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Kinetics of iron removal from metallurgical grade silicon with pressure leaching 被引量:9
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作者 YU Zhanliang XIE Keqiang +3 位作者 MA Wenhui ZHOU Yang XIE Gang DAI Yongnian 《Rare Metals》 SCIE EI CAS CSCD 2011年第6期688-694,共7页
In this paper, the kinetics of pressure leaching for purification of metallurgical grade silicon with hydrochloric acid was investigated. The effects of particle size, temperature, total pressure, and concentration of... In this paper, the kinetics of pressure leaching for purification of metallurgical grade silicon with hydrochloric acid was investigated. The effects of particle size, temperature, total pressure, and concentration of hydrochloric acid on the kinetics and mechanism of iron removal were studied. It was found that the reaction kinetic model followed the shrinking core model, and the apparent activation energy of the leaching reaction was 46.908 kJ/mol. And the apparent reaction order of iron removal with pressure leaching was 0.899. The kinetic equation was obtained and the mathematical model of iron removal from metallurgical grade silicon (MG-Si) was given as follows:The values calculated from the equation were consistent with the experimental results. 展开更多
关键词 metallurgical physics and chemistry KINETICS pressure leaching metallurgical grade silicon iron removal
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Benzohydroxamic acid to improve iron removal from potash feldspar ores 被引量:6
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作者 CAO Zhan-fang QIU Pei +1 位作者 WANG Shuai ZHONG Hong 《Journal of Central South University》 SCIE EI CAS CSCD 2018年第9期2190-2198,共9页
The technological mineralogy of the potash feldspar was investigated and a new collector named Yb105 was adopted to remove iron from potash feldspar ores.The technological mineralogy results indicate that the main com... The technological mineralogy of the potash feldspar was investigated and a new collector named Yb105 was adopted to remove iron from potash feldspar ores.The technological mineralogy results indicate that the main components of the ore were feldspar,sericite,quartz and kaolinite,and iron mainly existed in limonite and hematite,most of which can be removed by beneficiation.The results show the benzohydroxamic acid can not only increase the recovery of iron and reduce the consumption of oleic acid collector,but also enhance the collecting performance of oleic acid at low temperature,which can realize the flotation of the ores at a low temperature and play an important role in saving energy to some extent.Compared with oleic oil,the benzohydroxamic acid had a great advantage in removing iron from potash feldspar,a potash feldspar concentrate with Fe grade of 0.23%,K2O grade of 12.59%and Na2O grade of 0.26%was obtained by flotation with Yb105 as collector,and the yield of the concentrate was 82.55%. 展开更多
关键词 potash feldspar iron removal reverse flotation benzohydroxamic acid
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Transformation behavior of ferrous sulfate during hematite precipitation for iron removal 被引量:6
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作者 Zhi-gan DENG Fan YANG +5 位作者 Chang WEI Bei-ping ZHU Peng ZENG Xing-bin LI Cun-xiong LI Min-ting LI 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2020年第2期492-500,共9页
The transformation behavior of ferrous sulfate was examined during hematite precipitation for iron removal in hydrometallurgical zinc.Specifically,the effects of the method used for oxygen supply(pre-crystallization o... The transformation behavior of ferrous sulfate was examined during hematite precipitation for iron removal in hydrometallurgical zinc.Specifically,the effects of the method used for oxygen supply(pre-crystallization or pre-oxidation of ferrous sulfate)and temperature(170–190℃)on the redissolution and oxidation–hydrolysis of ferrous sulfate were studied.The precipitation characteristics and phase characterization of the hematite product were investigated.The results showed that the solubility of ferrous sulfate was considerably lower at elevated temperatures.The dissolution behavior of ferrous sulfate crystals was influenced by both the concentrations of free acid and zinc sulfate and the oxydrolysis of ferrous ions.Rapid oxydrolysis of ferrous ions may serve as the dissolution driving force.Hematite precipitation proceeded via the following sequential steps:crystallization,redissolution,oxidation,and precipitation of ferrous sulfate.The dissolution of ferrous sulfate was slow,which helped to maintain a low supersaturation environment,thereby affording the production of high-grade hematite. 展开更多
