期刊
APPLIED SCIENCES-BASEL
卷 11, 期 10, 页码 -出版社
MDPI
DOI: 10.3390/app11104498
关键词
Bacillus sp; residual biomass; biosorption reactor design; dynamic biosorption; flow rate effect; BRed reactive anionic dye; Thomas and Yoon-Nelson models
类别
资金
- Ministry of Research, Innovation and Digitization, CNCS/CCCDI-UEFISCDI [490PED/2020]
The study utilized residual Bacillus sp. biomass for dye biosorption and confirmed its potential as a good biosorbent in dynamic operating systems for treating wastewater containing small quantities of organic dyes.
Residual biomass from various industries represents an important source of valuable compounds, used as raw materials for the production of a wide range of new products and also in various treatment and valorization processes or/and sanitation services, thus responding to the principles of sustainable development, waste recovery, and a green and circular economy. The aim of this work is to make use of residual Bacillus sp. biomass (resulting from a process of removing fatty acids from municipal wastewater) immobilized in alginate that, although it results in large quantities from biotechnological processes, is not reported to be valorized in dye biosorption processes, except in few specific applications. The biosorption potential of residual Bacillus sp. biomass in the reactive Brilliant Red HE-3B textile dye removal from aqueous systems was studied in a fixed-bed column. The effects of various experimental operating parameters, such as bed depth (h), flow rate (F-v), were investigated, and the modeling of experimental data based on Thomas and Yoon-Nelson kinetic models was satisfactorily achieved. The obtained results reconfirm that the studied residual biomass can be also considered as a good biosorbent in dynamic operating system, and can be beneficially used in the treatment of wastewater containing small quantities of organic dyes.
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