Characterization and Analysis of Malaysian Macroalgae Biomass as Potential Feedstock for Bio-Oil Production
Copyright policy )Characterization and Analysis of Malaysian Macroalgae Biomass as Potential Feedstock for Bio-Oil Production
The potential of Caulerpa lentillifera, Gracilaria coronopifolia and Chaetomorpha linum, as biomass feedstock was investigated in this study. It was concluded that seaweed is more suitable for bio-based products synthesis, i.e., bioplastic and bio-lubricants, instead of biofuels due to its relatively low calorific value (~12 MJ/kg). Since seaweed has high moisture content (~80%), hydrothermal liquefaction is recommended, and its efficiency can be further enhanced through microwave technology. Besides, it is found that the thermal degradation of seaweed was best described with the reaction order of 1. The kinetic results also indicated that seaweed consists of lower activation energy (<30 kJ/mol) in comparison with terrestrial biomass (50–170 kJ/mol). Hence, seaweed has a high potential to be used as biomass feedstock, particularly Chaetomorpha linum, as it has no conflict with other interests. Lastly, acetic-acid pre-treatment was suggested to be an optional process in order to increase the algal conversion efficiency as it can reduce up to 25% of ash content.
- Universiti Tenaga Nasional Malaysia
- Universiti Tenaga Nasional Malaysia
- University of Nottingham Malaysia Campus Malaysia
- University of Nottingham Malaysia Campus Malaysia
Biomass (ecology), Technology, Pulp and paper industry, <i>Gracilaria coronopifolia</i>, Technical Aspects of Biodiesel Production, Biomedical Engineering, Bio-oil, Combustion, Organic chemistry, FOS: Medical engineering, Environmental science, Engineering, Biofuel, calorific value, Bioenergy, <i>Caulerpa lentillifera</i>; <i>Gracilaria coronopifolia</i>; <i>Chaetomorpha linum</i>; kinetic analysis; calorific value, <i>Chaetomorpha linum</i>, Waste management, Biology, T, Biomass Pyrolysis and Conversion Technologies, Raw material, Agronomy, <i>Caulerpa lentillifera</i>, Bioplastic, Chemistry, Heat of combustion, Physical Sciences, kinetic analysis, Catalytic Valorization of Lignin for Renewable Chemicals, Hydrothermal liquefaction, Biotechnology
Biomass (ecology), Technology, Pulp and paper industry, <i>Gracilaria coronopifolia</i>, Technical Aspects of Biodiesel Production, Biomedical Engineering, Bio-oil, Combustion, Organic chemistry, FOS: Medical engineering, Environmental science, Engineering, Biofuel, calorific value, Bioenergy, <i>Caulerpa lentillifera</i>; <i>Gracilaria coronopifolia</i>; <i>Chaetomorpha linum</i>; kinetic analysis; calorific value, <i>Chaetomorpha linum</i>, Waste management, Biology, T, Biomass Pyrolysis and Conversion Technologies, Raw material, Agronomy, <i>Caulerpa lentillifera</i>, Bioplastic, Chemistry, Heat of combustion, Physical Sciences, kinetic analysis, Catalytic Valorization of Lignin for Renewable Chemicals, Hydrothermal liquefaction, Biotechnology
citations This is an alternative to the "Influence" indicator, which also reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).17 popularity This indicator reflects the "current" impact/attention (the "hype") of an article in the research community at large, based on the underlying citation network.Top 10% influence This indicator reflects the overall/total impact of an article in the research community at large, based on the underlying citation network (diachronically).Average impulse This indicator reflects the initial momentum of an article directly after its publication, based on the underlying citation network.Top 10%
Citations provided by BIP!Popularity provided by BIP!