关键词 hydrometallurgical zinc crystallization of ferrous sulfate hematite precipitation for iron removal
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Influence of acid leaching and calcination on iron removal of coal kaolin 被引量:3
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作者 Pei-wang Zhu Wei-qiang Zeng +3 位作者 Xiu-lin Xu Le-ming Cheng Xiao Jiang Zheng-lun Shi 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2014年第4期317-325,共9页
Calcination and acid leaching of coal kaolin were studied to determine an effective and economical preparation method of calcined kaolin. Thermogravimetric-differential thermal analysis (TG-DTA) and X-ray diffracti... Calcination and acid leaching of coal kaolin were studied to determine an effective and economical preparation method of calcined kaolin. Thermogravimetric-differential thermal analysis (TG-DTA) and X-ray diffraction (XRD) demonstrated that 900&#176;C was the suitable temperature for the calcination. Leaching tests showed that hydrochloric acid was more effective for iron dissolution from raw coal kaolin (RCK), whereas oxalic acid was more effective on iron dissolution from calcined coal kaolin (CCK). The iron dissolution from CCK was 28.78wt%, which is far less effective than the 54.86wt% of RCK under their respective optimal conditions. Through analysis by using M?ssbauer spectroscopy, it is detected that nearly all of the structural ferrous ions in RCK were removed by hydrochloric acid. However, iron sites in CCK changed slightly by oxalic acid leaching because nearly all ferrous ions were transformed into ferric species after firing at 900&#176;C. It can be concluded that it is difficult to remove the structural ferric ions and ferric oxides evolved from the structural ferrous ions. Thus, iron removal by acids should be conducted prior to calcination. 展开更多
关键词 KAOLIN iron removal CALCINATION acid leaching EXTRACTION MSssbauer spectroscopy
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Separation of Kaolinite from Ion-Adsorption Rare Earth Tailings in Southern China and Iron Removal Treatment 被引量:1
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作者 Yongqing Wang Huayin Liang +2 位作者 Qibing Chang Xiaozhen Zhang Jian’er Zhou 《Journal of Minerals and Materials Characterization and Engineering》 2016年第1期40-47,共8页
Several hundred million tons of ion-adsorption rare earth tailings exist in Ganzhou, Southern China, which is a severe environmental hazard. To reduce and reutilize the tailing, kaolinite has been separated from the t... Several hundred million tons of ion-adsorption rare earth tailings exist in Ganzhou, Southern China, which is a severe environmental hazard. To reduce and reutilize the tailing, kaolinite has been separated from the tailings by mechanical separation in laboratory scale and pilot scale. The results show that the tailing is mainly composed of fine kaolinite and coarse quart. Quartz and kaolinite can be separated by sieves, shaker, spiral chute or hydrocyclone, which has the similar results in laboratory scale and pilot scale. 30.2% of the tailings can be re-sourced and applied in ceramic industries. 41.7% of kaolinite can be obtained after sorting and iron removal by magnetic separator in pilot scale, which can be applied in ceramic industries according to the Chinese national standard (TC-3). The results give a progressive solution to re-source the tailings economically. 展开更多
关键词 Rare Earth Tailing KAOLINITE SEPARATION Reutilize iron removal
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Characterization and Iron Removal Treatment of Ion-Adsorption Rare Earth Tailings in Southern China
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作者 Yongqing Wang Xin Nie +3 位作者 Qibing Chang Huayin Liang Xiaozhen Zhang Jian-Er Zhou 《Journal of Minerals and Materials Characterization and Engineering》 2016年第2期127-134,共8页
