Pre-enrichment Behaviors of Low-Grade Donganshan Iron Ore Using Magnetic Separation

doi:10.12068/j.issn.1005-3026.2019.01.018

Abstract

Abstract: A pre-enrichment process of low-intensity magnetic roughing followed by high-gradient magnetic scavenging was proposed， and the effects of magnetic field intensity and grinding fineness on pre-enrichment behaviors of low-grade(w(TFe)=34.60%) Donganshan iron ore simultaneously containing hematite， magnetite and a bit of siderite were studied by XRD， chemical phase analysis of iron， and scanning electron microscope(SEM). The results showed that the optimized grinding fineness of raw ore was 70% passing 0.074mm， the magnetic field intensity for roughing， scavenging Ⅰ and Ⅱ were 120mT， 300mT and 800mT， respectively. Under the optimized conditions， a magnetic pre-concentrate assaying 42.67% iron (mass fraction) with an iron recovery of 95.45% was achieved. The analyses revealed that ferromagnetic magnetite was enriched in low-intensity magnetic concentrate， and weakly magnetic hematite and siderite were recovered successfully by high-gradient magnetic separation. However， some ultra-fine hematite particles(＜10μm) were lost in tailing due to their weak magnetic trapping force.

Key words: low-grade iron ore, hematite, magnetite, magnetic separation, pre-enrichment behaviors, magnetic trapping force

CLC Number:

YU Jian-wen， HAN Yue-xin， LI Yan-jun， GAO Peng. Pre-enrichment Behaviors of Low-Grade Donganshan Iron Ore Using Magnetic Separation[J]. Journal of Northeastern University Natural Science, 2019, 40(1): 94-98.

References

[1]Lu D，Wang Y，Jiang T，et al.Study on pre-concentration efficiency of wolframite from tungsten ore using gravity and magnetic separations［J］.Physicochemical Problems of Mineral Processing，2016，52(2):718-728.
[2]边颖，张一敏，包申旭，等.含钒石煤选矿预富集技术［J］.金属矿山，2013(9):94-99.(Bian Ying，Zhang Yi-min，Bao Shen-xu，et al.Vanadium pre-concentration technology from vanadium-bearing stone coal mine［J］.Metal Mine，2013(9):94-99.)
[3]孙小俊，曾祥龙，李建华，等.基于磁选预富集的湖北枣阳金红石矿石选矿试验［J］.金属矿山，2016(1):93-96.(Sun Xiao-jun，Zeng Xiang-long，Li Jian-hua，et al.Rutile ore pre-concentration tests based on magnetic processing in Zaoyang Hubei［J］.Metal Mine，2016(1):93-96.)
[4]王成行，胡真，邱显扬，等.强磁选预富集氟碳铈型稀土矿的可行性［J］.稀土，2016，37(3):56-62.(Wang Cheng-hang，Hu Zhen，Qiu Xian-yang，et al.Practicability research on pre-concentration process by HIMS for bastnaesite type rare earth ore［J］.Chinese Rare Earths，2016，37(3):56-62.)
[5]Quast K，Skinner W，Addai-Mensah J.Physical separations as potential techniques for preconcentration of nickel laterites［C］//Chemeca 2016:Chemical Engineering—Regeneration，Recovery and Reinvention.Melbourne，2016:77-88.
[6]Quast K，Addai-Mensah J，Skinner W.Preconcentration strategies in the processing of nickel laterite ores.part 5:effect of mineralogy［J］.Minerals Engineering，2017，110:31-39.
[7]Srivastava J P，Pathak P N.Pre-concentration:a necessary step for upgrading tungsten ore［J］.International Journal of Mineral Processing，2000，60(1):1-8.
[8]Quast K，Connor J N，Skinner W，et al.Preconcentration strategies in the processing of nickel laterite ores.part 2:laboratory experiments［J］.Minerals Engineering，2015，79:269-278.
[9]Quast K，Otsuki A，Fornasiero D，et al.Preconcentration strategies in the processing of nickel laterite ores. part 3:flotation testing［J］.Minerals Engineering，2015，79:279-286.
[10]Quast K，Connor J N，Skinner W，et al.Preconcentration strategies in the processing of nickel laterite ores. part 1:literature review［J］.Minerals Engineering，2015，79:261-268.(上接第93页)
[5]唐永伟.汽车发动机冷却风扇气动性能和声学性能研究［D］.长春:吉林大学，2007.(Tang Yong-wei.Study on aerodynamic performance and aero-acoustic performance of engine cooling fan［D］.Changchun:Jilin University，2007.)
[6]Pogorelov A，Meinke M，Schroder W.Effects of tip-gap width on the flow field in an axial fan［J］.International Journal of Heat and Fluid Flow，2016，61:466-481.
[7]王天宇，王霄，刘会霞，等.发动机冷却风扇性能的优化设计研究［J］.机电工程，2015，32(6):744-749.(Wang Tian-yu，Wang Xiao，Liu Hui-xia，et al.Performance optimization of engine cooling fan［J］.Journal of Mechanical & Electrical Engineering，2015，32(6):744-749.)
[8]Karim A，Mehravaran M，Lizotte B，et al.Computational aero-acoustics simulation of automotive radiator fan noise［J］.SAE International Journal of Engines，2015，8(4):1743-1749.
[9]Thorat A A，Kulkarni M，Berg A，et al.CFD investigation of airflow through fan and cooler system of an off road vehicle［C］//The 8th SAEINDIA International Mobility Conference & Exposition and Commercial Vehicle Engineering Congress 2013(SIMCOMVEC).Chennai，2013:1-9.
[10]Martini H，Gullberg P，Lofdahl L.Comparative studies between CFD and wind tunnel measurements of cooling performance and external aerodynamics for a heavy truck［J］.SAE International Journal of Commercial Vehicles，2014，7(2):640-652.
[11]Tao X，Wagner J R.An engine thermal management system design for military ground vehicle-simultaneous fan，pump and valve control［J］.SAE International Journal of Passenger Cars-Electronic and Electrical Systems，2016，9(1):243-254.
[12]Hansen M O L.风力机空气动力学［M］.北京:中国电力出版社，2009.(Hansen M O L.Aerodynamics of wind turbines［M］.Beijing:China Electric Power Press，2009.)

