id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
work_zvnpr3l4fvh5tnjx2etvpzbfcu	Teresa Lopes da Silva	Applications and perspectives of multi-parameter flow cytometry to microbial biofuels production processes	2012	1	.pdf	application/pdf	783	65	37	Applications and perspectives of multi-parameter flow cytometry to microbial biofuels production processes to microbial biofuels production microbial biofuels production are based on off-line analyses. Real time process control strategies, such as flow cytometry (FC), can be used to monitor biomethane, biohydrogen and fuel cell processes. the technique for a range of biofuel processing parameters, more robust monitoring and control may be implemented to enhance process efficiency. Until recently, biofuel process monitoring almost real time insight to develop dynamic process control Keywords: biodiesel; bioethanol; biomethane; biohydrogen; microbial fuel cells; content should be monitored throughout bioprocess development to optimize control strategies and enhance yields. biodiesel production from microorganisms has used conventional microbiology techniques to monitor microbial is taken during the microbial lipid production, too late to or to expand biofuel production bioprocesses. Applications and perspectives of �multi-parameter flow cytometry �to microbial biofuels production processes Current biofuel processing shortcomings Current biofuel processing shortcomings Microbial fuel cells (MFCs)	./cache/work_zvnpr3l4fvh5tnjx2etvpzbfcu.pdf	./txt/work_zvnpr3l4fvh5tnjx2etvpzbfcu.txt