Araştırma Makalesi
BibTex RIS Kaynak Göster
Yıl 2019, Cilt: 3 Sayı: 2, 102 - 109, 28.06.2019

Öz

Kaynakça

  • Okiy S., Emagbetere E., Oreko B. U. and Okwu M., (2018). Design and Fabrication of Polythene Pelletizing Machine for Urban Communities In Nigeria. American Journal of Engineering Research, 7 (01), pp. 32-41.Andrady, A., Neal, M. (2009). Applications and societal benefits of plastics, Philosophical Transactions Royal Society of London, 364 (1526)
  • Ayo A. W., Olukunle O. J., Adelabu D. J., (2017) Development of a waste plastic shredding machine. Int J Waste Resour 7: 281.
  • United Nations Environment, (2018), World Environment Day 2018: Overview,https://wedocs.unep.org/bitstream/handle/20.500.11822/25398/WED%20Messaging%20Two-Page%2027April.pdf
  • Williams, Paul T. 2005. Waste Recycling. Waste Treatment and Disposal 6: 127–70.
  • Dutta J. and Choudhury M., (2018). Plastic Pollution: A Global Problem from a Local Perspective. J Waste Manage Xenobio,1(1): 000102.
  • Royer S. J., Ferron S., Wilson S. T., and Karl D. M., (2018), Production of methane and ethylene from plastic in the environment. PLoS ONE 13(8): e0200574.
  • Ikpe A. E., Owunna I., (2017) Design of Used PET Bottles Crushing Machine for Small Scale Industrial Applications, International Journal of Engineering Technologies Vol.3(3): 233-241
  • Jadhav N. D., Patil A., Lokhande H., Turambe D. (2018) Development of Plastic Bottle Shredding Machine. Int J Waste Resour 8(336).
  • Darshan R., and Gururaja S., (2017). Design and Fabrication of Crusher Machine for Plastic Wastes, International Journal of Mechanical and Production Engineering, 5(10): 55-58
  • Olanrewaju O. O. and Ilemobade A. A. (2009). Waste to Wealth: A Case Study of the Ondo State Integrated Wastes Recycling and Treatment Project, Nigeria. European Journal of Social Sciences 8(1): 7-16
  • Atadious D. and Oyejide O. J., (2018). Design and Construction of a Plastic Shredder Machine for Recycling and Management of Plastic Wastes. International Journal of Scientific & Engineering Research 9 (5), 1379
  • Ugoamadi C. C. and Ihesiulor O. K., (2011) Optimization of the Development of a Plastic Recycling Machine. Nigerian Journal of Technology, Vol. 30, No 3, pp. 67-81.Sonkhaskar Y. M., (2014) Design and development of plastic bottle crusher. Int J Engg Technol Sci Res 3: 10.
  • Khurmi, R. S. and Gupta, J. K., (2005). A Textbook Of Machine Design. Eurasia Publishing House (Pvt) Ltd. Ram Nagar, New Delhi-110055.
  • Engineering ToolBox, (2004). Friction and Friction Coefficients. [online] Available at: https://www.engineeringtoolbox.com/friction-coefficients-d_778.html [Accessed on 10th June, 2018].
  • Faiyyaj M. I., Pradip M. R., Dhanaji B. J., Chandrashekhar D. P., Shivaji J. S., (2017). Design and Development of Plastic Shredding Machine, International Journal of Engineering Technology Science and Research, 4(10), ISSN 2394 – 3386
  • Tata R. P. (2011). Elements of Machine Design. CED Engineering. Continuing Education and Development, Inc. Stony Point.

Development of Shredding and Washing Machine for Polyethylene Terephthalate (PET) Bottles Pelletizer

Yıl 2019, Cilt: 3 Sayı: 2, 102 - 109, 28.06.2019

Öz

Plastics, owing to its widespread use in almost all sectors, has become a foremost important environmental threat facing humankind and recycling is considered the best and viable option to tackle this peril. The purpose of this research was to develop and evaluate PET bottles shredding and washing machine for waste management and recycling. The research was aimed at shredding PET bottles into required sizes with an area of 0.001m2 (10mm x 10mm) for a plastic pelletizer. The machine developed performs washing, cleaning and shredding of PET bottles using rotating blades are arranged in auger-like manner, other features of the machine includes hopper, washing chamber, adjustable screen and centrifugal pump. The machine was designed with high consideration for safety, easy operation, efficiency and cost. The machine has the capacity to shred 50-75kg of PET bottles per hour. The recycling efficiency, shredding efficiency and percentage retention are the parameters used to evaluate the performance of the machine at variable operation speeds (187.5rpm, 273.8rpm and 350.2rpm) and feeding rates (1.0kg/hr, 1.8kg/hr and 2.4 kg/hr). Tests results showed higher ratio of the shredded plastic of the desired size at 1.8kg/hr and 350.2rpm, accounting for 60.01% shredding efficiency. The recycling efficiency of the shredding and washing machine is 93.73% at 273.8rpm and 1.8kg/hr feeding rate, with the highest retention of 17.9% at 2.4kg/hr feeding rate and 185.7rpm. The shredding and washing machine will be used in combination with plastic pelletizing machine in a waste recycling plant.