The ion-adsorption rare earth tailings have become a serious environmental pollution in Southern China, yet the potential of their economical value has not been fully exploited. In this work, the chemical and mineral ... The ion-adsorption rare earth tailings have become a serious environmental pollution in Southern China, yet the potential of their economical value has not been fully exploited. In this work, the chemical and mineral compositions of the ion-adsorption rare earth tailings were characterized by Mineral Liberation Analyze (MLA) and XRF. The results show that 91.98 wt% of the tailings are composed of kaolinite and quartz, latter of which was removed by the sieving method. The other minor minerals contain feldspar, biotite, muscovite, titanomagnetite and limonite. Amongst these, the iron-bearing minerals are mostly found in the titanomagnetite and limonite which can be mostly removed by using a periodic high-gradient magnetic separator with a magnetic induction of 0.6 Tesla. The Fe<sub>2</sub>O<sub>3</sub> content of the tailings changed from 2.11 wt% to 1.06 wt% after the sorting process, which met the Chinese national standard of TC-3 grade raw materials for ceramic industry applications. The Fe<sub>2</sub>O<sub>3</sub> content in kaolinite was further decreased after Na<sub>2</sub>S<sub>2</sub>O<sub>4</sub> treatment. 展开更多
关键词 TAILINGS RESOURCE Rare Earth iron removal KAOLINITE Magnetic Separation
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Removal of primary iron rich phase from aluminum-silicon melt by centrifugal separation 被引量:11
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作者 Seong Woo Kim Un Ho Im +3 位作者 Hyeong Cheol Cha Se Hyeong Kim Ji Eun Jang Ki Young Kim 《China Foundry》 SCIE CAS 2013年第2期112-117,共6页
Recycling is a major consideration in continued aluminum use due to the enormous demand for high quality products. Some impurity elements gradually accumulate through the repetitive reuse of aluminum alloy scrap. Of t... Recycling is a major consideration in continued aluminum use due to the enormous demand for high quality products. Some impurity elements gradually accumulate through the repetitive reuse of aluminum alloy scrap. Of them, the iron content should be suppressed under the allowed limit. In the present research, a novel separation method was introduced to remove primary iron-rich intermetallic compounds by centrifugation during solidification of AI-Si-Fe alloys. This method does not use the density difference between two phases as in other centrifugal methods, but uses the order of solidification in AI-Si-Fe alloys, because iron promotes the formation of intermetallic compounds with other alloying elements as a primary phase. Two AI-Si-Fe alloys which have different iron contents were chosen as the starting materials. The iron-rich phase could be efficiently removed by centrifuging under a centrifugal force of 40 g. Coarse intermetallic compounds were found in the sample inside the crucible, while rather fine intermetallic compounds were found in the sample outside the crucible. Primary intermetallic compounds were linked to each other via aluminum-rich matrix, and formed like a network. The highest iron removal fraction is 67% and the lowest one is 7% for AI-12Si-1.7Fe alloy. And they are 82% and 18% for AI-12Si-3.4Fe alloy, respectively. 展开更多
关键词 Al-Si alloys iron removal centrifugal separation
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Removal of iron from ilmenite by KOH leaching-oxalate leaching method 被引量:5
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作者 WANG Yuanbo QI Tao +1 位作者 CHU Jinglong ZHAO Wei 《Rare Metals》 SCIE EI CAS CSCD 2010年第1期9-15,共7页
Oxalic acid was used for the removal of iron from the intermediates of ilmenite leached by KOH liquor. Various parameters, such as pH, temperature, initial oxalate concentration, and illumination were investigated. Me... Oxalic acid was used for the removal of iron from the intermediates of ilmenite leached by KOH liquor. Various parameters, such as pH, temperature, initial oxalate concentration, and illumination were investigated. Meanwhile, it was found that orthorhombic crystal Ti2O2(OH)2(C2O4)-H2O formed as the leaching proceeded. Scanning electronic microscope (SEM) images implied that the formation of Ti2O2(OH)2(C2O4).H2O with good crystallinity proceeded through three stages. Calcining Ti2O2(OH)2(C2O4)·H2O, anatase (350℃) or mtile (550℃) type TiO2 was obtained, respectively. Element analysis found that the calcined product contained 94.9% TiO2 and 2.5% iron oxide, but only about 1600 ppm dissolvable iron oxide was left, which indicates that oxalic acid was comparatively effective on iron oxide removal from the intermediates. Finally, an improved route was proposed for the upgrading of ilmenite into mtile. 展开更多
