Extraction of soluble major and trace elements from fly ash in open and closed leaching systems

Citation
X. Querol et al., Extraction of soluble major and trace elements from fly ash in open and closed leaching systems, FUEL, 80(6), 2001, pp. 801-813
Citations number
34
Categorie Soggetti
Chemistry,"Chemical Engineering
Journal title
FUEL
ISSN journal
00162361 → ACNP
Volume
80
Issue
6
Year of publication
2001
Pages
801 - 813
Database
ISI
SICI code
0016-2361(200105)80:6<801:EOSMAT>2.0.ZU;2-F
Abstract
This study focuses on the mobility of water-soluble major and trace element s in six Spanish By ashes using room temperature open and closed and heated (90 degreesC) closed leaching systems in an attempt to reduce the content of undesirable species in coal combustion by-products to increase their pot ential applications. The leaching trends of the trace impurities are consistent with the dissolu tion of small solid particles or coatings on the surface of the ash solid p hases rather than with the dissolution of a homogeneous glass phase. The le aching rate of the different trace impurities can be arranged in decreasing order as B greater than or equal to Mo greater than or equal to Se > Li > Sr greater than or equal to Cr greater than or equal to As = Ba = Cd = V > Sn > Rb = Zn greater than or equal to Cu = Ni = Ph > U > Co > Mn. Although several elements showed increased mobility in the room temperature open leaching system with respect to the closed extraction, the difference s obtained for major impurities were not significant with the exception of the extraction ratios obtained for As and V in high lime By ashes. The extr action ratios were higher for the heated leaching than those obtained for r oom temperature extraction for the elements Al. Si, K, Na, Ba, Cr, Rb, Sr a nd V. However, the mobility of major impurities (Ca and Fe) and heavy metal s did not increase considerably in the heated extraction (generally <30%). (C) 2001 Elsevier Science Ltd. All rights reserved.