The Calorific Value Experiment of Refuse Derived Fuel by Utilizing Residual Waste to Produce Energy

Somchay  Vilaychaleun; Phoummixay  Siharath; Chankhachone  Sonemanivong; Biswadip Basu  Mallik; Khampasith  Thammathevo; Phouphavanh  Khounpaserth; Vilakone  Sandvilay; Souliphone  Phommixay

doi:10.54783/ijsoc.v5i1.660

The Calorific Value Experiment of Refuse Derived Fuel by Utilizing Residual Waste to Produce Energy

Somchay Vilaychaleun National University of Laos, Laos
Phoummixay Siharath National University of Laos, Laos
Chankhachone Sonemanivong National University of Laos, Laos
Biswadip Basu Mallik Institute of Engineering & Management, Kolkata, India
Khampasith Thammathevo National University of Laos, Laos
Phouphavanh Khounpaserth National University of Laos, Laos
Vilakone Sandvilay National University of Laos, Laos
Souliphone Phommixay National University of Laos, Laos

DOI: https://doi.org/10.54783/ijsoc.v5i1.660

Keywords: Plastics, Residual Waste, Refuse Derived Fuel, Calorific Values.

Abstract

Refuse Derived Fuel (RDF) is excellent process to reuse the wastes from human activities or residual waste becomes renewable energy and also cut off the wastes volumes prior to transporting to landfill, it is an apart of supporting climate change mitigation due to waste generation and green house affect. This study is to focus on: 1. study on ratio of the waste material component to produce the RDF and, 2. testing and find out the RDF properties and calorific value of each material component. Therefore, according to the experiments found that, the mixtures of the plastics and dry leaves, plastics and papers, papers and dry leaves and plastics, papers and dry leaves indicated the calorific value are 14.91( ), 14.11( ), 15.02( ), 14.91( ) and 15.39 ( ), respectively.

References

Pinto, F., André, R.N. and Carolino, C. (2014). Gasification improvement of a poor quality solid recovered fuel (SRF), Effect of using natural minerals and biomass wastes blend, Fuel 117B, 1034–1044.

Alter, H. The history of refuse-derived fuels. Resour. Conserv. 1987, 15, 251–275.

Guo, Y.; Li, Y.; Lou, X.; Guan, J.; Li, Y.; Mai, X.; Liu, H.; Zhao, C.X.; Wang, N.; Yan, C.; et al. Improved extraction of cobalt and lithium by reductive acid from spent lithium-ion batteries via mechanical activation process. J. Mater. Sci. 2018, 53, 13790–13800.

Fyffe, J.R.; Breckel, A.C.; Townsend, A.K.; Webber, M.E. Use of MRF residue as alternative fuel in cement production. Waste Manag. 2016, 47, 276–284.

Georgiopoulou, M.; Lyberatos, G. Life cycle assessment of the use of alternative fuels in cement kilns: A case study. J. Environ. Manag. 2018, 216, 224–234.

Chatziaras, N.; Psomopoulos, C.S. and Themelis, N.J. (2016) "Use of waste derived fuels in cement industry: a review"Management of Environmental Quality, An International Journal, 27(2), 178-193

Garg, A., Smith, R., Hill, D., Simms, N., & Pollard, S. (2007). Wastes as Co-Fuels: The Policy Framework for Solid Recovered Fuel (SRF) in Europe, with UK Implications Environmental Sciente & teccnology, Vol. 41, pp. 4868–4874.

Pohl, M., Gebauer, K., & Beckmann, M. (2008). Characterisation of Refuse Derived Fuels in view of the Fuel Technical Properties. Infub -

th European Conference on Industrial Furnaces and Boilers VilaMoura-Algarve, Portugal, 25-28 March 2008.

Caputo, A.C.; Pelagagge, P.M. RDF production plants: I Design and costs. Appl. Therm. Eng.2002, 22, 423–437.

Hilber, T., Maier, J., Scheffknecht, G., Agraniotis, M., Grammelis, P., Kakaras, E., Torri, L. (2007). Advantages and Possibilities of Solid

Recovered Fuel Cocombustion in the European Energy Sector, Journal of the Air & Waste Management Association, 57, pp. 1178–1189.

Infiesta, L.R.; Ferreira, C.R.N.; Trovó, A.G.; Borges, V.L.; Carvalho, S.R. Design of an industrial solid waste processing line to produce refuse-derived fuel. J. Environ. Manag. 2019, 236, 715–719.

Tomasek, S.; Varga, Z.; Hancsók, J. Production of jet fuel from cracked fractions of waste polypropylene and polyethylene. Fuel Process. Technol. 2020, 197, 106197.

Galhano dos Santos, R. and Bordado, J.M. (2018). Design of simplified models for the estimation of higher heating value of refused derived fuels, 212, 431–436

Roknizadeh, J. and Nejati, V. (2014). Technical and economic review of using fuels from waste and worn tires in the Cement Industry of Iran, Iranian Journal of Energy, 17(1), 111-128.

Published

2023-03-17

How to Cite

Vilaychaleun, S., Siharath, P., Sonemanivong, C., Mallik, B. B., Thammathevo, K., Khounpaserth, P., Sandvilay, V., & Phommixay, S. (2023). The Calorific Value Experiment of Refuse Derived Fuel by Utilizing Residual Waste to Produce Energy. International Journal of Science and Society, 5(1), 346-352. https://doi.org/10.54783/ijsoc.v5i1.660

Download Citation

Issue

Vol 5 No 1 (2023): International Journal of Science and Society (IJSOC)

Section

Articles

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

Ownership of copyright

The copyright in this website and the material on this website (including without limitation the text, computer code, artwork, photographs, images, music, audio material, video material and audio-visual material on this website) is owned by IJSOC and its licensors.

IJSOC grants to you a worldwide non-exclusive royalty-free revocable license to:

- view this website and the material on this website on a computer or mobile device via a web browser;

- copy and store this website and the material on this website in your web browser cache memory; and

- print pages from this website for your use.

- All articles published by Academic Journals are licensed under the Creative Commons Attribution 4.0 International License. This permits anyone to copy, redistribute, remix, transmit and adapt the work provided the original work and source is appropriately cited.

IJSOC does not grant you any other rights in relation to this website or the material on this website. In other words, all other rights are reserved.

For the avoidance of doubt, you must not adapt, edit, change, transform, publish, republish, distribute, redistribute, broadcast, rebroadcast or show or play in public this website or the material on this website (in any form or media) without appropriately and conspicuously citing the original work and source or ACADEMIC JOURNALS prior written permission.

Permissions

You may request permission to use the copyright materials on this website by writing to compliance@ijsoc.goacademica.com.

Enforcement of copyright

IJSOC takes the protection of its copyright very seriously.

If IJSOC discovers that you have used its copyright materials in contravention of the license above, IJSOC may bring legal proceedings against you seeking monetary damages and an injunction to stop you using those materials. You could also be ordered to pay legal costs.

If you become aware of any use of IJSOC' copyright materials that contravenes or may contravene the license above, please report this by email to Compliance@ijsoc.goacademica.com.

Infringing material

If you become aware of any material on the website that you believe infringes your or any other person's copyright, please report this by email to Compliance@ijsoc.goacademica.com.