氧化铁脱酚-化学除氧法处理橄榄厂废水

Volume 1, Issue 3 Pub Date : 2018-09-26 DOI:10.30955/gnj.002650

Al-Shaweesh, Al-Kabariti, Al-Zawaidah

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引用次数: 4

摘要

在约旦和许多其他地中海国家一样，橄榄油的生产是主要的农业生产之一，据估计，约旦每年的橄榄油产量约为21.5万吨。另一方面，橄榄油的提取过程产生约20万立方米的橄榄厂废水(OMW)，这被认为是一个严重的问题。在这项研究中，真实的废水样本是从大学校园附近的工厂出口收集的。经分析，该废水具有较高的化学需氧量COD (253.648 kg/l)和生物需氧量BOD (89.365kg/l)。这些高的BOD和COD显示出在排放到城市污水之前确实需要对其进行处理。该研究还侧重于减少一种器官酚成分，该成分已被测量并发现等于0.5698毫克/升。以纳米颗粒形式使用氧化铁成功地氧化了橄榄厂废水(OMW)中的有机酚，并将其降至0.002 mg/l。结果表明，0.1g的氧化铁以纳米颗粒的形式与沙子混合后，具有去除样品中酚类的能力。得到的去除率达97%。以0.1 g fe2o3与1 kg沙子的比例混合使用铁纳米颗粒时，有机酚的去除率达到99%，COD()的去除率达到97.2%。结果表明，铁纳米粒子对溶液中存在的其他矿物具有很好的去除Cr+3Cu+ 3k +Ca+2Na+的能力。废水中存在矿物质。

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Olive Mill Wastewater (OMW) Treatment by Using Ferric Oxide Dephenolization and Chemical Oxygen Demand Removal

In Jordan and as in many other Mediterranean countries olive oil production is one of the major agricultural production, it is estimated that the annual production of olive oil in Jordan approximately 21.5 thousand tons per year. O the other hand the process of olive oil extraction generates around 200,000 m3 of olive mill wastewater (OMW) and it is considered as a a serious problem in. In this study the real sample of wastewater is collected from the outlet at the mill near by the university campus. The analysis of this collected wastewater has shown a very high Chemical Oxygen Demand COD (253.648 kg/l) and Bilogical Oxygen Demand, BOD (89.365kg/l). These high BOD and COD reveals a real need to treat it before sent to municipal sewage. The study also focuses on reducing an organ phenol component which has been measured and found equal to 0.5698mg/l. The use of Ferric Oxide in the form of nanoparticles was successfully used to oxide organic phenols from olive mill wastewater (OMW) and has reduced to 0.002 mg/l. The results show that 0.1g of Ferric Oxide in the form of nanoparticles when mixed with sand has the capacity to remove the phenols from the collected samples. The removal percentage obtained here reached 97%. When the mixture of ferric nanoparticles used with sand in a ratio of 0.1 g Fe2O3and 1 kg of sand, the removal capacity of organic phenols has reached to 99%, and COD () in percentage of 97.2%. The results show an interesting behavior towards other minerals that exists in solution, that ferric nanoparticles have a good capacity to remove Cr+3Cu+3 K+Ca+2Na+.minerals exist in wastewater.

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Volume 1, Issue 3

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