Search Results - "Spiden, Erin M."

Quantitative evaluation of the ease of rupture of industrially promising microalgae by high pressure homogenization by Spiden, Erin M., Yap, Benjamin H.J., Hill, David R.A., Kentish, Sandra E., Scales, Peter J., Martin, Gregory J.O.

“…•Rupture of three promising microalgae by high pressure homogenization was investigated.•Cell counting was the only reliable method for quantifying rupture of…”
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The effects of acidic and thermal pretreatment on the mechanical rupture of two industrially relevant microalgae: Chlorella sp. and Navicula sp by Spiden, Erin M., Scales, Peter J., Yap, Benjamin H.J., Kentish, Sandra E., Hill, David R.A., Martin, Gregory J.O.

“…Efficient cell disruption is critical for the recovery of lipids from microalgae for biodiesel production. The rupture of Chlorella sp. and Navicula sp. by…”
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Critical analysis of quantitative indicators of cell disruption applied to Saccharomyces cerevisiae processed with an industrial high pressure homogenizer by Spiden, Erin M., Scales, Peter J., Kentish, Sandra E., Martin, Gregory J.O.

“…► A variety of techniques are available for estimating the extent of cell disruption. ► All methods tested could be fitted to simple exponential decay models…”
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