✅ ( P_shaft = \dotm \cdot \Delta h_actual )
Oil-injected models require two-phase flow (gas + oil droplets). The oil absorbs compression heat, reducing discharge temperature. Additional equations for oil mass fraction, droplet size, and heat transfer between phases are needed: ✅ ( P_shaft = \dotm \cdot \Delta h_actual
: Using cycloidal or asymmetric curves, designers calculate the perfect geometry to maximize air flow while minimizing the "blowhole"—the tiny gap where air can leak back out. Thermodynamic Balancing ✅ ( P_shaft = \dotm \cdot \Delta h_actual
How much power the machine consumes compared to a perfect, lossless process. ✅ ( P_shaft = \dotm \cdot \Delta h_actual
[ \dotm = \frac\rho_m \cdot (p_u - p_d) \cdot h^3 \cdot w12 \mu L_path ]