Km. Keener et al., The influence of rapid air cooling and carbon dioxide cooling and subsequent storage in air and carbon dioxide on shell egg quality, POULTRY SCI, 79(7), 2000, pp. 1067-1071
This study examined the effect of rapid cooling with air and CO2 on shell e
gg quality over 14 wk. The 240 fresh eggs were initially heated to 47 C for
24 h in an incubator, cooled using rapid air cooling or CO2 cooling, and t
hen stored in air or CO2 in 250-mL jars for 14 wk. The CO2 levels were reco
rded of the jar atmosphere, of the egg air cell, and of the egg albumen. Th
e Haugh units of each egg, pH, and of albumen from five eggs per group were
also recorded. Haugh units are a logarithmic, empirical relationship betwe
en albumen height and egg weight (Stadelman, 1995).
Haugh units for the control eggs averaged 70.8 over 10 wk of the study. The
control eggs were of such poor quality that they could not be sampled afte
r 10 wk. The air-cooled and CO2-stored eggs averaged 70.3 Haugh units over
the 14-wk storage period; however, the egg quality significantly deteriorat
ed after 10 wk. The CO2-cooled and CO2-stored eggs averaged 75.9 Haugh unit
s over the 14 wk study, with no observable decrease in quality.
Rapid air-cooling produces a lower quality egg than rapid cooling with CO2.
Subsequent storage of rapidly air-cooled eggs in CO2 may increase shelf li
fe, but Haugh units were not statistically different from rapid air-cooled
eggs. CO2-cooling and subsequent storage in CO2 increased Haugh units. The
shelf life of shell eggs could be extended to greater than 14 wk when the e
ggs were CO2-cooled and CO2-stored.