Experimental Validation Of A Cappilary Tube Simulation Model With Refrigerant Mixtures Flow
Abstract
This paper presents the experimental validation of a simulation model for refrigerant mixtures flow through capillary tubes. To perform such validation it was built an experimental apparatus using a blow-down process. It was carried out preliminary tests for characterization of experimental parameters: actual capillary tube diameters; relative roughness; and the heat losses in subcooling/quality control system. It was obtained almost 200 experimental points for R-407C (a zeotropic mixture) and R-410A (a near azeotropic mixture). Complete data set for each point consists of the measured pressure and temperature profiles, mass flow rate and mixture composition, as well as subcooling/quality control system inlet and outlet temperatures and heater electric power consumption for tests with two-phase flow capillary tube inlet conditions. Comparison of simulation and experimental data show a good agreement. Main deviations are connected with the delay of vaporization phenomenon occurrence, experimentally verified by the authors.
- Refrigeration Systems and Technologies
- Fundamental Issues in Flow Boiling Heat Transfer
- Refrigeration Systems and Technologies
- Mechanical Engineering
- Engineering
- Physical Sciences
- Subcooling
- Zeotropic mixture
- Annulus (botany)
- Pulsating Heat Pipes
- Mass flow rate
- Mass flow
- Vaporization
- Subcooling
- Zeotropic mixture
- Refrigerant
- Annulus (botany)
- Materials science
- Mechanics
- Thermodynamics
- Capillary action
- Mass flow rate
- Mass flow
- Flow (mathematics)
- Volumetric flow rate
- Vaporization
- Boiling
- Gas compressor
- Composite material
- Physics
- Acesso Aberto
URI
https://openalex.org/W4248519633https://doi.org/10.5380/reterm.v3i1.3485
https://revistas.ufpr.br/reterm/article/download/3485/2746
https://repositorio.maua.br/handle/MAUA/1701