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文献清单:“热传递”方向 | MDPI Thermo

期刊名:Thermo

期刊主页:https://www.mdpi.com/journal/thermo

还在为“热传递”领域的前沿动态与文献筛选而困扰吗?MDPI Thermo 精心整理了16篇“热传递”主题优质论文,涵盖数值模拟、实验研究、理论综述与工程应用等多个方向,助你快速把握领域动态,激发科研新思路!

1.

英文标题:

A 2D Moving Mesh Finite Element Analysis of Heat Transfer in Arctic Soils

中文标题:

基于二维动网格有限元方法的北极土壤传热分析

文章链接:https://www.mdpi.com/2673-7264/3/1/5

MDPI引用格式:

Wilber, M.; Hailu, G. A 2D Moving Mesh Finite Element Analysis of Heat Transfer in Arctic Soils. Thermo 2023, 3, 76-93.

2.

英文标题:

Review of the State of the Art for Radial Rotating Heat Pipe Technology Potentially Applicable to Gas Turbine Cooling

中文标题:

径向旋转热管技术在燃气轮机冷却中的研究现状综述

文章链接:https://www.mdpi.com/2673-7264/3/1/9

MDPI引用格式:

Wang, Z.; Turan, A.; Craft, T. Review of the State of the Art for Radial Rotating Heat Pipe Technology Potentially Applicable to Gas Turbine Cooling. Thermo 2023, 3, 127-147.

3.

英文标题:

Optimal Location of the Active Thermal Insulation Layer in the Building Envelope

中文标题:

建筑围护结构中主动式隔热层的最佳位置研究

文章链接:https://www.mdpi.com/2673-7264/3/1/11

MDPI引用格式:

Król, B.; Kupiec, K. Optimal Location of the Active Thermal Insulation Layer in the Building Envelope. Thermo 2023, 3, 176-199.

4.

英文标题:

Preliminary Design of a Space Habitat Thermally Controlled Using Phase Change Materials

中文标题:

基于相变材料热控的空间栖息舱初步设计

文章链接:https://www.mdpi.com/2673-7264/3/2/14

MDPI引用格式:

Borshchak Kachalov, A.; Salgado Sánchez, P.; Martínez, U.; Ezquerro, J.M. Preliminary Design of a Space Habitat Thermally Controlled Using Phase Change Materials. Thermo 2023, 3, 232-247.

5.

英文标题:

CFD-Based Approach to Propose a Zigzag-Shaped Tube Heat Exchanger without Fins

中文标题:

基于CFD的无翅片锯齿形管壳式换热器设计

文章链接:https://www.mdpi.com/2673-7264/3/2/19

MDPI引用格式:

Rayhan, S.; Kariya, K.; Miyara, A. CFD-Based Approach to Propose a Zigzag-Shaped Tube Heat Exchanger without Fins. Thermo 2023, 3, 309-328.

6.

英文标题:

Experimental and Numerical Investigation of the Heat Transfer of Honeycomb-Structured Tubes

中文标题:

蜂窝结构管传热的实验与数值研究

文章链接:https://www.mdpi.com/2673-7264/3/2/21

MDPI引用格式:

Trampe, E.; Büschgens, D.; Pfeifer, H. Experimental and Numerical Investigation of the Heat Transfer of Honeycomb-Structured Tubes. Thermo 2023, 3, 331-345.

7.

英文标题:

A Quasi-Dimensional Model of Heat Transfer between Multi-Concentric Monolith Structures

中文标题:

多同心整体式结构间传热的准维度模型研究

文章链接:https://www.mdpi.com/2673-7264/3/4/31

MDPI引用格式:

Kane, S.P.; Northrop, W.F. A Quasi-Dimensional Model of Heat Transfer between Multi-Concentric Monolith Structures. Thermo 2023, 3, 515-536.

8.

英文标题:

Insights about Modelling Environmental Spatiotemporal Actions in Thermal Analysis of Concrete Dams: A Case Study

中文标题:

混凝土坝热分析中环境时空作用建模的见解:案例研究

文章链接:https://www.mdpi.com/2673-7264/3/4/36

MDPI引用格式:

Leitão, N.S.; Oliveira, S. Insights about Modelling Environmental Spatiotemporal Actions in Thermal Analysis of Concrete Dams: A Case Study. Thermo 2023, 3, 605-624.

9.

英文标题:

Theoretical Characterization of Thermal Conductivities for Polymers—A Review

中文标题:

聚合物热导率的理论表征研究综述

文章链接:https://www.mdpi.com/2673-7264/4/1/4

MDPI引用格式:

Breitkopf, C. Theoretical Characterization of Thermal Conductivities for Polymers—A Review. Thermo 2024, 4, 31-47.