关键词 ILMENITE iron removal titanium oxide OXALATE potassium hydroxide KOH leaching
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Removing Iron and Manganese Simultaneously from Ground Water Using One-stage Biological Filter
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作者 薛罡 高品 龚清杰 《Journal of Donghua University(English Edition)》 EI CAS 2009年第3期247-251,共5页
A novel process for removing iron and manganese simultaneously in ground water,which consisted of simple aeration and one-stage filtration,was developed in this research. It was found that the biological process had m... A novel process for removing iron and manganese simultaneously in ground water,which consisted of simple aeration and one-stage filtration,was developed in this research. It was found that the biological process had much higher manganese removal efficiency than chemical contact oxidation process. At the same time,the optimal operation parameters of aeration and biological filtration such as DO concentration and pH after aeration,filtration rate before and after startup,filtration operation cycle and backwashing rate,etc.,were also obtained by experiments. By analyzing water quality in different positions of filter bed,it was found that the oxidation of Fe2+ in biological filter bed adapted to first-order reaction,whereas the oxidation of Mn2+ conformed to zero-order reaction,which could be explained by Michaelis-Menten enzyme reaction equation when substrate concentration was far more than bacteria amount. 展开更多
关键词 ground zoater biological filter iron removal manganese removal operational parameter KINETICS
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Process for the Biological Removal of Fe (II) from Reconstituted Waters on a Support of Filter Material with Coated Jujube Seeds
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作者 Mamadou Faye Falilou Mbacké Sambe +2 位作者 Alpha Ousmane Toure Mouhamed Ndoye Codou Guèye Mar Diop 《Journal of Geoscience and Environment Protection》 2022年第12期65-76,共12页
Three beakers for removing Fe (II) in reconstituted water (doped with FeSO<sub>4</sub>) were built and tested. Given the set operating conditions ([O<sub>2</sub>] > 4 mg&#183;L<sup>... Three beakers for removing Fe (II) in reconstituted water (doped with FeSO<sub>4</sub>) were built and tested. Given the set operating conditions ([O<sub>2</sub>] > 4 mg&#183;L<sup>-1</sup>, P<sub>atm</sub> = 1.013 bar, T = 25&#176;C ± 1&#176;C and [Fe<sup>2+</sup>]<sub>0</sub> = 0.5 to 2 mg&#183;L<sup>-1</sup>), removal of iron was caused by biological and possibly physical and chemical oxidation because there is a quantity of free oxygen in the medium. The extent of each type of oxidation has not been evaluated as it specifically studies the biological degradation of iron in these beaker tests by setting the operating conditions (pH > 6.5, dissolved oxygen from 0 to 8 mg&#183;L<sup>-1</sup>, Redox Potential from 100 to 400 mV). The experimental studies focused particularly on the measurements of maximum wavelength, conversion efficiencies from Fe (II) to Fe (III), the effect of the Fe (II) concentration, the influence of pH, the action of the temperature of the prepared solutions and the effect of O<sub>2</sub> concentration under specified operating conditions. It noticed precipitated amounts of iron deposited at the bottom of the beakers. Thus, the low concentrations of Fe (II) detected in the influent after the biological oxidation operation could be attributed to microorganisms that consume iron as a substrate. 展开更多
关键词 BIOFILM Batch Test Biological Oxidation iron removal BEAKER Doped Water
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Research progress on iron homeostasis regulation and heart-related diseases
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作者 Yang Yang Qi Feng +3 位作者 Huang Sun Yi Zhao Hui-Jie Hao Xing Chen 《Life Research》 2022年第4期19-26,共8页
