Environmental Biotechnology Program, Life Sciences Department, College of Graduate Studies, Arabian Gulf University, Manama, Bahrain.
Petroleum Research Center, Kuwait Institute for Scientific Research, Safat, Kuwait.
J Appl Microbiol. 2018 Nov;125(5):1358-1369. doi: 10.1111/jam.14036. Epub 2018 Jul 26.
To investigate the capabilities of different types of biosurfactants (rhamnolipids, lipopeptides, sophorolipids) to remove metals and carbon from the hazardous spent hydrodesulphurization (HDS) catalyst generated by petroleum refineries.
Biosurfactants were prepared and used to treat spent HDS catalyst. Metal and carbon contents were analysed and compared with those from no-biosurfactant control treatments. All biosurfactant treatments increased carbon loss percentage from the spent HDS catalyst. The lipopeptide treatment LI, containing 17·34 mg ml of crude biosurfactants, caused the highest carbon loss percentage (44·5%). Rhamnolipids were, in general, better than sophorolipids and lipopeptides as metal-removing agents. The metal content decreased as the concentration of rhamnolipids decreased. The R5 treatment, which contained 0·4 mg l of crude rhamnolipids, caused the highest reduction in metal content. Molybdenum, nickle and vanadium contents were reduced by 90, 30 and 70% respectively.
Biosurfactants might have potential application for metals and coke removal from spent HDS catalysts. The bioleaching capability depends on the type and concentration of the biosurfactant.
This study, after further in-depth investigations, might lead to the development of an eco-friendly and economic technology to treat or even regenerate the environmentally hazardous spent HDS catalysts, which are generated in huge amounts by the petroleum refineries.
研究不同类型生物表面活性剂(鼠李糖脂、脂肽、槐糖脂)去除炼油厂产生的危险废加氢脱硫(HDS)催化剂中金属和碳的能力。
制备生物表面活性剂并用于处理废 HDS 催化剂。分析金属和碳含量,并与无生物表面活性剂对照处理进行比较。所有生物表面活性剂处理均增加了废 HDS 催化剂的碳损失百分比。含有 17.34mg/ml 粗生物表面活性剂的脂肽处理 LI 导致最高的碳损失百分比(44.5%)。与槐糖脂和脂肽相比,鼠李糖脂通常更能去除金属。随着鼠李糖脂浓度的降低,金属含量降低。R5 处理(含有 0.4mg/l 粗鼠李糖脂)导致金属含量降低最高。钼、镍和钒的含量分别降低了 90%、30%和 70%。
生物表面活性剂可能具有从废 HDS 催化剂中去除金属和焦炭的潜力。生物沥滤能力取决于生物表面活性剂的类型和浓度。
这项研究,如果进行进一步深入研究,可能会开发出一种环保且经济的技术,用于处理甚至再生炼油厂大量产生的对环境有害的废 HDS 催化剂。
