【摘要】 非流体介质中多环芳烃(PAHs)污染的修复是目前环境工作者所面临的艰巨而紧迫的任务.由于非流体介质环境的特殊性,常规修复方法难以高效地发挥作用,传统微生物修复技术采用的游离微生物也存在许多弊端.而微生物固定化能大幅度地提高参加反应的微生物浓度,避免优势菌受土著菌的恶性竞争,增强微生物的耐环境冲击性.微生物固定化技术在一定程度上克服了传统工艺的不足,因而广泛应用于流体介质(废水等)和半流体介质(泥浆等)环境污染的修复.在概述固定化微生物技术的特点和分析国内外研究进展的基础上,指出将该技术应用于非流体介质中PAHs污染的原位修复领域的可行性,并论述了需要解决的关键科学问题,提出了利用微生物固定化技术修复非流体介质中PAHs污染的未来研究课题.更多还原

【Abstract】 The remediation of polycyclic aromatic hydrocarbons (PAHs) in non-fluid medium is a difficult and urgent task for environmental scientists. Due to the particularities of non-fluid medium, conventional techniques cannot work effectively, while bioremediation techniques using free microorganism also have many limitations that restricted the use of microorganism in removing PAHs from non-fluid medium. Immobilized microorganism (IM) technique is a proven approach in increasing the stability of microorganism under unfavorable conditions, which can not only provide a special microenvironment to protect dominant microorganisms from the malignant competition of aboriginal microorganism, but also improve the tolerance against toxic compounds in environment. Biodegradation using immobilized cells has been widely investigated for numerous toxic compounds in fluid medium such as in wastewater, or in half-fluid medium such as in slurry. In this paper, based on analyzing the characteristics of IM technique and its feasibility, the problem and development of future research were presented, and the new technique using IM to remediate PAHs in non-fluid medium was put forward.更多还原