Some studies have selected C. pseud

Some studies have selected C. pseudotropicalis strains as the most
efficient microorganisms for the conversion of lactose/whey to ethanol
among lactose-fermenting yeasts (Ghaly and El-Taweel, 1995b;
Izaguirre and Castillo, 1982; Szczodrak et al., 1997). Similarly to
reported for Kluyveromyces spp., C. pseudotropicalis strains are inhibited
by high lactose concentrations and ethanol (Ghaly and El-Taweel,
1995a; Moulin et al., 1980, 1981; Szczodrak et al., 1997). Ghaly and El-
Taweel selected C. pseudotropicalis ATCC 8619 among nine lactosefermenting
yeasts (Ghaly and El-Taweel, 1995b). These authors have
investigated several aspects of whey fermentations using this strain,
namely the effect of nutrient (ammonium sulphate, dipotassium hydrogen
phosphate and yeast extract) supplementation (Ghaly and El-
Taweel, 1995b) and the effect of increasing lactose concentration (50 to
200 g L−1) and micro-aeration (0.05 to 0.15 v.v.m.) in batch fermentations
(Ghaly and El-Taweel, 1995a). Furthermore, they have tested the
strain in a continuous fermentation system with feed lactose concentrations
ranging from 50 to 150 g L−1 and retention times varying
between 18 and 42 h (Ghaly and El-Taweel, 1997a), using the data to
develop a kinetic model (Ghaly and El-Taweel, 1997b). C. pseudotropicalis
strains have also been used in other systems for ethanol production
from lactose/whey, including extractive fermentation (Jones et al.,
1993) and coupled fermentation–pervaporation processes (Shabtai and
Mandel, 1993). The ethanol volumetric productivities and maximum
ethanol titres obtained in selected studies on lactose/whey fermentation
by C. pseudotropicalis are shown in Table 1.