Tabla De Capilares Para R134a File

| Temp. condensación | Factor multiplicador de longitud | |--------------------|----------------------------------| | 45°C | 0.9 (acortar) | | 55°C (estándar) | 1.0 | | 65°C | 1.2 (alargar) |

Incluso con la tabla correcta, muchos técnicos cometen errores que arruinan el sistema: Tabla De Capilares Para R134a

Whether the system is for Low Back Pressure (LBP) like a freezer, or High Back Pressure (HBP) like a water cooler. Physical Dimensions: | Temp

| Refrigerant | Relative Cap Tube Length (for same ID & capacity) | Reason | |-------------|--------------------------------------------------|--------| | R12 | 1.0× (reference) | Similar properties | | R134a | 1.05–1.10× | Slightly lower latent heat, requires longer tube | | R600a (isobutane) | 1.4–1.6× | Much lower density and pressure | | R290 (propane) | 0.7–0.8× | Higher density and pressure | Its primary function is to create a pressure

[ \dotm = \frac7.5 \times D^2.8 \times (P_cond - P_evap)^0.5L^0.5 ]

In a refrigeration cycle, the capillary tube serves as the dividing line between the high-pressure side (condenser) and the low-pressure side (evaporator). Its primary function is to create a pressure drop that allows the liquid refrigerant to flash into a low-temperature gas.