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Review
Thermodynamics
Sihui Hong et al.
Summary: With the development of space science and technology, the possibility of expanding astronaut planetary bases and using extraterrestrial resources has emerged. This paper reviews the literature on two-phase flow and heat transfer performance under microgravity, aiming to collect and organize key data and summarize the differences in two-phase boiling between normal gravity and microgravity conditions. The investigation results show a general deterioration in heat transfer under microgravity, with larger bubble size and delayed detachment periods as possible causes. The lack of correlations and mechanistic models in related theories and inconsistent experimental conclusions have compromised the establishment of space thermal management systems.
EXPERIMENTAL THERMAL AND FLUID SCIENCE
(2023)
Review
Multidisciplinary Sciences
Arianna Berto et al.
Summary: This paper provides a comprehensive review of experimental and numerical studies on filmwise and dropwise condensation under microgravity. The influence of gravity on condensation heat transfer is analyzed, and methods to mitigate this effect are discussed. For dropwise condensation, alternatives to gravity-dependent liquid removal are explored, such as using high vapor velocity or condensing surfaces with specific properties. Experimental investigations under zero-gravity conditions can compensate for the lack of repeatable data and contribute to the development of reliable design tools for space applications.
Article
Thermodynamics
Jin Yao Ho et al.
Summary: Recent advancements in surface nano-engineering have sparked interest in enhancing condensation heat transfer. Nano-engineered surfaces can achieve efficient transport and improve condensation of low surface tension fluids, and scalable nanofabrication methods enable real-world applications. This review discusses the progress, opportunities, and challenges of enhancing condensation heat and mass transfer with nano-engineered surfaces, highlighting the importance of durable, scalable, and low-cost surface structuring methods for large-scale industrial implementation.
JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME
(2022)
Article
Thermodynamics
Jeremie Lethuillier et al.
Summary: Numerical simulations were used to investigate the conduction heat transfer in a sessile droplet. It was found that the accuracy of the numerical results decreases as the Biot number increases. To obtain accurate results, a reference case was established to determine the necessary local mesh refining analytically. The results were further validated using a Monte Carlo method. A correlation was derived from the numerical results data with a maximum deviation of less than 4%. Comparisons with other laws in literature revealed significant discrepancies.
APPLIED THERMAL ENGINEERING
(2022)
Review
Green & Sustainable Science & Technology
Mohamed H. Mousa et al.
Summary: This review investigates the effect of heat transfer enhancement techniques on different fluids, categorizing them into passive and active methods. Passive techniques utilize geometrical and surface modifications for better mixing, while active techniques apply power for heat transfer enhancement. Although active techniques provide better results, passive techniques are more frequently adopted due to implementation difficulties. The review also discusses the implications of heat exchange enhancement in the context of global energy and predicts the future potential for renewable and sustainable development. Additionally, it mentions the reliance on additive manufacturing for next-generation heat exchangers.
RENEWABLE & SUSTAINABLE ENERGY REVIEWS
(2022)
Article
Chemistry, Multidisciplinary
Anthony Katselas et al.
Summary: This study quantifies the effect of surface wettability on droplet nucleation site density, provides a method to predict the nucleation site density, and investigates the growth and coalescence behavior of droplets.
ADVANCED MATERIALS INTERFACES
(2022)
Article
Thermodynamics
Arianna Berto et al.
Summary: Considering the increasing complexity of future space missions and the need for high heat dissipation rates with reduced power input, size, and weight, this study experimentally investigates the effect of gravity on condensation. The results show that the change in gravity level leads to a decrease in heat transfer performance, with a more severe effect at lower mass velocities.
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
(2022)
Article
Chemistry, Multidisciplinary
Xiao Yan et al.
Summary: Our study demonstrates that condensation in a microscale gap formed by surfaces having a wetting contrast can overcome the limitations of dropwise condensation. The experiments, theoretical analysis, and numerical simulation show a significant enhancement in heat transfer efficiency compared to classical condensation, promising applications in compact energy and water systems.
Article
Thermodynamics
Marco Tancon et al.
Summary: A new experimental apparatus for investigating dropwise condensation from humid air on a vertical aluminum surface is presented. The effects of various factors on heat and mass transfer during dropwise condensation are investigated. The results show that the coated surface enhances condensation, but its advantage diminishes with increased humidity and subcooling. Time-lapse videos are used to study droplet population and nucleation sites density, and the experimental results are compared with predicted results to improve dropwise condensation models.
EXPERIMENTAL THERMAL AND FLUID SCIENCE
(2022)
Article
Thermodynamics
Marco Tancon et al.
