Add to ORKGA honeycomb-structured ceramic porous plate (HPP) is used for the CHF enhancement in a saturated pool boiling. HPP is commercially available as a filter for purifying exhaust gases from combustion engines. This honeycomb porous plate has considerably smaller micro-pores on the order of 0.1 m, as compared with those for sintered metal powders, and is simply attached to the test surface without any treatment, such as spraying or sintering. Moreover, the CHF has been enhanced experimentally up to approximately three times that of a plain surface (approximately 320 W/cm2) with a heated surface of 30 mm in diameter. In this paper, we will show the CHF enhancement mechanism using HPP as well as further CHF enhancement techniques by co...
Abstract. The pool boiling characteristics of dilute dispersions of alumina, zirconia and silica nan...
This paper investigates critical heat flux (CHF) in saturated pool boiling for water and TiO2 nanofl...
Developing efficient heat dissipation technologies is of critical importance towards the development...
Papers presented at the 13th International Conference on Heat Transfer, Fluid Mechanics and Thermody...
A honeycomb-structured ceramic porous plate (HPP) was used to increase the critical heat flux (CHF) ...
Heat removal through pool boiling is limited by the phenomena of critical heat flux (CHF). CHF enha...
Heat removal through pool boiling is limited by the phenomena of critical heat flux (CHF). CHF enha...
The critical heat flux (CHF) limit is a great concern by many in the field of heat removal technolo...
Various surface modifications controlling wettability and wickability have effectively enhanced the ...
Various surface modifications of the boiling surface, e.g., integrated surface structures, such as c...
The enhancement of the critical heat flux (CHF) in saturated pool boiling of water-based nanofluid (...
Several studies have proposed the use of nanofluids to enhance the in-vessel retention (IVR) capabi...
Several studies have proposed the use of nanofluids to enhance the in-vessel retention (IVR) capabi...
One of the main concerns regarding in-vessel retention (IVR) during a severe accident is guaranteein...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
Abstract. The pool boiling characteristics of dilute dispersions of alumina, zirconia and silica nan...
This paper investigates critical heat flux (CHF) in saturated pool boiling for water and TiO2 nanofl...
Developing efficient heat dissipation technologies is of critical importance towards the development...
Papers presented at the 13th International Conference on Heat Transfer, Fluid Mechanics and Thermody...
A honeycomb-structured ceramic porous plate (HPP) was used to increase the critical heat flux (CHF) ...
Heat removal through pool boiling is limited by the phenomena of critical heat flux (CHF). CHF enha...
Heat removal through pool boiling is limited by the phenomena of critical heat flux (CHF). CHF enha...
The critical heat flux (CHF) limit is a great concern by many in the field of heat removal technolo...
Various surface modifications controlling wettability and wickability have effectively enhanced the ...
Various surface modifications of the boiling surface, e.g., integrated surface structures, such as c...
The enhancement of the critical heat flux (CHF) in saturated pool boiling of water-based nanofluid (...
Several studies have proposed the use of nanofluids to enhance the in-vessel retention (IVR) capabi...
Several studies have proposed the use of nanofluids to enhance the in-vessel retention (IVR) capabi...
One of the main concerns regarding in-vessel retention (IVR) during a severe accident is guaranteein...
Thesis: S.M., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering, ...
Abstract. The pool boiling characteristics of dilute dispersions of alumina, zirconia and silica nan...
This paper investigates critical heat flux (CHF) in saturated pool boiling for water and TiO2 nanofl...
Developing efficient heat dissipation technologies is of critical importance towards the development...