Chemical-physical features of the biochar-based oil-destructive sorbent

A. Khokhlov
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引用次数: 0

Abstract

The main task and relevance of this work are to develop the most effective sorbents for cleaning oil pollution or accidental oil spills. A generalized criterion for evaluating the effectiveness of a sorbent is the local availability and fast renewability of raw materials for biochar. The features of obtaining biochar from cellulose-containing plant raw materials of corn cobs are described. The effect was studied of the pyrolysis conditions of the selected plant material on the physicochemical properties of biochar, which are responsible for the intermolecular interaction of the sorbent with the adsorbed substance and for immobilization and viability of oil degrading bacteria, which indicates the possibility to control the properties of oil destructive sorbent at the production stage. The optimal mode of carbonization of such raw materials has been worked out to obtain a sorbent with porosity and chemical compatibility with oil-degrading bacteria. Cultural cultivation for immobilization of oil-degrading bacteria was carried out in a nutrient medium and a concentrate was prepared. It is shown that biochar with oil-oxidizing microorganisms fixed on its surface has significant sorption and destructive properties.
生物炭基石油破坏性吸附剂的化学物理特性
本工作的主要任务和意义是开发最有效的吸附剂来清除油污或意外溢油。评价吸附剂有效性的一般标准是生物炭原料的本地可用性和快速可再生性。介绍了以含纤维素植物原料玉米芯为原料制备生物炭的特点。研究了所选植物材料的热解条件对生物炭的理化性质的影响,这些性质负责吸收剂与被吸附物质的分子间相互作用以及石油降解细菌的固定化和活力,表明了在生产阶段控制石油破坏性吸收剂性能的可能性。研究了该原料的最佳碳化方式,得到了一种孔隙度高、与油降解菌化学相容性好的吸附剂。在营养培养基中进行了固定化石油降解菌的培养,并制备了浓缩物。结果表明,生物炭表面固定有油氧化微生物,具有显著的吸附和破坏性能。
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