Kaynakça

  • Okiy S., Emagbetere E., Oreko B. U. and Okwu M., (2018). Design and Fabrication of Polythene Pelletizing Machine for Urban Communities In Nigeria. American Journal of Engineering Research, 7 (01), pp. 32-41.Andrady, A., Neal, M. (2009). Applications and societal benefits of plastics, Philosophical Transactions Royal Society of London, 364 (1526)
  • Ayo A. W., Olukunle O. J., Adelabu D. J., (2017) Development of a waste plastic shredding machine. Int J Waste Resour 7: 281.
  • United Nations Environment, (2018), World Environment Day 2018: Overview,https://wedocs.unep.org/bitstream/handle/20.500.11822/25398/WED%20Messaging%20Two-Page%2027April.pdf
  • Williams, Paul T. 2005. Waste Recycling. Waste Treatment and Disposal 6: 127–70.
  • Dutta J. and Choudhury M., (2018). Plastic Pollution: A Global Problem from a Local Perspective. J Waste Manage Xenobio,1(1): 000102.
  • Royer S. J., Ferron S., Wilson S. T., and Karl D. M., (2018), Production of methane and ethylene from plastic in the environment. PLoS ONE 13(8): e0200574.
  • Ikpe A. E., Owunna I., (2017) Design of Used PET Bottles Crushing Machine for Small Scale Industrial Applications, International Journal of Engineering Technologies Vol.3(3): 233-241
  • Jadhav N. D., Patil A., Lokhande H., Turambe D. (2018) Development of Plastic Bottle Shredding Machine. Int J Waste Resour 8(336).
  • Darshan R., and Gururaja S., (2017). Design and Fabrication of Crusher Machine for Plastic Wastes, International Journal of Mechanical and Production Engineering, 5(10): 55-58
  • Olanrewaju O. O. and Ilemobade A. A. (2009). Waste to Wealth: A Case Study of the Ondo State Integrated Wastes Recycling and Treatment Project, Nigeria. European Journal of Social Sciences 8(1): 7-16
  • Atadious D. and Oyejide O. J., (2018). Design and Construction of a Plastic Shredder Machine for Recycling and Management of Plastic Wastes. International Journal of Scientific & Engineering Research 9 (5), 1379
  • Ugoamadi C. C. and Ihesiulor O. K., (2011) Optimization of the Development of a Plastic Recycling Machine. Nigerian Journal of Technology, Vol. 30, No 3, pp. 67-81.Sonkhaskar Y. M., (2014) Design and development of plastic bottle crusher. Int J Engg Technol Sci Res 3: 10.
  • Khurmi, R. S. and Gupta, J. K., (2005). A Textbook Of Machine Design. Eurasia Publishing House (Pvt) Ltd. Ram Nagar, New Delhi-110055.
  • Engineering ToolBox, (2004). Friction and Friction Coefficients. [online] Available at: https://www.engineeringtoolbox.com/friction-coefficients-d_778.html [Accessed on 10th June, 2018].
  • Faiyyaj M. I., Pradip M. R., Dhanaji B. J., Chandrashekhar D. P., Shivaji J. S., (2017). Design and Development of Plastic Shredding Machine, International Journal of Engineering Technology Science and Research, 4(10), ISSN 2394 – 3386
  • Tata R. P. (2011). Elements of Machine Design. CED Engineering. Continuing Education and Development, Inc. Stony Point.
Toplam 16 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Mühendislik
Bölüm Articles
Yazarlar

Damilola Oyebade 0000-0002-0330-8276

Oluwatobi Okunola Bu kişi benim

Olawale Olanrewaju

Yayımlanma Tarihi 28 Haziran 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 3 Sayı: 2

Kaynak Göster

IEEE D. Oyebade, O. Okunola, ve O. Olanrewaju, “Development of Shredding and Washing Machine for Polyethylene Terephthalate (PET) Bottles Pelletizer”, IJESA, c. 3, sy. 2, ss. 102–109, 2019.

ISSN 2548-1185
e-ISSN 2587-2176
Period: Quarterly
Founded: 2016
Publisher: Nisantasi University
e-mail:ilhcol@gmail.com