Stephen C. Skill

TL;DR: The results show that the closed loop system using the recovered aqueous phase from the hydrothermal liquefaction of microalgae offers a promising route for sustainable oil production and nutrient management formicroalgae.

TL;DR: There is considerable scope for further innovation in harvesting processes, especially with synergistic interactions that exploit multiple physical and chemical properties simultaneously, as well as three pilot-plants across Northwest Europe are detailed.

TL;DR: In this paper, the key process variables that affect the recovery of products from different sub-cellular locations were investigated using a high throughput cell disruption system and a cyanobacterium as model organism.

TL;DR: A multi-stage process for the digestion or conversion of organic matter which comprises supplying organic material-containing liquid/(with or without solid) feedstock mixture to an inlet port in a multi-store reactor vessel, and causing microorganisms or catalytic agents to digest or convert said organic matter within the interior of said vessel to form liquid and/or gaseous byproduct(s) characterised in that the reactor comprises an outer body portion defining an internal chamber and an inner rotatable rotor assembly as mentioned in this paper.

TL;DR: The presence of a resistant aliphatic biopolymer in Chlorogloeopsis suggests that cyanobacteria could have contributed to kerogen via selective preservation.