This paper provides a comprehensive review of published articles addressing passive
enhancement of pool boiling using surface modification techniques. They include …

Owing to advances in micro-and nanofabrication methods over the last two decades, the
degree of sophistication with which solid surfaces can be engineered today has caused a …

In this study, the optimal surface pattern of low and high wettability regions for enhanced
boiling heat transfer is investigated using aluminum superbiphilic surfaces. Samples are …

Nucleate pool boiling experiments were performed on microporous copper surfaces and
plain surfaces using saturated HFE-7100 as the working fluid. Quantitative measurements of …

Pool boiling is a low-cost technique for cooling electronic devices; HFE-7100 is a dielectric
fluid with advantageous properties for such application but its high wettability can cause …

The search for new techniques to increase boiling heat transfer has been driven by more
efficient and compact heat exchangers, especially in microelectronics and equipment with …

In the present study, pool boiling heat transfer experiments are performed on a bare copper
surface, a sandblasted copper surface, and carbon nanotube coated copper substrates …

This paper presents a systematic study on flashing atomisation, which includes both
standards and retrograde fluids. A novel data reduction method is proposed in terms of the …

Boiling heat transfer intensification is of big relevance to energy conversion and
conservation, materials and resources saving, and electronics cooling. This work aims to …

The present paper addresses the qualitative and quantitative analysis of the pool boiling
heat transfer over micro-structured surfaces. The surfaces are made from silicon chips, in the …