Microwave-assisted pyrolysis of Mediterranean forest biomass waste: Bioproduct characterization

Martín, Margarita; Sanz, Ana B.; Nozal, Leonor; Castro, F.; Alonso, Raúl M.; Martínez, Juan Luis; González, Sergio; Matia, M. P.; Novella, Jose Luis; Lorca, Manuel Peinado; Vaquero, Juan J.

doi:10.1016/j.jaap.2017.07.024

Cited by 41 publications

(21 citation statements)

References 51 publications

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“…Processes such as calcination (Gu et al 2018), hydrodistillation (Tavares et al 2020), lyophilization (Rubio et al 2020), anaerobic anaerobic digestion (Alrefai et al 2020), extraction (Akond and Lynam 2020), fermentation ( Coimbra et al 2021), enzymatic hydrolysis (Corchado-Lopo et al 2021), hydrothermal liquefaction (Cervi et al 2021), saccharification (Marques and Aguiar-Oliveira 2020), transesterification (Khounani et al 2021b) among others, they are difficult to implement due to the great procedural and technological complexity, which requires greater investment, especially in equipment and infrastructure, making it difficult to implement as a strategy for the use of waste in the Extreme South of Bahia. The simplest processes that facilitate implementation in the region are found in other bioproducts, such as soil corrective using orange peel and sugarcane bagasse (Debernardi-Vázquez et al 2020) for composting, biochar using pie castor bean (Silva et al 2021), sunflower seed (Casoni et al 2019), cherry kernel (Pollard and Goldfarb 2021), filter cake and sugarcane molasses (Bernardino et al 2018;, branches, stems, roots and leaves of trees (Martín et al 2017), oat husk (Srivastava et al 2020), baru endocarp/mesocarp (Rambo et al 2020a;Rambo et al 2020b), coffee and cocoa husks (Milian-Luprón et al 2020) obtained by pyrolysis and briquettes using tree branches, trunks, roots and leaves (Nunes et al 2019;Ponte et al 2019), husk from coconut (Nunes et al 2019) and sugarcane bagasse (Ponte et al 2019) through crushing and compaction.…”

Section: Culture Residue Bioproduct/bioinput and Process Referencementioning

confidence: 99%

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Bioproducts from agro-industrial plant residues: opportunities for sustainable reuse / Bioprodutos de resíduos agroindustriais vegetais: oportunidades ao reaproveitamento sustentável

Tessmann¹,

Tessmann²,

Lima³

et al. 2021

BJDV

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The expansion of agricultural production is increasingly accelerated, as a result of the greater need for food caused by population growth and, consequently, this growth results in the generation of greater amounts of waste. In general, the inspection of public environmental agencies and society demand from agribusinesses actions that increasingly seek the use of new environmental technologies for the destination of production residues, which can drastically reduce the impacts caused to the environment, in addition to add

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Section: Culture Residue Bioproduct/bioinput and Process Referencementioning

confidence: 99%

“…Barnabé et al 2019;Cervi et al 2021;Fini et al 2016;Gu et al 2018;Heinz et al 2017;Maciel et al 2020;Martín et al 2017;Ndukwe et al 2020;Nunes et al 2019;Oleson and Schwartz 2016;Ponte et al 2019;Rambo et al 2015;Sharma et al 2020;Srinivas et al 2016;Tavares et al 2020;Zhao et al 2019 …”

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Bioproducts from agro-industrial plant residues: opportunities for sustainable reuse / Bioprodutos de resíduos agroindustriais vegetais: oportunidades ao reaproveitamento sustentável

Tessmann¹,

Tessmann²,

Lima³

et al. 2021

BJDV

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“…The main component is acetic acid. Its composition depends on the pyrolysis process used, on the moisture content of the feedstock, and on the type of biomass used, although, differences in this last case are usually scarce [18][19][20][21][22].…”

Section: Introductionmentioning

confidence: 99%

Composition, Ageing and Herbicidal Properties of Wood Vinegar Obtained through Fast Biomass Pyrolysis

et al. 2020

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Lignocellulosic biomass pyrolysis could be an economically feasible option for forest management as it reduces the need to burn litter and helps in fire prevention thus avoiding the release of carbon dioxide and other greenhouse gases into the atmosphere. This study characterises wood vinegar (WV) obtained via a continuous fast pyrolysis process in terms of its composition, ageing and herbicidal properties. The aqueous WV fraction had a moisture content of 84% in weight and contained more than 200 compounds. Acetic acid, hydroxyacetaldehyde and hydroxyacetone were the major components. No significant differences were found in WV composition according to the starting material (poplar, pine, pruning litter, forest waste). No residual aromatic polycyclic compounds that could be harmful to the environment were detected. In a series of climate-controlled glass chamber experiments, the WV proved to be as effective an inhibitor of seed germination and seedling growth as a contact herbicide acting against weeds, especially through aerial contact. Sprayed WV concentrations of 50, 75 and 100 vol. % were effective against all plant species tested. This product could therefore be of commercial interest and help make biomass pyrolysis economically viable, once environmental exposure limits and the safe application for agricultural and urban use of this product have been established.

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“…A general study about the overall properties of bio-oils was produced by Martín et al [96]. The authors properly described the composition of bio-oils obtained from MAP of numerous Mediterranean biomasses through gas chromatography coupled with mass spectrometry (GC/MS) and by analyzing their rheological properties.…”

Section: Map Of Woody Biomassmentioning

confidence: 99%

A Review of Bio-Oil Production through Microwave-Assisted Pyrolysis

et al. 2021

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The issue of sustainability is a growing concern and has led to many environmentally friendly chemical productions through a great intensification of the use of biomass conversion processes. Thermal conversion of biomass is one of the most attractive tools currently used, and pyrolytic treatments represent the most flexible approach to biomass conversion. In this scenario, microwave-assisted pyrolysis could be a solid choice for the production of multi-chemical mixtures known as bio-oils. Bio-oils could represent a promising new source of high-value species ranging from bioactive chemicals to green solvents. In this review, we have summarized the most recent developments regarding bio-oil production through microwave-induced pyrolytic degradation of biomasses.

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Microwave-assisted pyrolysis of Mediterranean forest biomass waste: Bioproduct characterization

Cited by 41 publications

References 51 publications

Bioproducts from agro-industrial plant residues: opportunities for sustainable reuse / Bioprodutos de resíduos agroindustriais vegetais: oportunidades ao reaproveitamento sustentável

Bioproducts from agro-industrial plant residues: opportunities for sustainable reuse / Bioprodutos de resíduos agroindustriais vegetais: oportunidades ao reaproveitamento sustentável

Composition, Ageing and Herbicidal Properties of Wood Vinegar Obtained through Fast Biomass Pyrolysis

A Review of Bio-Oil Production through Microwave-Assisted Pyrolysis

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