. Author manuscript; available in PMC: 2010 Sep 4.

Published in final edited form as: J Chromatogr A. 2009 Jul 10;1216(36):6365–6376. doi: 10.1016/j.chroma.2009.07.005

Table 5.

DBC and yield results for ovalbumin. Maximum breakthrough to which the run was taken (max % b.t.) was not held constant in this case, it varied among the runs as indicated.

Stationary phase	u_s (cm/min)	DBC (g/L) @ % b.t.				Max % b.t.	Loss @ % b.t.
Stationary phase	u_s (cm/min)	1%	5%	10%	max	Max % b.t.	1%	5%	10%	max
CIM disk	0.8	14	15	16	25	92%	0.1%	0.3%	0.6%	55%
	2.4	13	14	15	26	93%	0.1%	0.3%	0.7%	61%
	4.1	13	15	15	28	93%	0.1%	0.4%	0.7%	64%
ProSwift	2.8	11	12	13	16	93%	0.1%	0.2%	0.5%	50%
	5.6	11	12	13	17	96%	0.1%	0.3%	0.6%	68%
	8.3	12	13	13	19	95%	0.0%	0.2%	0.5%	71%
Uno Q	2.4	21	21	22	27	91%	0.1%	0.2%	0.3%	33%
	4.8	22	23	23	28	90%	0.1%	0.2%	0.3%	33%
	9.6	21	22	22	27	92%	0.1%	0.1%	0.3%	34%
PL-SAX	2.3	17	18	18	19	91%	0.1%	0.1%	0.1%	15%
	4.7	17	17	18	20	92%	0.1%	0.1%	0.1%	39%
	9.4	16	16	16	18	90%	0.3%	0.3%	0.3%	37%
Q Seph. XL	2.5	172	187	195	255	58%	0.1%	0.3%	0.6%	14%
	5.1	154	169	178	227	59%	0.1%	0.3%	0.7%	13%
	10.2	137	152	160	206	60%	0.2%	0.4%	0.8%	14%

E.I. Trilisky, A.M. Lenhoff, J Chromatogr A 1142 (2007) 2.

E.R. Nightingale, Journal of Physical Chemistry 63 (1959) 1381.