Add to ORKGFouling of fin-and-tube heat exchangers by particle deposition leads to diminished effectiveness in supplying ventilation and air conditioning. This paper explores mechanisms that cause particle deposition on heat exchanger surfaces. We present a model that accounts for impaction, diffusion, gravitational settling, and turbulence. Simulation results suggest that some submicron particles deposit in the heat exchanger core, but do not cause significant performance impacts. Particles between 1 and 10 µm deposit with probabilities ranging from 1- 20 % with fin edge impaction representing the dominant mechanism. Particles larger than 10 µm deposit by impaction on refrigerant tubes, gravitational settling on fin corrugations, and mechanisms assoc...
In this study, a novel computational model is utilized for investigating fouling of two commonly enc...
Air-side fouling of enhanced surface heat exchangers by particulate matter may significantly reduce ...
Given the high concentration of indoor airborne particles during the winter and their harmful effect...
Fouling of fin-and-tube heat exchangers by particle deposition leads to diminished effectiveness in ...
Particles in indoor environments may deposit on the surfaces of heat exchangers that are used in hea...
Fin and tube heat exchangers are used widely in residential, commercial and industrial HVAC applicat...
Particulate fouling and particle deposition at elevated temperature are crucial issues in microchann...
This project provides a steppingstone to comprehend the mechanisms that govern particulate fouling i...
A computational fluid dynamics (CFD) model for particulate fouling in high solid content heat exchan...
Purpose - The purpose of this paper is to clarify the relationship between dust deposition effects o...
Purpose - The purpose of this paper is to clarify the relationship between dust deposition effects o...
Particulate fouling is the process of deposition of extraneous particulate matter on other surfaces....
Assuming uniform particulate deposit layer, with deposition layer thickness in the range of 10-400 l...
Exposure to airborne particles is detrimental to human health and indoor exposures dominate total ex...
Particle dispersion and deposition in man-made enclosed environments are closely related to the well...
In this study, a novel computational model is utilized for investigating fouling of two commonly enc...
Air-side fouling of enhanced surface heat exchangers by particulate matter may significantly reduce ...
Given the high concentration of indoor airborne particles during the winter and their harmful effect...
Fouling of fin-and-tube heat exchangers by particle deposition leads to diminished effectiveness in ...
Particles in indoor environments may deposit on the surfaces of heat exchangers that are used in hea...
Fin and tube heat exchangers are used widely in residential, commercial and industrial HVAC applicat...
Particulate fouling and particle deposition at elevated temperature are crucial issues in microchann...
This project provides a steppingstone to comprehend the mechanisms that govern particulate fouling i...
A computational fluid dynamics (CFD) model for particulate fouling in high solid content heat exchan...
Purpose - The purpose of this paper is to clarify the relationship between dust deposition effects o...
Purpose - The purpose of this paper is to clarify the relationship between dust deposition effects o...
Particulate fouling is the process of deposition of extraneous particulate matter on other surfaces....
Assuming uniform particulate deposit layer, with deposition layer thickness in the range of 10-400 l...
Exposure to airborne particles is detrimental to human health and indoor exposures dominate total ex...
Particle dispersion and deposition in man-made enclosed environments are closely related to the well...
In this study, a novel computational model is utilized for investigating fouling of two commonly enc...
Air-side fouling of enhanced surface heat exchangers by particulate matter may significantly reduce ...
Given the high concentration of indoor airborne particles during the winter and their harmful effect...