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1���、doi:10.3969/j.issn.1007-7545.2012.07.001低品位氧化銅礦堆浸工業(yè)試驗(yàn)劉美林�����,劉國梁�����,武彪��,溫建康(北京有色金屬研究總院生物冶金國家工程實(shí)驗(yàn)室��,北京100088)摘要:采用硫酸作浸出劑��,對(duì)新疆土屋低品位氧化銅礦進(jìn)行堆浸工業(yè)試驗(yàn)�,重點(diǎn)考察了不同粒度和礦堆堆高的滲透性�����、銅浸出率及酸耗的變化��,并探討了當(dāng)?shù)貧夂驐l件對(duì)堆浸的影響。結(jié)果表明���,-50mm的礦石堆浸60天�,銅浸出率可達(dá)80%以上����。噸礦酸耗和水耗分別為24.2kg和164kg��,噸銅酸耗和水耗分別為9.4t和63.9t���。該礦采用堆浸-萃?����。姺e工藝回收銅是可行的���。關(guān)鍵詞:低品位氧化
2、銅礦��;堆浸�����;酸耗;工業(yè)試驗(yàn)中圖分類號(hào):TF811文獻(xiàn)標(biāo)識(shí)碼:A文章編號(hào):1007-7545(2012)07-0000-00PilotPlantTestonHeapLeachingofLowGradeOxidizedCopperOreLIUMei-lin,LIUGuo-liang,WUBiao,WENJian-kang(NationalEngineeringLaboratoryofBiohydrometallurgy,GeneralResearchInstituteforNonferrousMetals,Beijing100088,China)Abstract:Th
3����、epilotplanttestonheapleachingoflowgradeoxidizedcopperoreinTuwu,XinjiangUyghurAutonomousRegionwasconductedwiththeuseofsulfuricacidasleachingagent.Thepermeability,copperleachingrateandtheconsumptionofsulfuricacidofdifferentgranularityandheapheightwereinvestigated;furthermore,theeffectof
4、localweatherconditionsonheapleachingwasdiscussed.Theresultsshowthatthecopperleachingrateis80%aboveinviewof-50mmfor60dayssulfuricacidsolutionsprayleaching.Theactualconsumptionofsulfuricacidandwaterare24.2kgand164kgpertonnageore,respectively.Theactualconsumptionofsulfuricacidandwaterare
5��、9.4tand63.9tpertonnagecopper,respectively.Itisfeasibletorecovercopperfromthislowgradeoxidizedcopperorewiththeprocessofheapleaching,solventextraction,andelectrodeposition.Keywords:lowgradeoxidizedcopperore;heapleaching;consumptionofsulfuricacid;pilot-planttest隨著我國優(yōu)質(zhì)銅礦越來越少�����,開采和待開采的銅礦石性質(zhì)日
6�����、趨惡劣[1]�。濕法浸出—萃取—電積法[2]非常適合處理品位較低的礦石,其中酸法堆浸是應(yīng)用最廣泛的浸出工藝[3-7]�。新疆土屋銅礦資源豐富,但因地處戈壁灘����,這些資源目前尚未得到很好的開發(fā)利用。為驗(yàn)證酸浸工藝處理土屋低品位氧化銅礦的可行性和各項(xiàng)工藝指標(biāo)��,為正式堆浸場建設(shè)和投產(chǎn)提供可靠的工藝參數(shù),我們開展了堆浸現(xiàn)場工業(yè)試驗(yàn)�����,重點(diǎn)考察礦石的滲透性�����、粒級(jí)����、堆高以及當(dāng)?shù)貧夂驐l件等因素對(duì)銅浸出率的影響��。1礦石性質(zhì)1.1多元素分析堆浸工業(yè)試驗(yàn)礦石采自土屋氧化銅礦II號(hào)礦體地表礦�。原礦經(jīng)兩段一閉路的顎式破碎系統(tǒng)破碎后筑堆(破碎粒度上限-50mm)。但由于礦石風(fēng)化較嚴(yán)重�,破碎后粉礦占
7、比較大�����,影響礦堆的滲透性����。工業(yè)入堆礦石多元素分析結(jié)果見表1。表1工業(yè)試驗(yàn)入堆礦石多元素分析Table1Chemicalcompositionoforeforpilotplanttest/%礦堆編號(hào)CuFeCaMgSSiO2Al2O31#,5-50mm0.244.441.541.570.4754.099.262#�,-50mm0.244.531.521.580.4354.069.213#,-30mm0.404.620.991.120.8454.107.094#���,-30mm0.354.991.662.560.4156.067.035#���,-50mm0.315.791.86
8、2.030
