2013
DOI: 10.1007/10_2013_238
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Quorus Bioreactor: A New Perfusion-Based Technology for Microbial Cultivation

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Cited by 5 publications
(4 citation statements)
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“…It operates by continuously removing media from the reactor whilst the cells are either retained or returned to the bioreactor allowing higher cell densities due to optimal nutrient conditions and the removal of toxic by-products. Key advantages are higher biomass yield, smaller batches, easier product purification, numbering-up and higher productivity whilst issues are fouling, plugging, higher media requirements and more complex operation [87] and how changes in scale-up affect the cells processes. Fraser and Endres [87] list a range of classic perfusion reactor systems which include membrane reactors, hollow fibre reactors and fixed and rotating bed reactors.…”
Section: Perfusion Processesmentioning
confidence: 99%
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“…It operates by continuously removing media from the reactor whilst the cells are either retained or returned to the bioreactor allowing higher cell densities due to optimal nutrient conditions and the removal of toxic by-products. Key advantages are higher biomass yield, smaller batches, easier product purification, numbering-up and higher productivity whilst issues are fouling, plugging, higher media requirements and more complex operation [87] and how changes in scale-up affect the cells processes. Fraser and Endres [87] list a range of classic perfusion reactor systems which include membrane reactors, hollow fibre reactors and fixed and rotating bed reactors.…”
Section: Perfusion Processesmentioning
confidence: 99%
“…Key advantages are higher biomass yield, smaller batches, easier product purification, numbering-up and higher productivity whilst issues are fouling, plugging, higher media requirements and more complex operation [87] and how changes in scale-up affect the cells processes. Fraser and Endres [87] list a range of classic perfusion reactor systems which include membrane reactors, hollow fibre reactors and fixed and rotating bed reactors. Fig.…”
Section: Perfusion Processesmentioning
confidence: 99%
“…They provide a low shear environment, do not need the addition of antifoam agents and give similar or better results than in stirred reusable bioreactors as shown for A. niger, N. crassa and Penicillium spp. [ 87 ].…”
Section: Future Important Technologies For Filamentous Fungimentioning
confidence: 99%
“…To bridge the gap between the micrometer scale (nL to μL) of microfluidic chips and the lab-scale (100 mL to L) or even industrial size bioreactors (L to hL), perfusion bioreactors (mL to 100 mL) culturing cells in hollow-fiber cartridges could also be used (Li et al, 2009 ; Whitford and Cadwell, 2009 ; Bonham-Carter and Shevitz, 2011 ; Langer, 2011 ; Shevitz et al, 2011 ; Fraser and Endres, 2013 ; Langer and Rader, 2014 ). Besides being cheap and easily scalable, those hollow-fiber cartridges offer the modularity required for SLMC.…”
Section: Engineering Spatially Linked Microbial Consortia (Slmc)mentioning
confidence: 99%