Three Pillars of Advanced Biofuels’ Sustainability

Mizik, Tamás; Gyarmati, Gábor

doi:10.3390/fuels3040037

Cited by 9 publications

(5 citation statements)

References 61 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Currently, new technology should be designed for process improvements that are more efficient and cost effective [43].…”

Section: Advanced Biofuelsmentioning

confidence: 99%

Biofuels Production: A Review on Sustainable Alternatives to Traditional Fuels and Energy Sources

Malik,

Capareda,

Kamboj

et al. 2024

Fuels

View full text Add to dashboard Cite

With increased worldwide energy demand and carbon dioxide emissions from the use of fossil fuels, severe problems are being experienced in modern times. Energy is one of the most important resources for humankind, and its needs have been drastically increasing due to energy consumption, the rapid depletion of fossil fuels, and environmental crises. Therefore, it is important to identify and search for an alternative to fossil fuels that provides energy in a reliable, constant, and sustainable way that could use available energy sources efficiently for alternative renewable sources of fuel that are clean, non-toxic, and eco-friendly. In this way, there is a dire need to develop technologies for biofuel production with a focus on economic feasibility, sustainability, and renewability. Several technologies, such as biological and thermochemical approaches, are derived from abundant renewable biological sources, such as biomass and agricultural waste, using advanced conversion technologies for biofuel production. Biofuels are non-toxic, biodegradable, and recognized as an important sustainable greener energy source to conventional fossil fuels with lower carbon emissions, combat air pollution, empower rural communities, and increase economic growth and energy supply. The purpose of this review is to explain the basic aspects of biofuels and their sustainability criteria, with a particular focus on conversion technologies for biofuel production, challenges, and future perspectives.

show abstract

“…Currently, new technology should be designed for process improvements that are more efficient and cost effective [43].…”

Section: Advanced Biofuelsmentioning

confidence: 99%

Biofuels Production: A Review on Sustainable Alternatives to Traditional Fuels and Energy Sources

Malik,

Capareda,

Kamboj

et al. 2024

Fuels

View full text Add to dashboard Cite

show abstract

“…For this reason, in the fleet of diesel engines, there is currently a great delay in the process of replacing fossil fuels with biodiesel compared to gasoline engines operated with bioethanol as a biofuel. For this reason, in recent years, research has aimed to find a means of transforming SVO into biofuels in a technically and economically viable way [16]. At present, the most appropriate process is to obtain the so-called advanced biofuel, or "green diesel", that can be attained via the application of several catalytic processes (cracking or pyrolysis, hydrodeoxygenation, and hydrotreating) to the triglycerides, producing renewable diesel fuels that are very close to fossil fuels.…”

Section: Introductionmentioning

confidence: 99%

Study on the Performance and Emissions of Triple Blends of Diesel/Waste Plastic Oil/Vegetable Oil in a Diesel Engine: Advancing Eco-Friendly Solutions

Estevez,

Aguado-Deblas,

López-Tenllado

et al. 2024

Energies

View full text Add to dashboard Cite

To provide technical and economical solutions regarding management of plastic waste, which is constantly increasing worldwide, this study addresses the possibility of using plastic oils (PO) obtained from these plastic wastes as biofuels. To this end, the replacement of the fossil diesel employed in internal combustion diesel engines with triple diesel/PO/vegetable oil mixtures has been investigated. Sunflower (SO) and castor oil (CO) mixed with PO in the most appropriate proportion are evaluated as pure vegetable oils (SVO). Thus, diesel/PO/SVO triple blends were prepared, characterized, and then tested on a diesel engine operating as electricity generator, evaluating power output, consumption, and exhaust emissions. The obtained results show that, with the incorporation of relatively small quantities of pure, non-edible vegetable oils, in double mixtures of PO/SO and PO/CO, an effective alternative fuel for transport is obtained, that allows for 100% of fossil diesel to be replaced. In fact, with these double PO/SVO biofuel mixtures, higher engine power values and lower consumption levels are obtained than those achieved with fossil diesel. Regarding exhaust emissions, these are produced with a slightly greater opacity than with fossil diesel, but there are lower values of carbon gases as a whole (CO + CO2) and in NOx gases.

show abstract

“…The advanced biofuels of second and third generation must comply with sustainability criteria from a wide array of different feedstock, ranging from lignocellulosic to microorganism biomass feedstocks, including municipal solid waste: biomass fraction of mixed municipal waste, industrial waste and biowaste from selected private households without competing with food and land supplies (Mizik and Gyarmati, 2022). On the other hand, non-edible sources of biomass, such as food waste from municipal solid waste, are important feedstocks in the production of advanced transportation fuels, as described by European Technology and Innovation Platform (ETIP Bioenergy).…”

Section: Introductionmentioning

confidence: 99%

“…Nevertheless, the valorisation of food waste has only focused on using the by-products obtained from some agricultural practices, e.g. landfill, animal feed, fertilizer supply, composting, incineration and anaerobic digestion (AD) (Mizik and Gyarmati, 2022). The recovery capacity, and its effectiveness in creating value in scaling the production from food waste, remain quite limited on a commercial level.…”

Section: Introductionmentioning

confidence: 99%

“…In this respect, designing systems for the production of multiple products would boost process competitiveness by lowering manufacturing costs further and assuring a more efficient utilisation of raw materials (Bhatia et al, 2023). Scientific studies have demonstrated that it is possible to generate a wide variety of bioenergy from biomass residues and waste, but also that its cost is not competitive to that of petro-fuels and other kinds of renewable energy (Bhatia et al, 2023;Mizik and Gyarmati, 2022;O'Connor et al, 2021). On-going efforts continue to be made extensively to improve conversion technologies and thereby reduce production costs (Lee et al, 2019).…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Producing Upgradeable Bio-Oil from Food Bio-Waste Via Hybrid-Assisted Pretreatment Coupled with Catalytic Hydrotreatment

Dhakal,

Olsson Månsson,

Achour

2023

Preprint

View full text Add to dashboard Cite

Three Pillars of Advanced Biofuels’ Sustainability

Cited by 9 publications

References 61 publications

Biofuels Production: A Review on Sustainable Alternatives to Traditional Fuels and Energy Sources

Biofuels Production: A Review on Sustainable Alternatives to Traditional Fuels and Energy Sources

Study on the Performance and Emissions of Triple Blends of Diesel/Waste Plastic Oil/Vegetable Oil in a Diesel Engine: Advancing Eco-Friendly Solutions

Producing Upgradeable Bio-Oil from Food Bio-Waste Via Hybrid-Assisted Pretreatment Coupled with Catalytic Hydrotreatment

Contact Info

Product

Resources

About