日用电器
日用電器
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ELECTRICAL APPLIANCES
2014年
12期
65-70
,共6页
赵新%王鹏程%胡彪%刘阳%韩文生%万超
趙新%王鵬程%鬍彪%劉暘%韓文生%萬超
조신%왕붕정%호표%류양%한문생%만초
废CRT含铅玻璃%高值%资源化%机理
廢CRT含鉛玻璃%高值%資源化%機理
폐CRT함연파리%고치%자원화%궤리
discarded CRT leaded glass%high-value%resource recycling%mechanism
本文提出了废CRT含铅玻璃资源化的新工艺,并对其工艺中的水玻璃熔块制备、水解、渣液分离、水溶液除铅等关键技术进行了机理分析,以实现废CRT含铅玻璃的高值资源化综合利用,具有显著的环境和经济效益。
本文提齣瞭廢CRT含鉛玻璃資源化的新工藝,併對其工藝中的水玻璃鎔塊製備、水解、渣液分離、水溶液除鉛等關鍵技術進行瞭機理分析,以實現廢CRT含鉛玻璃的高值資源化綜閤利用,具有顯著的環境和經濟效益。
본문제출료폐CRT함연파리자원화적신공예,병대기공예중적수파리용괴제비、수해、사액분리、수용액제연등관건기술진행료궤리분석,이실현폐CRT함연파리적고치자원화종합이용,구유현저적배경화경제효익。
This paper represents the new resource recycling process of waste Cathode Ray TubeLeaded glass. Mechanism analysis of key technologies is conducted, such as sodium silicate frit preparation, hydrolysis, slag liquid separation, lead removal from aqueous solution, and etc.. This new process can achieve high-value resource recycling comprehensive utilization for leaded glass from discarded CRT, and it has significant environmental and economic benefits.