Iron is an indispensable trace element in mammals and performs several important physiological functions in the body.Dynamic equilibrium in iron metabolism exists.Iron uptake,storage,and output are in equilibrium as w... Iron is an indispensable trace element in mammals and performs several important physiological functions in the body.Dynamic equilibrium in iron metabolism exists.Iron uptake,storage,and output are in equilibrium as well.Several laboratory animal models have shown that iron deficiency and deposition can lead to a variety of functional disorders.Cardiac diseases caused by iron deposition in laboratory animal models are caused by abnormal oxidative stress,electrophysiological changes,iron metabolism-related gene defects,myocardial cell apoptosis,fibrosis,ferroptosis,and other causes.This review discusses the causes of heart disease related to iron deposition in laboratory animal models to illustrate further the impact of effective iron removal therapy on cardiac disease associated with iron deposition.In addition,this review demonstrates the possibility of elucidating the precise molecular mechanism of iron abnormality in heart diseases in experimental animal models and the feasibility of using iron abnormality as a target for developing new therapeutic drugs for the treatment of heart disease. 展开更多
关键词 iron heart-related diseases experimental animal model iron removal treatment
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Removing Iron by Magnetic Separation from a Potash Feldspar Ore 被引量:1
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作者 刘艳杰 彭会清 HU Mingzhen 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2013年第2期362-366,共5页
A new permanent magnetic separator was introduced to treat the ores with the characteristics of weak magnetic iron minerals and in a fine size range. The new machine was applied to the iron removal from potash feldspa... A new permanent magnetic separator was introduced to treat the ores with the characteristics of weak magnetic iron minerals and in a fine size range. The new machine was applied to the iron removal from potash feldspar. The effects of the magnetic field intensity, pulp density and grinding fineness on the iron removal were investigated. The optimized operation parameters were achieved and listed as follows: the -0.074 mm content is 85%, the pulp density is 45% and the magnetic field strength is 2T. A close test of middles regrinding was also carried out to improve concentrate yield. The data show that the grade of TFe(total iron) in potash feldspar product decreased from 1.31% to 0.21% and the concentrate yield reached 85.32%. All the results indicated that the traditonal high-intensity electromagnetic separators can be betterly substituted by the new permanent magnetic separator. This study may provide the theoretical evidence for iron removal from potash feldspar. 展开更多
关键词 high intensity permanent magnetic separator potash feldspar removing iron middles regrinding
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Formation and sedimentation of Fe-rich intermetallics in Al-Si-Cu-Fe alloy 被引量:5
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作者 杨文超 高峰 冀守勋 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2015年第5期1704-1714,共11页
Formation and sedimentation of Fe-rich intermetallics were studied in a commercial Al-Si-Cu-Fe alloy with extra additions of Mn. It is found that the introduction of extra Mn is an effective approach to lower the Fe l... Formation and sedimentation of Fe-rich intermetallics were studied in a commercial Al-Si-Cu-Fe alloy with extra additions of Mn. It is found that the introduction of extra Mn is an effective approach to lower the Fe level in the equilibrium liquid phase after sedimentation of solid Fe-rich phase at a temperature between its liquidus and solidus. The higher Mn/Fe mass ratio results in the lower Fe content in the retained alloy, during which Mn is also consumed and settled at the bottom of the melt as solid Fe-rich intermetallics. Therefore, the final Fe content in the alloy can be controlled by the Mn content and the holding temperature of the melt. The results confirmed a good agreement of the theoretical calculation and the experimental test with a specially designed 50 mm cylindrical casting. The sedimentation of Fe-rich intermetallics in the Al-Si-Cu-Fe alloy is completed at 600 °C after 10 min. The reduction of Fe content in the retained alloy is 31.4% when m(Mn)/m(Fe)=0.5 and 53.3% when m(Mn)/m(Fe)=1.0 in comparison with that in the original alloy. The settled Fe-rich intermetallics were identified as α-Al15(Fe,Mn)3Si2, which provided the lower balanced Fe concentration in the melt in comparison with other Fe-rich intermetallics. 展开更多
关键词 aluminium alloy SOLIDIFICATION INTERMETALLICS iron removal
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Potential—pH diagrams of Cr-H_2O system at elevated temperatures 被引量:3
