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EFFECT AND INCORPORATION MECHANISM OF HEAVY METAL ELEMENTS IN HAZARDORS INDUSTRIAL WASTES DURING CLINKER FORMATION

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ã€Authorã€‘ CUI Suping, LAN Mingzhang, ZHANG Jiang, WANG Caiyun(School of Materials Science and Engineering, Beijing University of Technology, Beijing100022, China)

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ã€Abstractã€‘ There is a development trend around the world for cement industry to recycle hazardous industrial wastes (HIW) by using cement rotary kiln. A simulation test for burning the HIW under laboratory conditions as cement sintering process was studied with the aim of exploring effect and incorporation mechanism of heavy metal elements from the HIW in clinker forming process and 8 different kinds of heavy metal elementsâ€² (Cr, Co,Ni, Cu, Cd, Pb, Zn, As) incorporation mechanism in the clinker during the process. Results show that contents of the most for the 8 heavy metal elements contained in the simulation test of industrial raw meal were within the limits of both the European criterion and the American standard. The burning ability of the raw meal doped with the heavy metal elements are improved, especially when the temperature is below 1 350 â„ƒ. It is found that the 3 d strength of the clinker made from the raw materials mixed with the HIW decreases while the 28 d strength increases slightly.Most of the heavy metal elements can be incorporated in the sintered clinker phases although the incorporation has element selectivity, which depends on the variety of clinker phases.æ›´å¤š è¿˜åŽŸ

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ã€Key wordsã€‘ hazardous industrial wastesï¼› heavy metal elementsï¼› cement clinkerï¼› heavy metal element incorporation mechanismï¼›

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