Summary: The promotion of dropwise condensation (DWC) provides an effective strategy to improve heat transfer coefficient (HTC) compared to filmwise condensation (FWC). This study experimentally investigates the effect of steam velocity on DWC and finds that it can affect droplet population and size distribution, resulting in changes in condensation HTC. A model is proposed to estimate the droplet departing radius in the presence of vapor velocity and is coupled with available models for droplet population and heat transfer to simulate the entire DWC process. The proposed calculation method is capable of predicting the effect of vapor velocity on DWC heat transfer coefficient.
APPLIED THERMAL ENGINEERING
(2022)
Article
Thermodynamics
Chongyan Zhao et al.
Summary: Dropwise condensation has attracted extensive interest due to its potential in enhancing power generation, water harvesting, and thermal management systems. Microscale-confined condensation (MCC) presents a promising method to overcome the limitations of dropwise condensation by decoupling droplet nucleation and growth from condensate removal. MCC achieves this by enabling spontaneous condensate transfer and limiting the maximum droplet size. Through numerical simulations, it is found that smaller surface gaps and smaller condensing surface contact angles are favorable for achieving higher heat transfer rates in pure vapor condensation conditions.
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
(2022)
Article
Chemistry, Multidisciplinary
Abinash Tripathy et al.
Summary: The perfluorodecanethiol (PFDT) coating has demonstrated superior performance in terms of heat transfer and durability compared to other organic coatings such as perfluorodecyltriethoxysilane (PFDTS) and perfluorodecyl acrylate (PFDA). Despite being a monolayer, the PFDT coating exhibited dropwise condensation for at least 63 hours without deterioration, showcasing its hydrolytic stability. Additionally, the cost of thiol functionalization per area was the lowest among the surface hydrophobic treatments used in the study.
Review
Thermodynamics
Dong Ho Nguyen et al.
Summary: This paper discusses the methods of improving heat exchanger thermal-hydraulic efficiency through micro/nanoscale surface modification techniques. The results show that modified surfaces have great potential in enhancing heat transfer efficiency in heat exchangers by inducing turbulence and fluid mixing.
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
(2021)
Article
Thermodynamics
Marco Tancon et al.
Summary: Dropwise condensation is a complex phenomenon involving droplet nucleation, coalescence and motion. Limited studies have investigated the effect of vapor velocity on heat transfer coefficient and droplet departing radius during DWC.
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
(2021)
Article
Multidisciplinary Sciences
Hyeongyun Cha et al.
Article
Thermodynamics
Riccardo Parin et al.
APPLIED THERMAL ENGINEERING
(2020)
Article
Chemistry, Multidisciplinary
Jeremie Lethuillier et al.
Article
Chemistry, Multidisciplinary
Xiao Yan et al.
Article
Chemistry, Multidisciplinary
Patrick Birbarah et al.
Article
Chemistry, Multidisciplinary
Kimberly A. Stevens et al.
Article
Thermodynamics
Riccardo Parin et al.
INTERNATIONAL JOURNAL OF THERMAL SCIENCES
(2019)
Article
Materials Science, Coatings & Films
Riccardo Parin et al.
SURFACE & COATINGS TECHNOLOGY
(2018)
Article
Nanoscience & Nanotechnology
Chander Shekhar Sharma et al.
ACS APPLIED MATERIALS & INTERFACES
(2018)
Article
Thermodynamics
D. Del Col et al.
INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER
(2017)
Review
Thermodynamics
Mahesh Suresh Patil et al.
APPLIED THERMAL ENGINEERING
(2017)
Article
Chemistry, Multidisciplinary
Shreyas Chavan et al.
Article
Thermodynamics
Rongfu Wen et al.
APPLIED THERMAL ENGINEERING
(2015)
Article
Thermodynamics
Alberto Bisetto et al.
EXPERIMENTAL THERMAL AND FLUID SCIENCE
(2015)
Review
Energy & Fuels
Daniel Attinger et al.
MRS ENERGY & SUSTAINABILITY
(2014)
Article
Thermodynamics
Nenad Miljkovic et al.
JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME
(2013)
Article
Thermodynamics
Sunwoo Kim et al.
JOURNAL OF HEAT TRANSFER-TRANSACTIONS OF THE ASME
(2011)
Article
Thermodynamics
Alfred Leipertz et al.
HEAT TRANSFER ENGINEERING
(2008)
Article
Chemistry, Physical
A. I. ElSherbini et al.
JOURNAL OF COLLOID AND INTERFACE SCIENCE
(2006)
Review
Thermodynamics
JW Rose
PROCEEDINGS OF THE INSTITUTION OF MECHANICAL ENGINEERS PART A-JOURNAL OF POWER AND ENERGY
(2002)
