초록
냉동된 닭 가슴살 patty를 계육 가공공장으로부터 얻어서 내부온도가 $0{\pm}1.1^{\circ}C$가 되도록 조절하였다. Potentiometer에 연결된 thermocouple을 patty 중심에 삽입한 뒤 $168.3,\;179.4,\;190.6^{\circ}C$에서 튀겨 내부온도의 범위가 $48.9^{\circ}C$에서 $71.7^{\circ}C$가 되도록 하였다. 일반적으로 patty 내부온도는 튀김 솥(frier)에서 제거한 뒤 튀기는 온도나 내부온도와 관계없이 약 $11.1^{\circ}C$ 증가하였으며, 각각 다른 튀김온도에서 원하는 내부온도와 최종 내부온도는 튀기는 시간을 조절하므로써 얻을 수 있었다. 세 종류의 튀기는 온도에서 튀기는 시간이 독립변수인 3차 회귀다항식으로 시료 내부온도와 최종 내부온도를 예측하였고 최종 내부온도가 독립 변수인 2차 회귀다항식으로 수율을 예측하였다.
Copper constantan thermocouples connecting to a recording potentiometer were inserted at the center of the patties and the samples were fried. In general, the internal temperature of the patty samples increased approximately $11.1^{\circ}C$ after the samples were removed from the fryer. The desired internal temperature and maximum internal end-point temperature, at different frying temperatures, can be obtained by adjusting the frying time. The yields of the patties decreased as maximum internal end-point temperature increased or as frying time increased. The internal temperature and maximum internal end-point temperature of the patty samples at three frying temperatures were predicted using polynominal regression of a third-order model with one independent variable, frying time. Polynominal regression of a second-order model with maximum internal end-point temperature as the independent variable was used to predict frying yields at three frying temperatures.