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作者 尤海侠 徐红彬 +2 位作者 张懿 郑诗礼 高毅颖 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2010年第S1期26-31,共6页
The potential—pH diagrams of the Cr-H2O system at temperatures of 298, 323, 373 and 423 K were established through thermodynamic calculation with coupling of experimental results. The potential—pH diagram at 298 K a... The potential—pH diagrams of the Cr-H2O system at temperatures of 298, 323, 373 and 423 K were established through thermodynamic calculation with coupling of experimental results. The potential—pH diagram at 298 K agrees well with the previously reported results. Based on the potential—pH diagrams of the Cr-H2O and Fe-H2O systems, IR spectra and XRD pattern, the existence forms of iron in the potassium chromate were analyzed, and the methods of iron removal were investigated. The results show that the existence forms of iron in the potassium chromate are potassium ferrate. These results are instructive and helpful to the hydrometallurgical processing of chromite ore. 展开更多
关键词 Cr-H2O system thermodynamic calculation potential—pH diagram iron removal potassium chromate
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Separation of primary solid phases from Al-Si alloy melts 被引量:2
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作者 Ki Young Kim 《China Foundry》 SCIE CAS 2014年第4期382-395,共14页
The iron-rich solids formed during solidification of Al-Si alloys which are known to be detrimental to the mechanical,physical and chemical properties of the alloys should be removed.On the other hand,Al-Si hypereutec... The iron-rich solids formed during solidification of Al-Si alloys which are known to be detrimental to the mechanical,physical and chemical properties of the alloys should be removed.On the other hand,Al-Si hypereutectic alloys are used to extract the pure primary silicon which is suitable for photovoltaic cells in the solvent refining process.One of the important issues in iron removal and in solvent refining is the effective separation of the crystallized solids from the Al-Si alloy melts.This paper describes the separation methods of the primary solids from Al-Si alloy melts such as sedimentation,draining,filtration,electromagnetic separation and centrifugal separation,focused on the iron removal and on the separation of silicon in the solvent refining process. 展开更多
关键词 SEPARATION Al-Si alloys primary solids iron removal silicon extraction
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A new route of ferric ions rejection in a synthetic nickel leach solution
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作者 Hai-peng Wang Jing Zhao +3 位作者 Wen Liang Yuan Mei Babak Houdeh Yuan Tian 《International Journal of Minerals,Metallurgy and Materials》 SCIE EI CAS CSCD 2010年第3期257-261,共5页
A new route of impurity rejection to remove ferric iron from a synthetic nickel leach solution was introduced, which simulated the chemical composition of a typical acid leach solution of nickel laterites under atmosp... A new route of impurity rejection to remove ferric iron from a synthetic nickel leach solution was introduced, which simulated the chemical composition of a typical acid leach solution of nickel laterites under atmospheric pressure. The synthetic solution underwent a stepwise neutralization process, with each step adopting different pH value-temperature combinations. In a conventional nickel atmospheric leach (AL) process, the nickel loss could be as high as 10wt%, which was a longstanding issue and prevented this process from commercialization. The new impurity rejection route is the first step towards resolving this issue. The results show that, the best neutralization performance is achieved at the nickel loss of 3.4wt% in the neutralization scheme that employs ethylenediaminetetraacetic acid as a nickel stabilizer (pH: 1.3-3.5; temperature: 95-70℃) 展开更多
关键词 nickel laterite acid leach iron removal impurity rejection NEUTRALIZATION
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Immobilization biological activated carbon used in advanced drinking water treatment 被引量:2
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作者 马放 杨海燕 王弘宇 《Journal of Harbin Institute of Technology(New Series)》 EI CAS 2006年第6期678-682,共5页
