Flow Boiling in Minigap in the Reversed Two-Phase Thermosiphon Loop

Klugmann, Michał; Dąbrowski, Paweł; Mikielewicz, Dariusz

doi:10.3390/en12173368

Cited by 3 publications

(2 citation statements)

References 33 publications

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“…The operating principle of a reverse thermosiphon with a vapor lift pump and one working medium is presented in Figure 5. Similar systems that are filled with one working medium and use a vapor lift pump to transfer heat downward have been analyzed by Ito et al [32], Yandri et al [33], and Klugmann et al [34].…”

Section: Heat Transfer System With One Working Mediummentioning

confidence: 99%

A New Concept and a Test of a Bubble Pump System for Passive Heat Transport from Solar Collectors

Chludziński

Duda

2020

Energies

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Heat is usually transported by hydraulic circuits where the working medium is circulated by an electric pump. Heat can also be transferred by natural convection in passive systems. Passive systems where heat is transported downward have also been described and studied in the literature. These types of devices are referred to as reverse thermosiphons. However, systems of the type are not widely applied in practice due to the problems associated with the selection of the optimal working medium. In water-based thermosiphons, negative pressure is produced when water temperature falls below 100 °C, and non-condensable gas can enter the system. These problems are not encountered in systems where the working medium has a low boiling point. However, liquids with a low boiling point can be explosive, expensive, and harmful to the environment. The solution proposed in this paper combines the advantages of water and a liquid with a low boiling point. The described system relies on water as the heat transfer medium and small amounts of a substance with a low boiling point. The developed model was tested under laboratory conditions to validate the effectiveness of a passive system where heat is transported downward with the involvement of two working media. The system’s operating parameters are also described.

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Section: Heat Transfer System With One Working Mediummentioning

confidence: 99%

A New Concept and a Test of a Bubble Pump System for Passive Heat Transport from Solar Collectors

Chludziński

Duda

2020

Energies

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“…Investigations into minigaps of different geometries (e.g., rectangular [21] or annular [22]) usually focus on the thermal performance (e.g., local heat transfer coefficients [23], Nusselt number [24], or temperature distribution [25]). Flow distribution in minigaps is discussed rarely, and if so, then usually as a side experimental observation [26] or in the form of numerical analyses using computational fluid dynamics (CFD) [27]. Several studies have also compared the performance of both mini-scale applications, i.e., minichannels and minigaps.…”

Section: Introductionmentioning

confidence: 99%

Experimentally Verified Flow Distribution Model for a Composite Modelling System

Fialová

Jegla

2021

Energies

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Requirements of modern process and power technologies for compact and highly efficient equipment for transferring large heat fluxes lead to designing these apparatuses as dense parallel flow systems, ranging from conventional to minichannel dimensions according to the specific industrial application. To avoid operating issues in such complex equipment, it is vital to identify not only the local distribution of heat flux in individual parts of the heat transfer surface but also the uniformity of fluid flow distribution inside individual parallel channels of the flow system. A composite modelling system is currently being developed for accurate design of such complex heat transfer equipment. The modeling approach requires a flow distribution model enabling to yield accurate-enough predictions in reasonable time frames. The paper presents the results of complex experimental and modeling investigation of fluid flow distribution in dividing headers of tubular-type equipment. Different modeling approaches were examined on a set of header geometries. Predictions obtained via analytical and numerical models were validated using data from the experiments conducted on additively manufactured header samples. Two case studies employing parallel flow systems (mini-scale systems and a conventional-size heat exchanger) demonstrated the applicability of the distribution model and the accuracy of the composite modelling system.

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Flow distribution and heat transfer in minigap and minichannel heat exchangers during flow boiling

Klugmann

Dąbrowski

Mikielewicz

2020

Applied Thermal Engineering

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Flow Boiling in Minigap in the Reversed Two-Phase Thermosiphon Loop

Cited by 3 publications

References 33 publications

A New Concept and a Test of a Bubble Pump System for Passive Heat Transport from Solar Collectors

A New Concept and a Test of a Bubble Pump System for Passive Heat Transport from Solar Collectors

Experimentally Verified Flow Distribution Model for a Composite Modelling System

Flow distribution and heat transfer in minigap and minichannel heat exchangers during flow boiling

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