2012
DOI: 10.4172/2155-9821.1000113
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The Application of Transparent Glass Sponge for Improvement of Light Distribution in Photobioreactors

Abstract: A new concept for improving light dilution and light distribution in photobioreactors by applying transparent, openpored sponges was realized during cultivation experiments. A manufacturing process based on the polymer replica technique was established. A polyurethane template is impregnated with a nanoscaled SiO 2 powder suspension (solids loading of 60 wt% at around pH 10) and dried. The green body is prepared by burning-out the polymer at 800°C. Subsequently the sintering of the remaining SiO 2 structure to… Show more

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Cited by 15 publications
(26 citation statements)
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“…For the required light intensity, two cultivation strategies have been developed in the recent years. The first approaches the achievement of high growth rates at low light intensities as in case of high cell densities or light dilution . In the second strategy the saturation effects of high light intensities are considered.…”
Section: Integration On the Level Of The Standard Process Structurementioning
confidence: 99%
“…For the required light intensity, two cultivation strategies have been developed in the recent years. The first approaches the achievement of high growth rates at low light intensities as in case of high cell densities or light dilution . In the second strategy the saturation effects of high light intensities are considered.…”
Section: Integration On the Level Of The Standard Process Structurementioning
confidence: 99%
“…While preparing this manuscript, another interesting application involving scattering nanoparticles to improve light distribution was proposed [27]. As a scattering matrix, sponges coated with scattering SiO 2 were used, directly immersed in the cultures.…”
Section: Hydrogen Production and Efficiencymentioning
confidence: 99%
“…Between the two layers is an intermediate zone where light becomes increasingly limited [17]. To attenuate the effects of this physical constraint that actually acts as a strong drawback in algal biotechnology, different techniques have been proposed so far, such as fast mixing in order to induce rapid light/dark cycles within the culture depth [11,18e20], ultra-dense thin-layer cultures flowing on tilted smooth or corrugated surfaces (cascades) [21e23], high intensity tangent light dilution/scattering devices [24e26], and application of scattering materials in the culture suspension [27]. All these strategies aim at improving light conversion efficiency by "diluting" the incident light over a larger culture surface and to reduce, as much as possible, the amount of time the cells spend in the dark i.e., deep layers of the culture and dark parts of the reactors.…”
Section: Introductionmentioning
confidence: 99%
“…Another way to internally illuminate PBRs via light guides was presented by Jacobi et al (2012) [33]. To guide the light from the reactor surface deeper into the culture they used transparent sponges made of glass.…”
Section: Classification and Overview Of Photobioreactors With Intermentioning
confidence: 99%