矿冶工程
礦冶工程
광야공정
Mining and Metallurgical Engineering
2015年
4期
95-97
,共3页
张晓慧%周伟%刘静%周成显怡%谢通慧%张永奎
張曉慧%週偉%劉靜%週成顯怡%謝通慧%張永奎
장효혜%주위%류정%주성현이%사통혜%장영규
含硫碳酸锰矿%软锰矿%两矿法%联合浸出
含硫碳痠錳礦%軟錳礦%兩礦法%聯閤浸齣
함류탄산맹광%연맹광%량광법%연합침출
sulphureous manganese carbonate ore%pyrolusite%two-ore method%simultaneous leaching
针对含硫碳酸锰矿湿法浸出过程中产生大量硫化氢废气的问题,采用含硫碳酸锰矿和软锰矿新两矿法联合浸出工艺。较优工艺浸出条件为:两矿比2∶1,硫酸浓度0.5 mol/L,矿浆浓度75 g/L,浸出时间1 h,搅拌速率300 r/min。在此条件下,锰可以完全浸出,硫化氢产生量为2.14 mg/g。
針對含硫碳痠錳礦濕法浸齣過程中產生大量硫化氫廢氣的問題,採用含硫碳痠錳礦和軟錳礦新兩礦法聯閤浸齣工藝。較優工藝浸齣條件為:兩礦比2∶1,硫痠濃度0.5 mol/L,礦漿濃度75 g/L,浸齣時間1 h,攪拌速率300 r/min。在此條件下,錳可以完全浸齣,硫化氫產生量為2.14 mg/g。
침대함류탄산맹광습법침출과정중산생대량류화경폐기적문제,채용함류탄산맹광화연맹광신량광법연합침출공예。교우공예침출조건위:량광비2∶1,류산농도0.5 mol/L,광장농도75 g/L,침출시간1 h,교반속솔300 r/min。재차조건하,맹가이완전침출,류화경산생량위2.14 mg/g。
To reduce hydrogen sulfide gas generated by traditional hydrometallurgical leaching of sulphureous manganese carbonate ore, a novel two?ore method, namely, a combined leaching technology of manganese carbonate and pyrolusite was introduced. These two low?grade manganese ores can be thoroughly leached with mass ratio of two ores at 2∶1, sulphuric acid concentration of 0.5 mol/L, pulp density at 75 g/L, leaching time of 1 h and agitation rate of 300 r/min, leading to the hydrogen sulfide output reduced to 2.14 mg per gram of manganese carbonate.