10.

英文标题:

An Evaluation of Correlations for Predicting the Heat Transfer Coefficient during the Condensation of Saturated and Superheated Vapors Inside Channels

中文标题:

通道内饱和与过热蒸汽冷凝传热系数预测关联式的评估研究

文章链接:https://www.mdpi.com/2673-7264/4/2/10

MDPI引用格式:

Shah, M.M. An Evaluation of Correlations for Predicting the Heat Transfer Coefficient during the Condensation of Saturated and Superheated Vapors Inside Channels. Thermo 2024, 4, 164-184.

11.

英文标题:

Numerical Analysis of Transient Burn Injury Grading Through Coupled Heat Transfer and Damage Integral Modeling

中文标题:

基于耦合传热与损伤积分模型的瞬态烧伤等级数值分析

文章链接:https://www.mdpi.com/2673-7264/5/1/4

MDPI引用格式:

Zhang, C.; Ma, X.; Li, M.; Qiu, Y.; Kim, M.K.; Liu, J. Numerical Analysis of Transient Burn Injury Grading Through Coupled Heat Transfer and Damage Integral Modeling. Thermo 2025, 5, 4.

12.

英文标题:

Nusselt Number Dependence on Friction Factor in the Boundary Slip Flow of a Newtonian Liquid Between Parallel Plates

中文标题:

平行平板间牛顿流体边界滑移流动中努塞尔数与摩擦因数的关系

文章链接:https://www.mdpi.com/2673-7264/5/1/7

MDPI引用格式:

Kota, K.; Kuravi, S.; Jayaramu, P. Nusselt Number Dependence on Friction Factor in the Boundary Slip Flow of a Newtonian Liquid Between Parallel Plates. Thermo 2025, 5, 7.

13.

英文标题:

A Novel Capacitive Model of Radiators for Building Dynamic Simulations

中文标题:

用于建筑动态模拟的新型散热器电容模型

文章链接:https://www.mdpi.com/2673-7264/5/1/9

MDPI引用格式:

Calise, F.; Cappiello, F.L.; Cimmino, L.; Dentice d’Accadia, M.; Vicidomini, M. A Novel Capacitive Model of Radiators for Building Dynamic Simulations. Thermo 2025, 5, 9.

14.

英文标题:

Numerical Investigations on Heat and Mass Transport in Passive Solar Evaporators with Non-Uniform Surface Temperature

中文标题:

表面温度非均匀分布的被动式太阳能蒸发器内热质传输的数值模拟研究

文章链接:https://www.mdpi.com/2673-7264/5/2/15

MDPI引用格式:

Sajjad, M.; Zahid, M.; Qaisrani, M.A. Numerical Investigations on Heat and Mass Transport in Passive Solar Evaporators with Non-Uniform Surface Temperature. Thermo 2025, 5, 15.

15.

英文标题:

A Development of the Rosenthal Equation for Predicting Thermal Profiles During Additive Manufacturing

中文标题:

用于预测增材制造过程中温度场的罗森塔尔方程改进

文章链接:https://www.mdpi.com/2673-7264/5/2/16

MDPI引用格式:

Keeley, W.; Turner, R.; Mitchell, B.; Warnken, N. A Development of the Rosenthal Equation for Predicting Thermal Profiles During Additive Manufacturing. Thermo 2025, 5, 16.

16.

英文标题:

Dynamic Exergy Analysis of Heating Surfaces in a 300 MW Drum-Type Boiler

中文标题:

300 MW汽包锅炉受热面的动态火用分析

文章链接:https://www.mdpi.com/2673-7264/5/2/17

MDPI引用格式:

Wang, X.; Wang, C.; Zhu, J.; Wang, H.; Dai, C.; Sun, L. Dynamic Exergy Analysis of Heating Surfaces in a 300 MW Drum-Type Boiler. Thermo 2025, 5, 17.

Thermo期刊介绍

主编:Johan Jacquemin, Mohammed VI Polytechnic University, Morocco

Thermo (ISSN 2673-7264) 是一个国际性、经同行评审的开放获取期刊,涉及热科学的各个方面,发表实验、理论和应用相关的原创研究论文与综述等。创刊于2021年,2023年11月被 Scopus (Elsevier) 数据库收录,2024年5月正式被ESCI (Web of Science) 数据库收录。期刊主题包括但不限于:热量和温度;热力学;相平衡和相变;传热方法:辐射、传导和对流;热性能、热分析、热系统和热管理;储能与节能。

2024 Impact Factor
2.3
2024 CiteScore
3.9
Time to First Decision
23 Days
Acceptance to Publication
4.6 Days

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