Materials, fuels, upgrading, economy, and life cycle assessment of the pyrolysis of algal and lignocellulosic biomass: a review

Osman, Ahmed I.; Farghali, Mohamed; Ihara, Ikko; Elgarahy, Ahmed M.; Ayyad, Amir; Mehta, Neha; Ng, Kim Hoong; El-Monaem, Eman M. Abd; Eltaweil, Abdelazeem S.; Hosny, Mohamed; Hamed, Seham M.; Fawzy, Samer; Yap, Pow‐Seng; Rooney, David

doi:10.1007/s10311-023-01573-7

Cited by 50 publications

(18 citation statements)

References 343 publications

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“…Biomass boilers have the potential to promote energy independence, lower heating costs, and reduce greenhouse gas emissions (Osman et al 2023 ). Stephen et al ( 2016 ) noted that decentralized wood pellet boilers were successfully implemented in the Bella Coola hamlet, offering economic benefits compared to conventional diesel combustion systems.…”

Section: Green Solutions For Home Heatingmentioning

confidence: 99%

Strategies to save energy in the context of the energy crisis: a review

et al. 2023

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New technologies, systems, societal organization and policies for energy saving are urgently needed in the context of accelerated climate change, the Ukraine conflict and the past coronavirus disease 2019 pandemic. For instance, concerns about market and policy responses that could lead to new lock-ins, such as investing in liquefied natural gas infrastructure and using all available fossil fuels to compensate for Russian gas supply cuts, may hinder decarbonization efforts. Here we review energy-saving solutions with a focus on the actual energy crisis, green alternatives to fossil fuel heating, energy saving in buildings and transportation, artificial intelligence for sustainable energy, and implications for the environment and society. Green alternatives include biomass boilers and stoves, hybrid heat pumps, geothermal heating, solar thermal systems, solar photovoltaics systems into electric boilers, compressed natural gas and hydrogen. We also detail case studies in Germany which is planning a 100% renewable energy switch by 2050 and developing the storage of compressed air in China, with emphasis on technical and economic aspects. The global energy consumption in 2020 was 30.01% for the industry, 26.18% for transport, and 22.08% for residential sectors. 10–40% of energy consumption can be reduced using renewable energy sources, passive design strategies, smart grid analytics, energy-efficient building systems, and intelligent energy monitoring. Electric vehicles offer the highest cost-per-kilometer reduction of 75% and the lowest energy loss of 33%, yet battery-related issues, cost, and weight are challenging. 5–30% of energy can be saved using automated and networked vehicles. Artificial intelligence shows a huge potential in energy saving by improving weather forecasting and machine maintenance and enabling connectivity across homes, workplaces, and transportation. For instance, 18.97–42.60% of energy consumption can be reduced in buildings through deep neural networking. In the electricity sector, artificial intelligence can automate power generation, distribution, and transmission operations, balance the grid without human intervention, enable lightning-speed trading and arbitrage decisions at scale, and eliminate the need for manual adjustments by end-users.

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Section: Green Solutions For Home Heatingmentioning

confidence: 99%

Strategies to save energy in the context of the energy crisis: a review

et al. 2023

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“…Among all these methods, transesterification is the most common, easily controllable, and very efficient process of biodiesel production since in this reaction triglycerides react with alcohol in the presence of a catalyst to produce fatty acid methyl esters (FAMEs) and glycerol. − Several raw materials, such as microorganisms and genetically modified microorganisms, waste oils, algae oils, vegetable oils, and animal fats, can be used as feedstock in biodiesel production with different treatment methods. , Nevertheless, the high cost of production and the process step limitations, such as saponification and the inability to regenerate the catalyst, are challenges that need to be faced by the biodiesel field . In this regard, heterogeneous catalysts have been extensively investigated as a suitable alternative catalyst for those reactions since these materials present great advantages, such as recyclability, easily separated, which reduces the cost and process time, non-corrosiveness, high selectivity with longer catalyst life, and are environmentally friendly. − Recently, circular economy and lifecycle assessment for engineering heterogeneous catalyst syntheses toward using cheap and waste feedstocks have been widely studied for sustainable biodiesel production. − …”

Section: Introductionmentioning

confidence: 99%

Carbon Nitride-Based Nanomaterials as a Sustainable Catalyst for Biodiesel Production

Silva

Rios

Savateev

et al. 2023

ACS Appl. Nano Mater.

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In this work, we investigated a series of carbon nitride-based nanomaterials (CNs), i.e., H-PHI, mpg-C3N4, PCN, Na-PHI, Mg-PHI, CN-OA-m, and LiK-PHI, as candidate catalysts for biodiesel synthesis. The heterogeneous catalyst design based on CNs, with tunable catalytic sites and inexpensive syntheses, can allow biodiesel production to become a more sustainable process, helping to meet future energy demands. Transesterification of canola oil with methanol using LiK-PHI as a catalyst, under the optimized conditions, displayed the best performance for biodiesel production with 94% of yield and catalyst loading of 1.6 wt %. The outstanding performance exhibited by LiK-PHI is owed to this sample presenting the highest concentrations of basic sites, among the CN materials tested, directly correlated with the alkali metal content. This is an important information to understand the very nature of these basic active sites, which were exploited in this work to boost the catalyst efficiency among the best in the field. Moreover, the biodiesel produced under the best conditions, using LiK-PHI, was verified in relation to the number of esters and glycerides in this product. All values are within the values previously established by legislation, 97.6% ± 0.1 and 0.20%, respectively, which indicates the high quality of biodiesel produced.

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“…Every year, 100 billion tons of biomass resources is produced 7 . The amount of agricultural residue produced is not tracked systematically, and the amounts stated are estimated depending on the yield of the crop harvested.…”

Section: Introductionmentioning

confidence: 99%

“…6 Every year, 100 billion tons of biomass resources are produced. 7 The amount of agricultural residue produced is not tracked systematically, and the amounts stated are estimated depending on the yield of the crop harvested. The waste residue is frequently carried to dump sites to decompose and/or be burned aer harvesting.…”

Section: Introductionmentioning

confidence: 99%