maulana I ， Takahashi F. Cyanide removal study by raw and iron-modified synthetic zeolites in batch adsorption experiments［J］.Journal of Water Process Engineering，2018，22：80-86.

11	Brüger A ， Fafilek G ， Restrepo O J ，et al. On the volatilisation and decomposition of cyanide contaminations from gold mining［J］.Science of the Total Environment，2018，627：1167-1173.

12	曾淑琴，曾桂忠，赵贺永. 锌焙烧系统污酸综合利用实验研究［J］.广州化工，2016，44（19）：98-100. Zeng Shuqin ， Zeng Guizhong ， Zhao Heyong . Experimental study on comprehensive utilization of waste acid from zinc roasting system［J］.Guangzhou Chemical Industry，2016，44（19）：98-100.

13	宋永辉，雷思明，周军. 沉淀—电吸附联合处理氰化提金废水［J］.黄金科学技术，2015，23（4）：75-79. Song Yonghui ， Lei Siming ， Zhou Jun . Treatment of cyanide wastewater by chemical precipitation-electric adsorption［J］.Gold Science and Technology，2015，23（4）：75-79.

14	孙建伟，刘青. 黄金冶炼废水处理及有价金属回收［J］.黄金科学技术，2015，23（2）：94-97. Sun Jianwei ， Liu Qing .

15	金伟，苏俊岭，郑诗礼，等.一种回收废液中铜和锌的方法［P］.中国：CN201710498843.2，2017. Jin Wei ， Su Junling ， Zhen Shili ，et al. A method for recovery of copper and zinc in waste liquid［P］. China：CN201710498843.2，2017.

16	李雅，刘晨明，石绍渊，等. 膜吸收法处理黄金冶炼含氰废水的试验研究［J］.黄金，2017，38（3）：71-75，85. Li Ya ， Liu Chenming ， Shi Shaoyuan ，et al. Experimental study of cyanide wastewater treatment in gold smelting with membrane absorption［J］.Gold，2017，38（3）：71-75，85.

17	Xiao J D ， Xie Y B ， Faheem N ，et al. Super synergy between photocatalysis and ozonation using bulkg-C₃N₄as catalyst：A potential sunlight/O₃/g-C₃N₄method for efficient water decontamination［J］.Applied Catalysis B：Environmental，2016，181：420-428.

18	Guo Z ， Cao H B ， Wang Y X ，et al. High activity of g-C₃N₄/multiwall carbon nanotube in catalytic ozonation promotes electro-peroxone process［J］.Chemosphere，2018，201：206-213.

19	Vilardi G ， Palma L D ， Verdone N. On the critical use of zero valent iron nanoparticles and Fenton processes for the treatment of tannery wastewater［J］.Journal of Water Process Engineering，2018，22：109-122.

20	Zhao Z J ， Cao H B ， Shi S Y ，et al. Characterization of anion exchange membrane modified by electrodeposition of polyelectrolyte containing different functional groups［J］.Desalination，2016，386：58-66.

21	Zhao Z J ， Shi S Y ， Cao H B ，et al. Effect of plasma treatment on the surface properties and antifouling performance of homogeneous anion exchange membrane［J］.Desalination and Water Treatment，2017，89：77-86.

22	Li Y J ， Shi S Y ， Cao H B ，et al. Modification and properties characterization of heterogeneous anion-exchange membranes by electrodeposition of graphene oxide （GO）［J］.Applied Surface Science，2018，442：700-710.

Options

Outlines