State of the art of vegetable oil transformation into biofuels using catalytic cracking technology: Recent trends and future perspectives

SZ Naji, CT Tye, AA Abd - Process Biochemistry, 2021 - Elsevier
Bioenergy generated from vegetable oils is an interesting alternative energy source to fossil
fuel in terms of reducing carbon footprint and realizing circular economy. Among many …

Composite Liquid Biofuels for Power Plants and Engines

G Kuznetsov, V Dorokhov, K Vershinina… - Energies, 2023 - mdpi.com
The problems of environmental pollution caused by the operation of power plants and
engines motivate researchers to develop new biofuels. The environmental aspect of …

Preparation of cancrinite-type zeolite from diatomaceous earth as transesterification catalysts for biodiesel production

TH Đặng, XH Nguyễn, CL Chou, BH Chen - Renewable Energy, 2021 - Elsevier
A new type of solid catalyst prepared from hydrothermal reaction of natural diatomaceous
earth in NaOH solution was studied for biodiesel production through the transesterification of …

Trash into treasure: Nano ZSM-5 catalyst for cracking waste cooking oil to bio-gasoline with enhanced selectivity

S Wang, X Jiang, G Nie, Z Wang, H Yu, Y Liu… - Fuel Processing …, 2023 - Elsevier
ZSM-5 is considered a suitable fluid catalytic cracking (FCC) catalyst to convert waste
cooking oil into bio-gasoline. However, the obvious drawbacks for ZSM-5 are mass transfer …

Enhanced production of liquid fuel via catalytic cracking of used sunflower oil catalyzed by Praseodymium supported alumina

BAA Balboul, AA Abdelrahman, HM Salem… - Journal of Molecular …, 2022 - Elsevier
The production of alternative fuel from the cracking process (CP) of waste cooking oil (WCO)
is considered an efficient way to displace the used fossil fuel. The catalytic cracking process …

Opportunities for utilizing waste cooking oil in crude to petrochemical process: Novel process design, optimal strategy, techno-economic analysis and life cycle society …

X Zhou, H Yan, Z Sun, X Feng, H Zhao, Y Liu, X Chen… - Energy, 2021 - Elsevier
The efficient utilization of waste cooking oil (WCO) in petrochemical and high-quality
gasoline production could reduce food safety issues and boost the new energy industry's …

[HTML][HTML] Pyrolytic conversion of waste edible oil into biofuel using sulphonated modified alumina

AA Altalhi, SM Morsy, MTH Abou Kana… - Alexandria Engineering …, 2022 - Elsevier
Bioenergy generated from vegetable oils is an interesting alternative energy source to fossil
fuel in terms of reducing carbon footprint and realizing a circular economy. The catalytic …

Coprocessing of waste cooking oil and fatty acid model compounds with VGO in a pilot-scale FCC riser

Y Zhao, X Guo, Y Fang - Fuel, 2024 - Elsevier
Herein, the effects of reaction temperature, Catalyst to Oil ratio, reaction residence time,
waste cooking oil (WCO) mixing ratio, WCO feed position, and the addition of a ZSM-5 …

[HTML][HTML] Enhanced regeneration of spent FCC catalyst by using oxalic acid-sulfuric acid mixture under ultrasonic irradiation

T Wang, T Le, AV Ravindra, H Jue, L Zhang… - Journal of Materials …, 2021 - Elsevier
An effective method comprising the immersion in dilute sulfuric acid and the leaching in a
mixture of sulfuric acid and oxalic acid under ultrasonic irradiation is provided to improve the …

Transformation of 1-G and 2-G liquid biomass to green fuels using hydroprocessing technology: A promising technology for biorefinery development

M Aslam - Biomass and Bioenergy, 2022 - Elsevier
Liquid biomass, a valuable renewable resource with high energy density can be processed
into green fuels that are similar to petroleum fuels using hydroprocessing technology …