Aqueous extracts of composted oil refinery sludge and their possible environmental impacts

Snigdha Nath, Subhasish Das
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Abstract

Oil refinery sludge (ORS) management is a global concern, yet information on its low-cost biotransformation possibility is fairly limited. We present a novel approach for ORS mitigation by Eisenia fetida and Eudrilus eugeniae and aerobic composting (AC) in producing clean aqueous extracts (compost teas). Detailed physicochemical characterization, phytotoxicity assays, economic feasibility comparisons, and mathematical equation-based environmental and human health hazard prediction studies were done for all the earthworm and non-earthworm processed compost teas. The E. eugeniae-compost tea reduced Cr, Pb, Cu, Cd, and Zn contents by 52.7, 61.2, 41.8, 80, and 93.8%, respectively. The earthworm-sourced teas showed lower ecological risk (<300) than their aerobic counterparts. Seed germination in Pisum sativum and Cicer arietinum was 2–2.5 folds higher with vermi-derived tea application. Economic assessments illustrated the superiority of E. eugeniae-based biotransformation with higher cash flow and a lower payback time of 1.53 years. The mathematical predictions on human health showed no alarming status for any of the vermi/aerobic compost teas. Overall results implied that vermicomposting is safer and more beneficial than AC in the ORS bioconversion. However, this study warrants further research in exploring the efficiency of other earthworm species, feedstock selection, or seasonal variability in ORS management.
堆肥炼油厂污泥的水提取物及其可能对环境造成的影响
炼油污泥(ORS)管理是一个全球关注的问题,但有关其低成本生物转化可能性的信息却相当有限。我们介绍了一种利用Eisenia fetida和Eudrilus eugeniae以及好氧堆肥(AC)生产清洁水提取物(堆肥茶)来缓解ORS的新方法。对所有蚯蚓和非蚯蚓加工的堆肥茶进行了详细的理化特性分析、植物毒性测定、经济可行性比较以及基于数学方程的环境和人类健康危害预测研究。蚯蚓堆肥茶可降低铬、铅、铜、镉和锌的含量,降幅分别为 52.7%、61.2%、41.8%、80% 和 93.8%。蚯蚓茶的生态风险(<300)低于好氧茶。施用蚯蚓茶后,Pisum sativum 和 Cicer arietinum 的种子发芽率提高了 2-2.5 倍。经济评估表明,以 E. eugeniae 为基础的生物转化具有更高的现金流和更短的投资回收期(1.53 年)的优势。对人类健康的数学预测表明,任何一种蚯蚓/好氧堆肥茶都不会引起人类健康的担忧。总体结果表明,在 ORS 生物转化过程中,蚯蚓堆肥比 AC 更安全、更有益。不过,这项研究还需要进一步探索其他蚯蚓物种的效率、原料选择或 ORS 管理中的季节性变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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