[1]	WANG Li-ying， HAO Xiao-yu， YAO Jin， YANG Bin. Mechanism Study of Enhanced Hematite Reverse Flotation Desilication by Flocculation of Micro Fine Kaolinite with Polyoxyethylene Oxide [J]. Journal of Northeastern University(Natural Science), 2023, 44(1): 110-116.
[2]	SHAO An-lin ， SU Xing-guo， HAN Yue-xin， LI Yan-jun. Experimental Study on Pre-concentration and Suspension Magnetization Roasting of Donganshan Iron Ore Flotation Tailing [J]. Journal of Northeastern University(Natural Science), 2022, 43(5): 703-708.
[3]	WU Shi-chao， SUN Ti-chang， KOU Jue， CHEN Ze-kun. Effects of Combined Dephosphorization Agents on Reduction Roasting-Magnetic Separation of High Phosphorus Iron Ore [J]. Journal of Northeastern University(Natural Science), 2022, 43(3): 423-430.
[4]	LIU Xiao ， GAO Peng ， LYU Yang ， YUAN Shuai. Recovery Process of Iron from High-Iron Red Mud Through Suspension Magnetization Roasting-Low Intensity Magnetic Separation Technology [J]. Journal of Northeastern University(Natural Science), 2021, 42(3): 414-421.
[5]	LI Dong， ZHONG He-dong， YIN Wan-zhong， HU Yang. Classification-Dispersion Flotation of Fine Mixed Magnetic Concentrate [J]. Journal of Northeastern University(Natural Science), 2021, 42(12): 1761-1767.
[6]	WANG Dong-hui， YIN Wan-zhong， YANG Bin， QIN Hong-bin. Depression of Starch on Fine Hematite Enhanced with Magnetic Seeding Aggregation [J]. Journal of Northeastern University(Natural Science), 2021, 42(1): 111-116.
[7]	YU Hong-dong， WANG Li-na， QU Jing-kui， QI Tao. Process Mineralogical Characteristics and Ore Value of Typical Vanadium Titanium Magnetite in China [J]. Journal of Northeastern University Natural Science, 2020, 41(2): 275-281.
[8]	ZHANG Li-heng， GAO Zi-xian， TANG Wei-dong， XUE Xiang-xin. Effect of TiO₂ Content on Metallurgy Performance of High-Chromium Vanadium-Titanium Magnetite Sinter [J]. Journal of Northeastern University Natural Science, 2020, 41(11): 1667-1672.
[9]	LI Wen-bo， ZHOU Li-bo， HAN Yue-xin， XU Hua-qiang. Effect of Modified Polyacrylamide on High Intensity Magnetic Separation of Hematite [J]. Journal of Northeastern University Natural Science, 2019, 40(7): 1002-1008.
[10]	WANG Jun-peng， JIANG Tao， LIU Ya-jing， XUE Xiang-xin. Effects of Microwave Pretreatment on the Grinding Kinetics of Vanadium Titano-Magnetite [J]. Journal of Northeastern University Natural Science, 2019, 40(5): 663-667.
[11]	YANG Bin， YIN Wan-zhong， FU Ya-feng， YAO Jin. Effect of Citric Acid on Entrainment Behavior of Fine Chlorite [J]. Journal of Northeastern University Natural Science, 2019, 40(4): 569-574.
[12]	YU Jian-wen， HAN Yue-xin， GAO Peng， LI Yan-jun. Reductive Transformation of Hematite to Magnetite with CO/CO₂ Under Fluidized Bed Conditions [J]. Journal of Northeastern University Natural Science, 2019, 40(2): 261-266.
[13]	HE Zhan-wei， XUE Xiang-xin. Comparative Study on Metallurgical Performance of Different Vanadium-Titanium Magnetite Burdens [J]. Journal of Northeastern University Natural Science, 2019, 40(2): 207-211.
[14]	LUO Xu-feng， ZHANG Sheng， SUN Yong-jun， DONG Hui. Effects of Operation Parameters on Heat Transfer in Shaft Furnace for Vanadium Titano-Magnetite Roasting [J]. Journal of Northeastern University Natural Science, 2019, 40(1): 53-58.
[15]	ZHENG Qiang， WU Wen-yuan， BIAN Xue. Experimental Study on One-Step Roasting of Bayan Obo Tailings [J]. Journal of Northeastern University Natural Science, 2018, 39(2): 205-210.