T-FANTYQ 09: Teknologi Lingkungan Penyaring Udara Sebagai Upaya Degradasi Polutan Asap Rokok

F Mudhofir(1), I Yulianti(2), S Sujarwata(3),


(1) 
(2) 
(3) 

Abstract

Masalah pencemaran merupakan suatu masalah yang terus berkembang di kalangan masyarakat. Berbagai jenis polutan, baik pada air, tanah, maupun udara sangat potensial merusak lingkungan dan merugikan kesehatan manusia. Asap rokok merupakan salah satu polutan udara yang sangat berbahaya baik bagi perokok aktif maupun perokok pasif. Sebuah teknologi “T-FANTYQ 09†dirancang sebagai teknologi untuk mendegradasi polutan CO yang dihasilkan asap rokok. Teknologi ini berbasis fotokatalis TiO2 yang dicampurkan dengan SiO2  dari lumpur lapindo yang disemprotkan pada preparat. Preparat sebagai katalis dan tiga lampu UV disusun dalam bentuk kotak berukuran 16cm x 10cm x 20cm. Pengujian dilakukan dengan memasukkan asap rokok dalam kotak untuk kemudian disinari lampu UV. Dalam pengujian alat menggunakan CO meter diperoleh hasil penurunan konsentrasi CO sampai 95% dengan waktu penyinaran 60 menit.

The problem of pollution is a problem that continues to develop among the people. Various types of pollutants, both in water, soil and air are very potential to damage the environment and harm human health. Cigarette smoke is one of the air pollutants that is very dangerous for both active smokers and passive smokers. A "T-FANTYQ 09" technology is designed as a technology to degrade CO pollutants produced by cigarette smoke. This technology is based on TiO2 photocatalyst mixed with SiO2 from lapindo mud which is sprayed on preparations. Preparations as catalysts and three UV lamps are arranged in a box shape measuring 16cm x 10cm x 20cm. The test is done by inserting cigarette smoke in a box and then illuminating the UV lamp. In testing tools using CO meters obtained results of a decrease in CO concentrations to 95% with a 60-minute irradiation time.

Keywords

T-FANTYQ 09, degradation of CO, catalysts, cigarette smoke

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References

Ao CH, Lee SC, & Yu JC. 2003. Photocatalyst TiO2 supported on glass fiber for indoor air purification: effect of NO on the photodegradation of CO and NO2. J Photoch photobio A:Chem.156(1-3):171-177.

Bazemore R, Harrison C, & Greenberg M. 2006. Identification of Components Responsible for the Odor of Cigar Smoker's Breath. J Agric Food Chem. 54: 497-501.

Colmenares JC, Luque R, Campelo JM, Colmenares F, Karpiński Z, & Romero AA. 2009. Nanostuctured photocatalytic and their application in the photocatalytic transformation of lignocellulosic biomass: An overview. Material (Basel) 2(4): 2228-2258.

Le DD, Dang TMD, Chau VT, & Dang MC. 2010. The Fibrication of visible light responsive Ag-SiO2 co doped TIO2 thin films by the sol-gel methode. Adv Natur Sci Nanosci Nanotech.1(1): 1-5.

Jung KY & Park SB. 2000. Enhaced photocatality of silica-embedded titania particle prepared by sol-gel process for the decomposition of trichloroethylene. Appl Catal.B: Environment. 25(4): 249-256

Linsebigler AL, Guangquan L & Yates JT. 1995.Photocatalysis TiO2 on surface: Principles, Mechanism and Selected Result. Chem Rev. 95(3): 735-758.

Mustopa RS & Risanti DD. 2013. Karakterisasi Sifat Fisis Lumpur Panas Sidoarjo dengan Aktivasi Kimia dan Fisika. Jurnal Teknik Pomits 2(2): F256-261

Sitepoe. 2000. Kekhususan Rokok Indonesia. Jakarta: PT. Gramedia Widiasarana.

Slamet & Ibadurrohman M. 2009. Purifikasi udara dari polutan asap rokok menggunakan kombinasi proses adsorbs fotokatalisis dengan nano komposit TiO2 karbon aktif. J Ris Ind 3(1): 1-5

Dang TMD, Le DD, Chau VT & Dang MC. 2010. Visibel light photocatalytic activity of N/SiO2- TiO2 thin films on glass. Adv Nat Sci: Nanosci Nanotechnol.,1: 1-5

Tian J, Chen L, Dai J, Wang X, Yin Y, & Wu P. 2009. Preparation and Characterization of TiO2, ZnO, and TiO2/ZnO Nanofilms Via Sol-gel Process. Ceram Int. 35(6):2261-2270.

Wu WC, Liao LF, Chuang CC, & Lin JL. 2000. Adsorption and Photooxidation of Formamide on Powdered TiO2. J Catal. 195(2): 416-419.

Yu R, Wu M, Lin S, & Talbot P. 2006. Cigarette Smoke Toxicants Alter Growth and Survival of Cultured Mammalian Cells. Toxicol Sci. 93(1): 82-95.

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