Oliva, J. A., Pal, K., Barton, A., Firth, P., & Nagy, Z. (2018). Experimental investigation of the effect of scale-up on mixing efficiency in oscillatory flow baffled reactors (OFBR) using principal component based image analysis as a novel noninvasive residence time distribution measurement approach.
Chicago Style (17th ed.) CitationOliva, Joseph A., Kanjakha Pal, Alastair Barton, Paul Firth, and Zoltan Nagy. Experimental Investigation of the Effect of Scale-up on Mixing Efficiency in Oscillatory Flow Baffled Reactors (OFBR) Using Principal Component Based Image Analysis as a Novel Noninvasive Residence Time Distribution Measurement Approach. 2018.
MLA (9th ed.) CitationOliva, Joseph A., et al. Experimental Investigation of the Effect of Scale-up on Mixing Efficiency in Oscillatory Flow Baffled Reactors (OFBR) Using Principal Component Based Image Analysis as a Novel Noninvasive Residence Time Distribution Measurement Approach. 2018.