Nanofluid flow and forced convection heat transfer over a stretching surface considering heat source

Mohammadpour, M.; Valipour, P.; Shambooli, M.; Ayani, Mohammad Bagher; Mirparizi, Mina

doi:10.1140/epjp/i2015-15155-8

Cited by 3 publications

(2 citation statements)

References 29 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Polydimethylsiloxane, polyethylene terephthalate and rubber are some typical polymers used to develop flexible sensor. [23][24][25] Recently, numerous types of such mechanisms have been proposed by using carbon-based substances combined with flexible and stretchable polymers. Fabric and carbon-based electronics for the recognition of human health and motion controlling are highly advantageous because of their great flexibility and stretchability properties.…”

Section: Conventional Technique Of Protective Wearable Systemsmentioning

confidence: 99%

Smart coating in protective clothing for firefighters: An overview and recent improvements

Shakeriaski

Ghodrat

Rashidi

et al. 2022

Journal of Industrial Textiles

View full text Add to dashboard Cite

Recently, new developments in the design and performance optimization of smart mechanisms associated with natural and man-made hazards have progressed considerably. This is mainly owing to advances in smart sensing mechanisms including communication and data technologies. This work provides a detailed overview of existing improvements on smart hazard monitoring equipment and materials applied in textile sensing systems. Given that fire is one of the most common disasters in many countries such as Australia, and every year many firefighters are affected by these unfortunate incidents, the focus of this study is on firefighters' protective clothing Fire Fighter Protective clothing. This review provides a unique opportunity to study smart sensing systems in coating technologies, potentially provides more effective techniques for training and better safety protocols of fire fighters. It aims to revisit the existing advances and address recent challenges and opportunities for improvement in the domain of smart coating and fire protective wearables. The goal of this review is to provide information about smart coating in protective clothing for firefighters. The capability of some of these clothing in managing thermal stresses, responding to humid environment, monitoring some critical parameters and adapting to the size of the wearers (clothes fabricated with phase change and shape memory substances) made them attractive choice in adjusting specific design features of industrial textiles. Various types of phase change and shape memory substances are defined and a combination of these substances within the structure of fabrics are presented. This paper also provides a detailed review on the heat exposure and capability of the shape memory substances (SMM) and phase change materials (PCM) to delay the heat transfer through fire fighter protective clothing. Referring to the former research, several issues have been detected using such substances. For instance, combination of phase change and shape memory materials needs fundamental improvements with regards to assessment techniques and testing criteria. Additionally, recent improvements in the domain of PCM and SMM including modifying mechanical features, functionality, and durability under different conditions have been informed. It has been suggested that the major problem in developing fabric-Phase Change Materials (PCMs) and Shape memory material (SMM) systems is their usage methods. At last recent developments on wearable monitoring systems applied in the firefighters’ protective gear. Wearable sensors are usually used directly on the body or located on wearable items to monitor information related to firefighters’ safety.

show abstract

Section: Conventional Technique Of Protective Wearable Systemsmentioning

confidence: 99%

Smart coating in protective clothing for firefighters: An overview and recent improvements

Shakeriaski

Ghodrat

Rashidi

et al. 2022

Journal of Industrial Textiles

View full text Add to dashboard Cite

show abstract

“…The non-classical thermal conduction theories have become very popular as they can justify approximately, the heat interactions in case of high velocity energy transport, and great thermal flux. Moreover, the growing request of nano needs the shifting of macro to nano and micro-scale [1][2][3][4][5][6]. Therefore, to involve the nano scale properties at macroscopic scale, some revisions in the equation of heat transfer was presented.…”

Section: Introductionmentioning

confidence: 99%

Effect of loading rate on transient response of a nano scale medium based on continuum and thermal conduction nonlocal model

Mirparizi

Zhang

2022

Preprint

View full text Add to dashboard Cite

Thermoelastic study at nano scale is an important matter along with the minimizing of the systems and intensive use of ultrafast lasers that size can influence on elastic deformation and thermal conduction grow. In this study, thermal and mechanical responses of nano-scaled body, exposed to thermal loads from outer supply and environment is inquired. In this research, nonlocal thermoelasticity model according to both nonlocal thermal conduction law and continuum theory is represented. A nonlinear finite element equation is applied to solve the coupled governing equations. It is considered that a nano scale medium is subjected to a sudden thermal shock. The results reveal some interesting aspects of wave propagation. The effects of thermal loading and loading rate on the wave propagation are discussed. The impact of the thermal and elastic nonlocality on wave dissemination is also shown graphically and discussed. Comparing the wave propagation characteristics of the classical and generalized thermoelasticity theories in the nonlocal models shows the superiorities of the proposed model. The maximum compressive stress may be observed at the wave front due to the resistance of the particles that are located ahead of the stress wave.

show abstract

Modeling of CuO nanomaterial effects on phase change of paraffin using finite volume method

Hamali

2022

Journal of Molecular Liquids

View full text Add to dashboard Cite

Nanofluid flow and forced convection heat transfer over a stretching surface considering heat source

Cited by 3 publications

References 29 publications

Smart coating in protective clothing for firefighters: An overview and recent improvements

Smart coating in protective clothing for firefighters: An overview and recent improvements

Effect of loading rate on transient response of a nano scale medium based on continuum and thermal conduction nonlocal model

Modeling of CuO nanomaterial effects on phase change of paraffin using finite volume method

Contact Info

Product

Resources

About