A REVIEW ON APPLICATION OF WASTE COOKING OIL AS REJUVENATOR IN POROUS ASPHALT MIXTURE
DOI:
https://doi.org/10.11113/jt.v78.8005Keywords:
Porous asphalt pavement, aging process, rejuvenation, waste cooking oil (WCO)Abstract
Aging process of bitumen is one of the main obstacles, which limit the implementation of porous pavement. An aging process would cause a shorter service life of porous asphalt compared to the conventional hot mix asphalt mixture. The tendency rate of aging processes in porous asphalt is high due to the exposure of bitumen and aggregates binding in an open-graded structure that maximizes oxidation process to occur thus producing aged binder. In this respect to restore the original characteristics of pavement from aged bitumen, rejuvenation of bitumen binder offers an effective option. From the previous research, the performance of waste cooking oil (WCO) is investigated and indicated as one of rejuvenator agents for bitumen regeneration. Thus, this paper reviewed the novelty of the WCO, as an alternative natural rejuvenating agent for aged bitumen to a condition that resembles the original bitumen in the asphalt mixture.
References
Abustan, I. 2012. Review of Permeable Pavements System in Malaysia Conditions. OIDA International Journal of Sustainable Development. 04(02): 27-36.
Astebol, S. O., Hvitvet, J. T. and Simonsena, A. 2004. Sustainable Storm Water Management at Fornebu-From an Airport to an Industrial and Residential Area of the City of Oslo, Norway. Science of the Total Environment. 334-335(Special Issues): 23949.
Sasana, P. and Ismanto, B. S. 2003. The Influence of Using Local Materials on Quality of Porous Asphalt in Indonesia. Proceedings of the Eastern Asia Society for Transportation Studies. 4.
Hoban, T. W. S., Liversedge, F. and Searby, R. 1985. Recent Developments in Pervious Macadam Surfaces. Proc. 3rd Eurobitumen Symp. 635-640.
Yu, J. Y., Feng, P.C., Zhang, H. L. and Wu, S. P. 2009. Effect of Organo-Montmorillonite on Aging Properties of Asphalt. Construction and Building Materials. 23: 2636–2640.
Juyal, P., Merino-Garcia, D. and Andersen, S. I. 2005. Effect on Molecular Interactions of Chemical Alteration of Petroleum Asphaltenes. Energy Fuel. 19: 1272–1281.
Masson, J.F. and Gagne, M. 2008. Polyphosphoric Acid (PPA)-Modified Bitumen: Disruption Of The Asphaltenes Network Based On The Reaction Of Nonbasic Nitrogen with PPA. Energy Fuel. 22: 3402–3406.
Moa, L. T., Huurman, M., Woldekidan, M. F., Wub, S. P. and Molenaar, A. A. A. 2010. Investigation into Material Optimization and Development for Improved Ravelling Resistant Porous Asphalt Concrete. Materials and Design. 31: 3194–3206
Daines, M. E. 1992. Trials of Porous Asphalt and Rolled Asphalt on the A38 at Burton. Department of transport TRRL Report RR323, Transport and Road Research Laboratory, Crowthorne.
Cooley, L. A., Brumfield, J. W., Mallick, R. B., Mogawer, W. S., Partl, M. and Poulikakos, L. 2009. Construction and Maintenance Practices for Permeable Friction Courses. Report Number 640. National Cooperative Highway Research Program. Washington D.C.
Kandhal, P. 2002. Design, Construction and Maintenance of Open-Graded Asphalt Friction Courses. Information Series 115. National Asphalt Pavement Association. Lanham, MD.
Alvarez, A. E., Epps, M. A., Estakhri, C. and Izzo, R. 2010. Evaluation of Durability Tests for Permeable Friction Course Mixtures. International Journal Pavement Engineering. 11(1): 49–60.
Kandhal, P. and Mallick, R. 1998. Open-graded Friction Course: State Of The Practice. Report Number E-C005. Transportation Research Circular.
GarcÃaa, Ã., Schlangen, E., Ven, M. and Sierra-Beltrána, G. 2010. Preparation of Capsules Containing Rejuvenators for Their Use in Asphalt Concrete. Journal of Hazard Materials. 184: 603–11.
Lu, X. H. and Isacsson, U. 1998. Chemical and Rheological Evaluation of Ageing Properties Of SBS Polymer Modified Bitumens. Fuel. 77(9–10): 961–72.
Branthaver, J. F. J. C., Petersen, R. E., Robertson, J. J., Duvall, S. S., Kim, P. M., Harnsberger, T., Mill, E.K., Ensley, F.A., Barbour, J.F. and Schabron. 1993. Binder Characterization and Evaluation. Chemistry, Volume 2, SHRP-A-368, National Research Council, Washington, D.C.
Hunter, R.N. 1997. Bituminous Mixtures in Road Construction. Thomas Telford, London.
Leseur, D. 2009. The Colloidal Structure of Bitumen: Consequences on the Rheology and On the Mechanisms of Bitumen Modification. Advances in Colloid and Interface Science. 145(1–2): 42–82.
Zhang, F., Yu, J. and Hanun, J. 2011. Effects of Thermal Oxidative Ageing on Dynamic Viscosity. TG/DTG, DTA and FTIR of SBS- and SBS/Sulfur Modified Asphalts. Construction and Building Materials. 25(1): 129–137.
