Simulation of ice and frost generation on air cooler surface
Annotation
Quantitative analysis of ice and frost formation is being carried out on an unbounded plate and an unbounded cylinder that model an air cooler wall. The rate of ice and frost layer growth on the given surfaces is estimated depending on thermal physical parameters of the process in terms of a model of Stephan problem type.
Keywords
Постоянный URL
Articles in current issue
- Simulation of ice and frost generation on air cooler surface
- Comparative calculation of capillary tubes
- Process flowsheet of heat recovery at reverse cooling of auticlaves
- Carbon dioxide applied for freezing poultry meat
- Mathematical simulator for quasi-elastic objects traveling in a process chamber
- Electrolytic water-propyleneglycol coolant as an alternative to "icy water"
- A universal equation of state for R717 allowing for features of the critical area
- Analysis of heat transfer in a lorry design
- IV International Scientific-Engineering conference "Refrigerating and Food Engineering in XXI century"
- Simulation of friction surfaces of mechanical units in cryogenic systems
- Adiabatic process dynamics in an electrocaloric element under harmonic action of electric field
- Structural mechanical characteristics of soft ice cream mixtures
- Quality control of systems based on entropy potential parameters. Aspects applied for food industry and nanotechnologies