采用联合预处理提高远洋生物甲烷产量。

Improvement in Methane Production from Pelagic Using Combined Pretreatments.

作者信息

Chikani-Cabrera Karla Daniela, Fernandes Patricia Machado Bueno, Tapia-Tussell Raúl, Parra-Ortiz David Leonardo, Hernández-Zárate Galdy, Valdez-Ojeda Ruby, Alzate-Gaviria Liliana

机构信息

Renewable Energy Unit, Yucatan Center for Scientific Research, Carretera Sierra Papacal-Chuburná Puerto, Km 5, Sierra Papacal, Mérida 97302, Mexico.

Center for Biotechnology, Federal University of Espírito Santo-UFES, Campus Maruípe, Vitória 29043900, Espírito Santo, Brazil.

出版信息

Life (Basel). 2022 Aug 10;12(8):1214. doi: 10.3390/life12081214.

DOI:10.3390/life12081214

PMID:36013393

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9409870/

Abstract

The constant golden tides of spp., identified to be a mixture of and , observed recently in the Mexican Caribbean have affected the marine ecosystem and the local economy and have created the need for solutions for their management and use. The arrivals have thus been considered as third-generation feedstock for biofuel. Their potential for energetic conversion to biomethane was investigated, with hydrolysis as the limiting step due to its complex composition; therefore, in the present study, different physical, chemical, and enzymatic pretreatments and a combination of them have been evaluated, with the additional use of granular activated carbon, to determine the best yield and methane quality. The combined pretreatments of 2.5% hydrogen peroxide, followed by an enzymatic pretreatment (enzymatic extract from isolated from decomposing wood in the Yucatán Peninsula-Mexico), was the best option, reaching a biodegradability of 95% and maximum methane yield of 387 ± 3.09 L CH/kg volatile solid. The use of a conductive material, such as granular activated carbon, did not generate significant changes in performance and methane concentration.

摘要

最近在墨西哥加勒比地区观察到的大量持续出现的金潮，经鉴定是由[具体物种1]和[具体物种2]混合而成，已经影响了海洋生态系统和当地经济，因此需要找到管理和利用它们的解决方案。这些金潮的到来因此被视为生物燃料的第三代原料。研究了它们转化为生物甲烷的能量潜力，由于其成分复杂，水解是限制步骤；因此，在本研究中，评估了不同的物理、化学和酶预处理方法以及它们的组合，并额外使用了颗粒活性炭，以确定最佳产率和甲烷质量。2.5%过氧化氢的联合预处理，随后进行酶预处理（从墨西哥尤卡坦半岛分解木材中分离出的[具体物种3]的酶提取物）是最佳选择，生物降解率达到95%，最大甲烷产率为387±3.09升CH/千克挥发性固体。使用导电材料，如颗粒活性炭，在性能和甲烷浓度方面没有产生显著变化。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a562/9409870/ff4e6dd56c62/life-12-01214-g001.jpg

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采用联合预处理提高远洋生物甲烷产量。

Improvement in Methane Production from Pelagic Using Combined Pretreatments.

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