Asphalt Institute 2013. Asphalt Pavement Distress Summary www.asphaltinstitute.org.
Shen, J, Amirkhanian, S. and Miller, J. A. 2007. Effects of Rejuvenating Agents On Superpave Mixtures Containing Reclaimed Asphalt Pavement. Journal of Materials in Civil Engineering. 19(5): 376–384.
Peterson, G. D., Davison, R.R., Glover, C. J. and Bulin, J. A. 1994. Effect of Composition on Asphalt Recycling Agent Performance. Transportation Research Record. 1436: 38–46.
Silva, H., Oliveira, J. and Jesus, C. 2012. Are Totally Recycled Hot Mix Asphalts A Sustainable Alternative For Road Paving?. Resources, Conservation and Recycling. 60: 38–48.
Su, J. and Schlangen, E. 2012. Synthesis and Physicochemical Properties Of High Compact Microcapsules Containing Rejuvenator Applied In Asphalt. Chemical Engineering Journal. 198–199: 289–300.
Doh, Y., Amirkhanian, S. and Kim, K. 2008. Analysis of Unbalanced Binder Oxidation Level in Recycled Asphalt Mixture Using GPC. Construction and Building Materials. 22:1253–60.
Huang, Y., Bird, R. and Heidrich, O. 2007. A Review of the Use of Recycled Solid Waste Materials in Asphalt Pavements. Resources, Conservation and Recycling. 52: 58–73.
Aravind, K. and Das, A. 2007. Pavement Design with Central Plant Hot-Mix Recycled Asphalt Mixes. Construction and Building Materials. 21: 928–36.
Miliutenko, S., Björklund, A. and Carlsson, A. 2013. Opportunities for Environmentally Improved Asphalt Recycling: The Example of Sweden. Journal Clean Production. 43: 156–65.
Shu, X., Huang, B. and Vukosavljevic, D. 2008. Laboratory Evaluation of Fatigue Characteristics of Recycled Asphalt Mixture. Construction and Building Materials. 22: 1323–30.
Boyer, R. E. 2000. Asphalt Rejuvenators: Fact or Fable. In Transportation System 2000 (TS2K) Workshop, San Antonio Texas
Karlsson, R. and Isacsson, U. 2006. Material-Related Aspects of Asphalt Recycling-State of the Art. Journal Materials in Civil Engineering. 18(1): 81-92.
Singhabhandhu, A. and Tezuka, T. 2010. The Waste-To-Energy Framework For Integrated Multi-Waste Utilization: Waste Cooking Oil, Waste Lubricating Oil, And Waste Plastics Energy. Energy. 35(6): 2544–2551.
Zhang, H., Wang, Q. and Mortimer, S.R. 2012. Waste Cooking Oil As An Energy Resource: Review Of Chinese Policies. Renewable and Sustainable Energy Reviews. 16(7): 5225–5231
Asphaltrejuvenation (US Patent) US20100034586A1, http://www.faqs.org/patents/app/20100034586.
Özbay, N., Oktar, N. and Tapan, N.A. 2008. Etherification of Free Fatty Acids in Waste Cooking Oils (WCO): Role of Ion-Exchange Resins. Fuel. 87(10-11): 1789-1798.
Kuang, D.L., Yu, J.Y., Cai, Z.W. and Song, X.D. 2011. Effect of Rejuvenator on Properties of Aged Bitumen of Different Aging Degree. Highway (in Chinese). 5: l53-157.
Guern, M. L., Chailleux, E., Farcas, F., Dreesen, S. and Maibille, I. 2010. Physico-Chemical Analysis of Five Hard Bitumens: Identification of Chemical Species and Molecular Organization Before and After Artificial Aging. Fuel. 89: 3330–3339.
Asli, H. and Karim, M.R. 2010. Effect of Waste Cooking Oil as a Rejuvenating Agent for Aged Bituminous Pavement. The 8th International Conference on Geotechnical Ad Transportation Engineering, Malaysia.
Hallizza, A., Esmaeil, A., Majid, Z. and Mohamed, R.K. 2012. Investigation on Physical Properties of Waste Cooking Oil–Rejuvenated Bitumen Binder. Construction and Building Materials. 37: 398-405.
Majid, Z., Esmaeil, A., Hallizza, A. and Mohamed, R.K. 2012. Investigation of the Possibility of Using Waste Cooking Oil as a Rejuvenating Agent for Aged Bitumen. Journal of Hazardous Materials. 233-234: 254-258.
Chiu, C.T. and Lee, M.G. 2006. Effectiveness of Seal Rejuvenators for Bituminous Pavement Surfaces. Journal of Testing and Evaluation. 34: 390–394.
GarcÃa, A., Schlangena, E. and Van de Ven, M. 2011. Properties of Capsules Containing Rejuvenators for Their Use in Asphalt Concrete. Fuel. 90: 583–591
Downloads
Published
Issue
Section
License
Copyright of articles that appear in Jurnal Teknologi belongs exclusively to Penerbit Universiti Teknologi Malaysia (Penerbit UTM Press). This copyright covers the rights to reproduce the article, including reprints, electronic reproductions, or any other reproductions of similar nature.
