在光生物反应器中为微藻培养提供增量能源。

Incremental energy supply for microalgae culture in a photobioreactor.

机构信息

Division of Environmental Science & Engineering, Faculty of Engineering, Department of Environmental Science & Engineering, National University of Singapore, Singapore.

出版信息

Bioresour Technol. 2011 Feb;102(3):2973-8. doi: 10.1016/j.biortech.2010.10.001. Epub 2010 Oct 8.

DOI:10.1016/j.biortech.2010.10.001

PMID:21071210

Abstract

A model was developed for any PBR, based on mixing requirement per unit of biomass production rather than constant amount of mixing energy. The model assumes constant biomass concentration throughout the culture time which means the volume of the culture would increase over time; the mixing energy will also increase over time according to the volume of the culture. Such incremental energy supply (IES) consumes much less energy compared to constant energy supply (CES); higher the culture time in the PBR, more is the savings in the IES compared to CES. In addition to mixing energy, light energy can also be applied using IES scheme. The model was validated with the algae Nannochloropsis sp.; 44% of the energy input of CES was saved by adopting IES with equal biomass productivities for a culture period of 60 h.

摘要

针对任意的 PBR，我们开发了一种模型，该模型基于单位生物质产量的混合需求，而不是基于恒定的混合能量。该模型假设整个培养时间内生物质浓度保持恒定，这意味着培养物的体积会随着时间的推移而增加；根据培养物的体积，混合能量也会随着时间的推移而增加。与恒定能量供应（CES）相比，这种增量能量供应（IES）消耗的能量要少得多；在 PBR 中的培养时间越长，与 CES 相比，IES 的节省就越大。除了混合能量之外，还可以使用 IES 方案来提供光能。该模型已经使用藻类 Nannochloropsis sp. 进行了验证；在 60 小时的培养期内，采用 IES 可节省 CES 输入能量的 44%，同时保持相等的生物质生产力。

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在光生物反应器中为微藻培养提供增量能源。

Incremental energy supply for microalgae culture in a photobioreactor.

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