https://bura.brunel.ac.uk/bitstream/2438/14401/3/FullText.pdf

Heat pipe based systems - Advances and applications

The use of the two-phase closed thermosyphons (TPCTs) is increasing for many heat transfer applications. This paper reviews the most recent published experimental and theoretical studies on the TPCT. After a description of the TPCT operating principle and the performance characteristics, the heat transfer analysis in condenser and evaporator sections that depends on the complex two-phase process are described. The influence of the affecting parameters on the performance of TPCTs such as the geometry (diameter, shape and length), the inclination angle, the filling ratio (FR), the working fluid, the operating temperature and pressure analyzed by various researchers is discussed. The various operating limits occurring in a thermosyphon includes viscous, sonic, dryout, boiling and flooding are also analyzed. Considering the application of TPCTs, the paper presents a review of experimental tests and applications. This paper can be used as the starting point for the researcher interested in the TPCTs and their renewable energy applications.

Two-phase closed thermosyphons: A review of studies and solar applications

https://bura.brunel.ac.uk/bitstream/2438/10145/1/Fulltext.pdf

CFD modelling of a two-phase closed thermosyphon charged with R134a and R404a

https://bura.brunel.ac.uk/bitstream/2438/11307/1/Fulltext.pdf

The performance of a novel flat heat pipe based thermal and PV/T (photovoltaic and thermal systems) solar collector that can be used as an energy-active building envelope material

An overview on the developing trend of pulsating heat pipe and its performance

https://bura.brunel.ac.uk/bitstream/2438/10738/1/Fulltext.pdf

Numerical modelling of the temperature distribution in a two-phase closed thermosyphon

https://bura.brunel.ac.uk/bitstream/2438/12190/3/Fulltext.pdf

Three-dimensional CFD simulation of Geyser boiling in a two-phase closed thermosyphon

Nanoparticles typically have dimensions of less than 100 nm. Scientists around the world have recently become interested in nanotechnology because of its potential applications in a wide range of fields, including catalysis, gas sensing, renewable energy, electronics, medicine, diagnostics, medication delivery, cosmetics, the construction industry, and the food industry. The sizes and forms of nanoparticles (NPs) are the primary determinants of their properties. Nanoparticles’ unique characteristics may be explored for use in electronics (transistors, LEDs, reusable catalysts), energy (oil recovery), medicine (imaging, tumor detection, drug administration), and more. For the aforementioned applications, the synthesis of nanoparticles with an appropriate size, structure, monodispersity, and morphology is essential. New procedures have been developed in nanotechnology that are safe for the environment and can be used to reliably create nanoparticles and nanomaterials. This research aims to illustrate top-down and bottom-up strategies for nanomaterial production, and numerous characterization methodologies, nanoparticle features, and sector-specific applications of nanotechnology.

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Classification, Synthetic, and Characterization Approaches to Nanoparticles, and Their Applications in Various Fields of Nanotechnology: A Review

Significance of Entropy Generation and Nanoparticle Aggregation on Stagnation Point Flow of Nanofluid over Stretching Sheet with Inclined Lorentz Force

Bandar Fadhl

Papers

Numerical modelling of the temperature distribution in a two-phase closed thermosyphon

CFD modelling of a two-phase closed thermosyphon charged with R134a and R404a

Three-dimensional CFD simulation of Geyser boiling in a two-phase closed thermosyphon

Classification, Synthetic, and Characterization Approaches to Nanoparticles, and Their Applications in Various Fields of Nanotechnology: A Review

Significance of Entropy Generation and Nanoparticle Aggregation on Stagnation Point Flow of Nanofluid over Stretching Sheet with Inclined Lorentz Force