001. 압축기 피스톤 토출량 $V = \dfrac{\pi}{4} D^2 \cdot L \cdot N \cdot R \cdot 60$
002. 압축기 피스톤 회전수 $R = \dfrac{4 \times V}{\pi D^2 \cdot L \cdot N \cdot 60}$
003. 냉매순환량 $G = \dfrac{V \cdot \eta_v}{v} = \dfrac{Q_e}{q_e}$
004. 냉동능력 $Q_e = G \cdot q_e = G \times (h_1 - h_4)$
005. 냉동효과 $q_e = h_1 - h_4$
006. 압축기 축동력 $L = \dfrac{G \times (h_2' - h_1)}{\eta_m} = \dfrac{V \times \eta_v \times (h_2 - h_1)}{v \cdot \eta_c \cdot \eta_m}$
007. 성적계수 $COP = \dfrac{Q_e}{W}$
008. 저단 냉매순환량 $G_L = \dfrac{Q_e}{h_1 - h_8}$
009. 고단 냉매순환량 $G_H = G_L \times \dfrac{h_2' - h_7}{h_3 - h_6}$
010. 바이패스 냉매량 $G_M = G_H - G_L$
011. 응축부하 $Q_c = G \times (h_2' - h_3) = G \times (h_1 + \dfrac{h_2 - h_1}{\eta_c} - h_3)$
012. 열교환량 $q_H = (G - G_x) \times (h_7 - h_6) = (G - G_x) \times (h_3 - h_4) = (\dfrac{Q_e}{h_2 - h_3} - G \times \dfrac{h_7 - h_1}{h_7 - h_8} ) \times (h_7 - h_6)$
013. 실제 성적계수 $COP = \dfrac{(G - G_x) \times (h_6 - h_5)}{G \times (h_2' - h_1)}$