通过化学分散器液化从大型藻类生物质中生产节能甲烷。

Energy-efficient methane production from macroalgal biomass through chemo disperser liquefaction.

机构信息

Department of Civil Engineering, Regional Centre of Anna University, Tirunelveli, India.

出版信息

Bioresour Technol. 2017 Mar;228:156-163. doi: 10.1016/j.biortech.2016.12.102. Epub 2016 Dec 30.

DOI:10.1016/j.biortech.2016.12.102

Abstract

In this study, an effort has been made to reduce the energy cost of liquefaction by coupling a mechanical disperser with a chemical (sodium tripolyphosphate). In terms of the cost and specific energy demand of liquefaction, the algal biomass disintegrated at 12,000rpm for 30min, and an STPP dosage of about 0.04g/gCOD was chosen as an optimal parameter. Chemo disperser liquefaction (CDL) was found to be energetically and economically sustainable in terms of liquefaction, methane production, and net profit (15%, 0.14gCOD/gCOD, and 4 USD/Ton of algal biomass) and preferable to disperser liquefaction (DL) (10%, 0.11 gCOD/gCOD, and -475 USD/Ton of algal biomass).

摘要

在这项研究中，通过将机械分散器与化学物质（三聚磷酸钠）结合，努力降低液化的能源成本。就液化的成本和特定能源需求而言，选择在 12000rpm 下分散 30 分钟，以及约 0.04g/gCOD 的 STPP 用量作为最佳参数。就液化、甲烷生成和净利润（15%、0.14gCOD/gCOD 和 4 美元/吨藻类生物质）而言，化学分散器液化（CDL）在能源和经济上是可持续的，并且优于分散器液化（DL）（10%、0.11 gCOD/gCOD 和-475 美元/吨藻类生物质）。

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通过化学分散器液化从大型藻类生物质中生产节能甲烷。

Energy-efficient methane production from macroalgal biomass through chemo disperser liquefaction.

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