Comparative study of improved treatment of oil produced-water using pure and chemically-impregnated activated carbon of banana peels and Luffa cylindrica

O. Akinsete, Praise Otitochukwu Agbabi, S. Akinsete, A. Ipeaiyeda
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Abstract

Produced water (PW) during oil and gas production operations contains various hazardous substances including heavy metals (HM) with adverse impact on the environment. Disposal of PW interferes with environmental sustainability, making PW treatment obligatory prior to discharge into the environment. Among previously available treatments of PW, environmentally sustainable methods using low-pore space bio-adsorbents require further development. This study investigated the efficacy of chemically-modified activated carbon (cMAC) of Luffa cylindrica (LC) and Banana Peel (BP) for the treatment of PW obtained from Niger-Delta oilfield, treated (2, 4, and 6 h) with finely ground (425 μm) carbonized LC and BP impregnated separately with phosphoric-acid and sodium hydroxide. The derived cMAC was characterized by proximate analysis and FTIR spectroscopy. Treated PW was analysed for HM using AAS, Langmuir, and Freundlich isotherms. Obtained values of the surface area for the cMAC from LC were 880 (NaOH), 830 (H 3 PO 4 ) m 2 /g and BP was 810 (NaOH), and 920 (H 3 PO 4 ) m 2 /g. The existence of active functional groups is revealed on the FTIR spectra. Results revealed a substantial drop in HM concentrations (Zn: 30-86%, Cu: 78-88%, Ni: 33-55%, Fe: 17-52%) in PW after treatment with cMAC at varying contact times. All metals (Zn, Cu, Ni) in the treated PW except Fe were below WHO and USEPA guideline limits. Treatment of Niger Delta oilfield PW was effectively improved with acid-modified carbonized L. cylindrica .
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香蕉皮活性炭与化学浸渍丝瓜活性炭改进处理采油水的比较研究
油气生产过程中的采出水(PW)含有多种有害物质,包括重金属(HM),对环境有不利影响。污水的处理干扰了环境的可持续性,使污水在排放到环境之前必须进行处理。在现有的PW处理方法中,使用低孔空间生物吸附剂的环境可持续方法需要进一步发展。研究了丝瓜(Luffa ica, LC)和香蕉皮(Banana Peel, BP)的化学改性活性炭(cMAC)对尼日利亚三角洲油田产PW的处理效果,分别用细磨(425 μm)炭化的LC和BP分别用磷酸和氢氧化钠浸渍处理(2、4和6 h)。通过近似分析和FTIR光谱对所得cMAC进行了表征。采用原子吸收光谱法、Langmuir等温线和Freundlich等温线对处理后的PW进行HM分析。LC得到的cMAC的表面积分别为880 (NaOH)、830 (h3po4) m2 /g, BP分别为810 (NaOH)、920 (h3po4) m2 /g。红外光谱显示了活性官能团的存在。结果显示,在不同接触时间下,cMAC处理后的PW中HM浓度(Zn: 30-86%, Cu: 78-88%, Ni: 33-55%, Fe: 17-52%)均显著下降。除铁外,处理后的PW中所有金属(Zn, Cu, Ni)均低于WHO和USEPA的指导限值。采用酸改性炭化白茅菌,有效改善了尼日尔三角洲油田PW的处理效果。
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