Bacteria separated from a mature filter bed of groundwater treatment plants were incubated in a culture media containing iron and manganese. A consortium of 5 strains of bacteria removing iron and manganese were obtai... Bacteria separated from a mature filter bed of groundwater treatment plants were incubated in a culture media containing iron and manganese. A consortium of 5 strains of bacteria removing iron and manganese were obtained by repeated enrichment culturing. It was shown from the experiments of effect factors that ironmanganese removal bacteria in the euhure media containing both Fe and Mn grew better than in that containing only Fe, however, they were unable to grow in the culture media containing only Mn. When comparing the bacteria biomass in the case ofp (DO) :2.8 mg/L andp (DO) :9. 0 mg/L, no significant difference was found. The engineering bacteria removing the organic and the bacteria removing iron and manganese were simuhaneously inoculated into activated carbon reactor to treat the effluent of distribution network. The experimental results showed that by using IBAC ( Immobilization Biological Activated Carbon) treatment, the removal efficiency of iron, manganese and permanganate index was more than 98% , 96% and 55% , respectively. After the influent with turbidity of 1.5 NTU, color of 25 degree and oflbnsive odor was treated, the turbidity and color of effluence were less than 0.5 NTU and 15 degree, respectively, and it was odorless. It is determined that the cooperation function of engineering bacteria and activated carbon achieved advanced drinking water treatment. 展开更多
关键词 advanced drinking water treatment miero-pollutaats IBAC: iron and manganese removal engi- neering bacteria
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Facile electrochemical synthesis of nano iron porous coordination polymer using scrap iron for simultaneous and cost-effective removal of organic and inorganic arsenic 被引量:2
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作者 Mengni Zhang Jia Jia +2 位作者 Ke Huang Xiandeng Hou Chengbin Zheng 《Chinese Chemical Letters》 SCIE CAS CSCD 2018年第3期456-460,共5页
Although large amounts of engineered nanomaterials have been used for the arsenic removal, today there still remains several serious impediments to its further application, including consumption of expensive and pure ... Although large amounts of engineered nanomaterials have been used for the arsenic removal, today there still remains several serious impediments to its further application, including consumption of expensive and pure salts, and only application for the removal of inorganic arsenic. In this work, we developed an eco-economic and facile electrochemical method to synthesize iron porous coordination polymers (FePCPs) for the simultaneous removal of inorganic and organic arsenic from natural water. 展开更多
关键词 Electrochemical synthesis iron porous coordination polymer Arsenic removal
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Recovery of zinc from Zn-Al-Fe alloys by gas pressure filtration
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作者 Tian-yang Li Zhe Wang +1 位作者 Lei Guo Zhan-cheng Guo 《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2020年第11期1322-1330,共9页
The recovery of zinc from galvanizing dross and the removal of iron contained dross particles by gas pressure filtration were investigated using the model of Zn-Fe-Al alloys.The majority of molten zinc was separated a... The recovery of zinc from galvanizing dross and the removal of iron contained dross particles by gas pressure filtration were investigated using the model of Zn-Fe-Al alloys.The majority of molten zinc was separated after filtration,and the residue intercepted by the filter consisting mostly of dross particles.The effects of the pressure differential(p),separation temperature(T)and alloy composition on the zinc recovery and iron removal were investigated.At p=0.30 MPa and T=723 K,86.2 wt.%zinc was recovered from the Zn-4Al-2Fe alloy,and up to 99.9 wt.%of the iron was concentrated in the residue.Applying a higher pressure differential led to the improved filtration efficiency,and the desired separation temperature was about 723 K.The aluminum content in the Zn-Al-Fe alloy had little effect on separation efficiency,whereas increasing the iron content led to a decrease in the separation efficiency.Our findings demonstrate the potential of the gas pressure filtration method for the recovery of zinc from galvanizing dross. 展开更多
关键词 Galvanizing dross Gas pressure filtration Zinc recovery iron removal SEPARATION
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