2015
DOI: 10.11113/jt.v72.3948
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A Review on the Application of Bio-oil as an Additive for Asphalt

Abstract: Raising the prices of crude petroleum is affected to good performance for the asphalt paving and has encouraged to modify or replace asphalt bitumen. Increasing numbers of commercial vehicles and increase axle load that this trend will continue yearly. Design, construction and maintenance facilitate asphalt roads to provide the high standards of safety and comfortable but certain areas of a road are higher stressed than others. For that reason road paving industry is interested in utilizing alternative and sus… Show more

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Cited by 20 publications
(14 citation statements)
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“…Recently, different types of organic oils have been tested as recycling agents to restore the viscosity and elasticity of aged asphalt (Zhang et al, 2017). For instance, recycled cooking oil is a good candidate for improving the low-temperature grade (Qurashi and Swamy, 2018;Raman et al, 2015;Sun et al, 2017). In another research, polyethylene terephthalate (PET) derived products have been seen as a performance-enhancing additive for asphalt (Leng et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…Recently, different types of organic oils have been tested as recycling agents to restore the viscosity and elasticity of aged asphalt (Zhang et al, 2017). For instance, recycled cooking oil is a good candidate for improving the low-temperature grade (Qurashi and Swamy, 2018;Raman et al, 2015;Sun et al, 2017). In another research, polyethylene terephthalate (PET) derived products have been seen as a performance-enhancing additive for asphalt (Leng et al, 2018).…”
Section: Introductionmentioning
confidence: 99%
“…The adoption of alternative binder materials offers sustainability in terms of the material's life cycle environmental impact. Bio-oils are renewable energy sources obtained from the conversion of biomasses (agricultural and other organic wastes), that can be incorporated into bituminous blends as a modifier in producing bioasphalt (Raman et al, 2015).…”
Section: Bio-oilsmentioning
confidence: 99%
“…Among the numerous techniques, pyrolysis remains the most adopted, due to its operational simplicity. Pyrolysis, conducted in the absence of oxygen, converts biomass into three distinct products: a condensable liquid (bio-oil), charcoal, and a gaseous blend (syngas) (Raman et al, 2015). Bio-oils, with densities around 1200 g per litre at 15 C and energy content of up to 18 MJ per kilogram are normally the target product of the pyrolysis process.…”
Section: Bio-oilsmentioning
confidence: 99%
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“…already today efficient at small scales and are run by small landholders (Schmidt et al 2017); thus PyCCS allows implementation and associated income gain at small-scale or even subsistence farming level (Solomon et al 2016). Furthermore, particularly the advanced PyCCS approach offers economic incentives by material-use pathways (table 1), ranging from building and composite materials (Gupta and Kua 2017), road construction (Raman et al 2015), chemical industry (Crombie and Masek 2014) to electronics (Gu et al 2015). Every material-use pathway will serve carbon sequestration, as long as the products are not burnt or otherwise decomposed.…”
Section: Required Conversion Of Natural Vegetation For Biomass Plantamentioning
confidence: 99%