Studi eksperimental penggunaan limbah karbit sebagai adsorben untuk menurunkan emisi kendaraan bermotor

H. S. Tira, M. Wirawan, Y. A. Padang, S. Salman, H. Heruwasyah

Abstract


Motor vehicle emissions have proven lead to environmental and human health quality degradation. Therefore, efforts to reduce emissions especially motorcycles need to be done. Utilization of carbide waste has been proposed to be one of the solutions to reduce the level of emission of motorcycles. The carbide waste used is formed into granules and then installed into a reactor and placed in the exhaust line which will act as an adsorbent. The experimental study was conducted experimentally using a Yamaha Mio M3 125 CC. The results showed a reduction in exhaust emissions when using carbide waste adsorbents compared to emissions without adsorbents. The reduction was even greater when the volume of carbide waste was also greater. The reduction occurs in all types of emissions, both HC, CO, and CO2. It was obtained a reduction in emissions could reach up to 57 % for HC. However, the reduction performance cannot last long because the adsorbent has been saturated. Therefore further research is required to be performed.


Keywords


Emissions; motor vehicle; carbide waste

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References


Anonimus, 2020, Badan pusat statistik Republik Indonesia, dikutip pada Maret 2020, https://www.bps.go.id/linkTableDinamis/view/id/1133.

Amin M., Subri M., 2015, Pengaruh penambahan tembaga terhadap densitas material ceramic matrix composit (cmc) untuk aplikasi filter gas emisi kendaraan, Traksi, 15(1), 22-27.

Biswas S., Verma V., Schauer J.J., Sioutas C., 2009, Chemical separation of pm emissions from heavy-duty vehicles equipped with diesel particulate filter (DPF) and selective catalytic reduction (SCR) retrofits, Atmospheric Environment, 43, 1914-1925.

Endayani I.D., Putra T.D., 2011, Pengaruh penambahan zat aditif pada bahan bakar terhadap emisi gas buang mesin sepeda motor, Proton, 3(1), 29-34.

Heywood J.B., 2018, Internal combustion engine fundamentals, Penerbit McGraw-Hill education, USA.

Irawan R.M.B., 2012, Rancang bangun catalytric converter material substrat tembaga berlapis mangan untuk mereduksi emisi gas karbon monoksida motor bensin, Seminar Hasil-Hasil Penelitian-LPPM UNIMUS.

Mehregan M., Moghirman M., 2020, Experimental investigation of the distint effects of nanoparticles addition and urea-SCR after-treatment system on NOX emissions in a blended-biodiesel fuelled internal combustion engine, Fuel, 262, 116609.

Smith J.D., Reuhl C., Burnitzki M., Sobieralski W., Quiros D., Hu S., Chernich D., Collins J., Huai T., Dwyer H., 2019, Real-time particulate emissions rates from active and passive heavy-duty diesel particulate filter regeneration, Science of The Total Environment, 680, 132-139.

Tira H.S., Herreros J.M., Tsolakis A., Wyszynski M.L., 2014, Influence of the addition of LPG-reformate and H2 on an engine dually fuelled with LPG-diesel, -RME and –GTL fuels, Fuel, 118, 73-82

Tira H.S., Padang Y.A., 2016, Removal of CO2 and H2S from raw biogas using activated natural zeolite, AIP Conference Proceedings, 1778, 030006.

Uchisawa J., Obuchi A., Ohi A., Nanba T., Nakayama N., 2008, Activity of catalysts supported on heat-resistant ceramic cloth for diesel soot oxidation, Powder Technology, 180(1-2), 39-44.

Unjanto S., Palmiyanto M.H., Thoharudin, Nugroho A.S., 2015, Emisi CO dan NOx pada gas buang kendaraan menggunakan katalis tembaga berporitermodifikasi, Prosiding SNATIF ke-2, 117-124.




DOI: https://doi.org/10.29303/dtm.v10i2.339

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