KnE Engineering

ISSN: 2518-6841

The latest conference proceedings on all fields of engineering.

Photocatalytic-based Titanium Dioxide and Its Application in Reducing Organic Pollutant of River Water

Published date: Mar 07 2024

Journal Title: KnE Engineering

Issue title: Jakarta International Conference on Multidisciplinary Studies towards Creative Industries (JICOMS)

Pages: 662–667

DOI: 10.18502/keg.v6i1.15457

Authors:

Fisca Dian Utamifisca.dian.utami1@gmail.comPoliteknik Transportasi Sungai, Danau, dan Penyeberangan Palembang, Palembang, Indonesia

Paulina Mutiara LatuheruPoliteknik Transportasi Sungai, Danau, dan Penyeberangan Palembang, Palembang, Indonesia

Yulia Puspita SariPoliteknik Transportasi Sungai, Danau, dan Penyeberangan Palembang, Palembang, Indonesia

Noor SulistiyonoPoliteknik Transportasi Sungai, Danau, dan Penyeberangan Palembang, Palembang, Indonesia

Handika Dany RahmayantiPoliteknik Negeri Media Kreatif, Jakarta, Indonesia

Dui Yanto RahmanUniversitas PGRI, Palembang, Indonesia

Indah Rosidah MaemunahOsaka University, Japan

Abstract:

The Indonesian region of Sumatra has many rivers, and several of them are currently polluted by household and industrial wastes. Due to this, the river water looks cloudy and not clear. An easy method is needed to reduce the impact of this organic waste pollution. Photocatalysts are known for their ability to destroy organic pollutants which are environmentally friendly, cheap, and have the potential to be widely developed on a large scale. The principal mechanism of photocatalyst are generating the hydroxyl radicals (OH), which act as strong oxidants to mineralize organic contaminants. These principal photocatalyst mechanism includes the generation of hydroxyl radicals (OH), which act as strong oxidants to mineralize organic contaminants. A handy sprayimmobilization method of TiO2 powders on the solid plastic buffer has been utilized in a destroying effluent system. The photocatalytic activity of the TiO2-immobilized transparent plastic were evaluated by the degradation of organic contaminant under sunlight irradiation. The titania catalyst have the most potential destroying impact of about 98% after 10 days of sun irradiation. This investigation proved the potential of titanium oxide in handling organic waste in rivers.

Keywords: titanium dioxide, photocatalytic, water treatment, river

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