Olive-derived biomass as a source of energy and chemicals

被引：78

作者：

Ruiz E. ^{[1
]}

Romero-García J.M. ^{[1
]}

Romero I. ^{[1
]}

Manzanares P. ^{[2
]}

Negro M.J. ^{[2
]}

Castro E. ^{[3
]}

机构：

[1] Department of Chemical, Environmental and Materials Engineering, Center for Advanced Studies in Energy and Environment, Universidad de Jaén

[2] Biofuels Unit, Energy Department-CIEMAT, Madrid

[3] Department of Chemical, Environmental and Materials Engineering, Universidad de Jaén

来源：

Castro, Eulogio (ecastro@ujaen.es) | 1600年 / John Wiley and Sons Ltd卷 / 11期

关键词：

bioproducts; biorefinery; olive oil; olive residues; waste valorization;

D O I：

10.1002/bbb.1812

中图分类号：

学科分类号：

摘要：

Olive trees are cultivated in more than 40 countries worldwide over more than 10 million hectares. In addition to olive oil, a large amount of biomass is produced annually. All this biomass must be adequately handled and disposed of. Conventional disposal methods include direct burning or spreading in fields, but this has economical costs and environmental concerns, as well as wasting a source of energy and chemicals. This review summarizes the most recent proposals for the use of biomass derived from olive tree cultivation and olive oil production processes. Biomass produced from pruning, leaves, olive stones and pomace, extracted olive pomace, and olive waste water are considered, and the main options for processing are reviewed according to recent advances in the literature. The biorefinery concept applied to olive-derived biomass is also presented and representative works are discussed. © 2017 Society of Chemical Industry and John Wiley & Sons, Ltd. © 2017 Society of Chemical Industry and John Wiley & Sons, Ltd

引用

页码：1077 / 1094

页数：17

共 83 条

[21] Fernandez-Rodriguez J., Erdocia X., Sanchez C., Gonzalez Alriols M., Labidi J., Lignin depolymerization for phenolic monomers production by sustainable processes, J Energy Chem, 26, pp. 622-631, (2016)
[22] Silva-Fernandes T., Duarte L.C., Carvalheiro F., Marques S., Loureiro-Dias M.C., Fonseca C., Et al., Biorefining strategy for maximal monosaccharide recovery from three different feedstocks: eucalyptus residues, wheat straw and olive tree pruning, Bioresource Technol, 183, pp. 203-212, (2015)
[23] Negro M.J., Alvarez C., Ballesteros I., Romero I., Ballesteros M., Castro E., Et al., Ethanol production from glucose and xylose obtained from steam exploded water-extracted olive tree pruning using phosphoric acid as catalyst, Bioresource Technol, 153, pp. 101-107, (2014)
[24] Negro M.J., Duque A., Manzanares P., Saez F., Oliva J.M., Ballesteros I., Et al., Alkaline twin-screw extrusion fractionation of olive-tree pruning biomass, Ind Crops Prod, 74, pp. 336-341, (2015)
[25] Diaz-Villanueva M.J., Cara-Corpas C., Ruiz-Ramos E., Romero-Pulido I., Castro-Galiano E., Olive tree pruning as an agricultural residue for ethanol production. Fermentation of hydrolysates from dilute acid pretreatment, Spanish Journal of Agricultural Research, 10, pp. 643-648, (2012)
[26] Martinez-Patino J., Romero I., Ruiz E., Cara C., Romero-Garcia J., Castro E., Design and Optimization of Sulfuric Acid Pretreatment of Extracted Olive Tree Biomass Using Response Surface Methodology, BioResources, 12, pp. 1179-1797, (2017)
[27] Martinez-Patino J.C., Ruiz E., Romero I., Cara C., Lopez-Linares J.C., Castro E., Combined acid/alkaline-peroxide pretreatment of olive tree biomass for bioethanol production, Bioresour Technol, 239, pp. 326-335, (2017)
[28] Romero-Garcia J.M., Martinez-Patino C., Ruiz E., Romero I., Castro E., Ethanol production from olive stone hydrolysates by xylose fermenting microorganisms, Bioethanol, 2, pp. 51-65, (2016)
[29] Calero M., Ronda A., Martin-Lara M.A., Perez A., Blazquez G., Chemical activation of olive tree pruning to remove lead(II) in batch system: Factorial design for process optimization, Biomass Bioenerg, 58, pp. 322-332, (2013)
[30] Conde E., Cara C., Moure A., Ruiz E., Castro E., Dominguez H., Antioxidant activity of the phenolic compounds released by hydrothermal treatments of olive tree pruning, Food Chem, 114, pp. 806-812, (2009)

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