Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Characterizing the performance of a single-layer fabric system through a heat and mass transfer model - Part II: Thermal and evaporative resistances
View through CrossRef
In Part I of this work, a heat and mass transfer model was developed to calculate the thermal and evaporative resistances of a single-layer fabric system. Using this model, the effects of environmental conditions, air gap, and material properties on the thermal and evaporative resistances have now been studied. The thickness of the air gap and that of the fabric layer were shown to contribute significantly to both the thermal resistance and evaporative resistance. The occurrence of natural convection in the air gap can cause decreases in thermal and evaporative resistances, and needs to be considered to determine the optimal air gap thickness. The porosity of the fabric layer has a distinct effect on the two resistances, and is an excellent property to help achieve both thermal protection and comfort. This work provides the fundamental basis for the optimization of garment fit and material properties to achieve good performance of the clothing system.
Title: Characterizing the performance of a single-layer fabric system through a heat and mass transfer model - Part II: Thermal and evaporative resistances
Description:
In Part I of this work, a heat and mass transfer model was developed to calculate the thermal and evaporative resistances of a single-layer fabric system.
Using this model, the effects of environmental conditions, air gap, and material properties on the thermal and evaporative resistances have now been studied.
The thickness of the air gap and that of the fabric layer were shown to contribute significantly to both the thermal resistance and evaporative resistance.
The occurrence of natural convection in the air gap can cause decreases in thermal and evaporative resistances, and needs to be considered to determine the optimal air gap thickness.
The porosity of the fabric layer has a distinct effect on the two resistances, and is an excellent property to help achieve both thermal protection and comfort.
This work provides the fundamental basis for the optimization of garment fit and material properties to achieve good performance of the clothing system.
Related Results
Thermal Effects in High Compactness CEA Stack
Thermal Effects in High Compactness CEA Stack
Thermal management is a pivotal aspect of stack durability and system operability. Consequently, understanding the thermal mapping within a stack based on its operating conditions ...
Enhanced protection face masks do not adversely impact thermophysiological comfort
Enhanced protection face masks do not adversely impact thermophysiological comfort
The World Health Organization has advocated mandatory face mask usage to combat the spread of COVID-19, with multilayer masks recommended for enhanced protection. However, this rec...
The Black Mass as Play: Dennis Wheatley's The Devil Rides Out
The Black Mass as Play: Dennis Wheatley's The Devil Rides Out
Literature—at least serious literature—is something that we work at. This is especially true within the academy. Literature departments are places where workers labour over texts c...
Thermal energy storage with tunnels in different subsurface conditions
Thermal energy storage with tunnels in different subsurface conditions
The widespread use of the underground and global climate change impact the urban subsurface temperature. Changes in the subsurface environment can affect the performance of undergr...
Characterizing the performance of a single-layer fabric system through a heat and mass transfer model - Part I: Heat and mass transfer model
Characterizing the performance of a single-layer fabric system through a heat and mass transfer model - Part I: Heat and mass transfer model
A mathematical model was developed to study the coupled heat and moisture transfer through a fabric system that consists of a single layer of fabric and an air gap. Properties of a...
Performance Analysis of Direct Stage, In-Direct Stage and Two-Stage Evaporative Air Cooler
Performance Analysis of Direct Stage, In-Direct Stage and Two-Stage Evaporative Air Cooler
Evaporative coolers are used in various areas especially in dry, hot climates in weather. This research focus on the theoretical and experimental result of the evaporative air cool...
Effect of ocean heat flux on Titan's topography and tectonic stresses
Effect of ocean heat flux on Titan's topography and tectonic stresses
INTRODUCTIONThe thermo-mechanical evolution of Titan's ice shell is primarily controlled by the mode of the heat transfer in the ice shell and the amount of heat coming from the oc...
Numerical Investigation of Heat Transfer Characteristics of a Novel Wavy-Tapered Microchannel Heat Sink
Numerical Investigation of Heat Transfer Characteristics of a Novel Wavy-Tapered Microchannel Heat Sink
In the present study, a multi-variable comparative study of the effect of microchannel heat sink configurations on their thermal performance is conducted by numerically simulating ...