Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
682030 | Bioresource Technology | 2011 | 6 Pages |
An integrated biosorption–pyrolysis technology was employed to recover Pb from aqueous solution. A series of biosorption, fast pyrolysis and leaching experiments were carried out. The optimum pH and adsorbent dose for Pb adsorption from aqueous solution are 6.0 and 3.0 g L−1, respectively. The temperature is a key factor influencing the yields of pyrolysis products, and the maximum yield of bio-oil is 45.7% at 773 K. The pyrolysis technology can effectively recover Pb from Pb polluted Typha angustifolia biomass (Pb-TAB) and its recovery efficiency is not notably influenced by temperature. According to the economic evaluation, the biosorption–pyrolysis technology has great techno-economic advantages over the conventional biosorption–leaching technology.
► We first proposed a biosorption-pyrolysis technology for recovering the heavy metals. ► The Pb recovery efficiency reached 98%. ► The cost is only $ 0.06 per ton waste water using the technology.