Experimental study and simulation of the rectifier nozzle-type critical distributor applied to the application of row tube plate instant freezer

To solve the problem of performance reduction caused by uneven two-phase refrigerant distribution in refrigeration system, two types of distributors were applied to the experimental bench of row tube plate instant freezer with adjustable liquid supply mode. The parameters of cooling rate, refrigerating capacity, COP, and outlet superheat of the row tube plate instant freezer with the application of the two different types of distributors were analyzed. The study shows that the cooling rate of Rectifier Nozzle-Type Critical Distributor is 13.7 % faster than that of the traditional quick-freezer under the condition of downward inlet and upward outlet liquid supply mode, and the cooling rate of Liquid Storage Distributor is 10 % faster than that of the traditional quick-freezer under the condition of upward inlet and downward outlet liquid supply mode. Under the condition of evaporating temperature −31 °C ∼ -35 °C. the refrigeration capacity, COP, and superheat inhomogeneity of the Rectifier Nozzle-Type Critical Distributor system is better performance in general. Simulation is carried out in combination with experimental conditions, and The simulation results show that the formation of annular flow and critical sound velocity in the Rectifier Nozzle-Type Critical Distributor has excellent distribution ability. A new idea for solving the problem of refrigeration inefficiency is presented in this study.