环境科学与技术
環境科學與技術
배경과학여기술
ENVIRONMENTAL SCIENCE & TECHNOLOGY
2010年
4期
112-116
,共5页
贺靖峰%段晨龙%何亚群%赵跃民%张洪建
賀靖峰%段晨龍%何亞群%趙躍民%張洪建
하정봉%단신룡%하아군%조약민%장홍건
废弃印刷电路板%湿法冲击破碎%变径分选床%模拟
廢棄印刷電路闆%濕法遲擊破碎%變徑分選床%模擬
폐기인쇄전로판%습법충격파쇄%변경분선상%모의
discarded printed circuit boards%wet impact crushing%tapered diameter separation bed%simulation
为了有效破碎废弃印刷电路板,解决冲击破碎过程中气味和粉尘的二次污染问题,采用以水为介质的湿法冲击式破碎机对废弃电路板进行破碎实验研究.破碎后废弃电路板颗粒的粒度分布是以-1+0.5mm和-0.074mm粒度区间的双峰为特征的.根据电路板金属和非金属选择性分布的特性,建立了电路板破碎产物粒度分布的双峰分布函数,应用Origin7.0软件对破碎产物的双峰分布函数进行非线性拟合,相关系数R~2均大于0.999,且残差E值较小.采用变径水介质分选床对破碎至-1mm粒级的废弃电路板物料进行了金属回收的实验研究,结果表明,在水流量5.5m~3/h,给料速率250g/min,倾斜度为35°条件下,可获得93.92%的综合效率和93.73%的回收率.论文提出了废弃电路板"湿法冲击破碎+分级+变径分选"回收金属的创新性工艺.
為瞭有效破碎廢棄印刷電路闆,解決遲擊破碎過程中氣味和粉塵的二次汙染問題,採用以水為介質的濕法遲擊式破碎機對廢棄電路闆進行破碎實驗研究.破碎後廢棄電路闆顆粒的粒度分佈是以-1+0.5mm和-0.074mm粒度區間的雙峰為特徵的.根據電路闆金屬和非金屬選擇性分佈的特性,建立瞭電路闆破碎產物粒度分佈的雙峰分佈函數,應用Origin7.0軟件對破碎產物的雙峰分佈函數進行非線性擬閤,相關繫數R~2均大于0.999,且殘差E值較小.採用變徑水介質分選床對破碎至-1mm粒級的廢棄電路闆物料進行瞭金屬迴收的實驗研究,結果錶明,在水流量5.5m~3/h,給料速率250g/min,傾斜度為35°條件下,可穫得93.92%的綜閤效率和93.73%的迴收率.論文提齣瞭廢棄電路闆"濕法遲擊破碎+分級+變徑分選"迴收金屬的創新性工藝.
위료유효파쇄폐기인쇄전로판,해결충격파쇄과정중기미화분진적이차오염문제,채용이수위개질적습법충격식파쇄궤대폐기전로판진행파쇄실험연구.파쇄후폐기전로판과립적립도분포시이-1+0.5mm화-0.074mm립도구간적쌍봉위특정적.근거전로판금속화비금속선택성분포적특성,건립료전로판파쇄산물립도분포적쌍봉분포함수,응용Origin7.0연건대파쇄산물적쌍봉분포함수진행비선성의합,상관계수R~2균대우0.999,차잔차E치교소.채용변경수개질분선상대파쇄지-1mm립급적폐기전로판물료진행료금속회수적실험연구,결과표명,재수류량5.5m~3/h,급료속솔250g/min,경사도위35°조건하,가획득93.92%적종합효솔화93.73%적회수솔.논문제출료폐기전로판"습법충격파쇄+분급+변경분선"회수금속적창신성공예.
To effectively crush discarded printed circuit boards (PCB), and solve the problem of secondary pollution of fugitive odor and dust during the crushing process, a wet impacting crusher was adopted to achieve comminution liberation of PCB in water medium. Size distribution of PCB particles was characterized as double peaks at the sizes of -1+0.5mm and -0.074mm. A double Rosin-Rammler function (DRR function) was proposed to describe the size distribution of PCB particles. Correlation coefficients of the fit curves were larger than 0.999, and the residuals were small. Using tapered diameter separation bed to process the -1mm size crushed material of waste PCB, with the discharge of water 5.5m~3/h, feed-rate of the material 250g/min and with an obliquity 350, product with 93.92% in integration efficiency and 93.73% in recovery ratio of the metal were obtained by primary separation. An innovative process of wet impact crushing, classifying, tapered diameter separation recover metal from discarded PCB was developed.
