• Numerical Investigations on the Start-Up Characteristics and Heat Transfer Performance of a Single-Loop Oscillating Heat Pipe With Different Surface Wettable Vertical Tubes 

  Chinchedu, Raghuvaran; Kumar K., Kiran; V. P., Chandramohan (The American Society of Mechanical Engineers (ASME), 2025)

  The heat transfer performance of an oscillating heat pipe (OHP) was significantly enhanced by changing the inner wall surface wettability and filling ratios. Among the various wettability types, a hybrid surface, where the ...
• Predictions of Cell-to-Cell Propagation and Vent Gas Production in the Thermal Runaway of Lithium-Ion Battery Stacks 

  Qatramez, Ala' E.; Kurzawski, Andrew; Hewson, John; Meehan, Michael; Foti, Daniel; Headley, Alexander J. (The American Society of Mechanical Engineers (ASME), 2025)

  This work presents the thermal runaway propagation model LIM1TR (Lithium-ion Modeling with 1-D Thermal Runaway) as an efficient tool to predict different cell-to-cell thermal runaway propagation scenarios. We explored the ...
• Thermomagnetic Bioconvection Flow in a Semitrapezoidal Enclosure Filled With a Porous Medium Containing Oxytactic Micro-Organisms: Modeling Hybrid Magnetic Biofuel Cells 

  Venkatadri, K.; Rajarajeswari, P.; Anwar Bég, O.; Ramachandra Prasad, V.; Leonard, H. J.; Kuharat, S. (The American Society of Mechanical Engineers (ASME), 2025)

  Hybrid fuel cells are becoming increasingly popular in 21st century energy systems engineering. These systems combine multiple features including various geometries, electromagnetic fluids, bacteria (micro-organisms), ...
• Numerical Study on Transient Flow Boiling Performance of the Microchannels With Grooved Pin Fins 

  Wang, Shuang; Ke, Zhiwu; Zheng, Wei; Lin, Mei; Wang, Qiuwang (The American Society of Mechanical Engineers (ASME), 2024)

  The microchannel flow boiling cooling technology has excellent developmental potential in high heat flux electronic devices. Saturated flow boiling in a microchannel with V-shaped grooved pin fins is simulated using the ...
• Aircraft Ducted Heat Exchanger Aerodynamic Shape and Thermal Optimization 

  Adler, Eytan J.; Lamkin, Andrew H. R.; Martins, Joaquim R. R. A. (The American Society of Mechanical Engineers (ASME), 2024)

  Interest in aircraft electrification and hydrogen fuel cells is driving demand for efficient waste heat management systems. Ultimately, most of the heat must be rejected to the freestream air. Ducted heat exchangers, also ...
• Exergy and Entropy Analysis of Heat Exchanger Under Mechanical Vibration and Magnetic Field 

  Bhatt, Tapasvi; Shah, Jainil; Jain, Naman; Bhattacharyya, Suvanjan (The American Society of Mechanical Engineers (ASME), 2024)

  The present study primarily investigates the exergy and entropy generation in a heat exchanger influenced by the combined effects of mechanical vibrations and magnetic fields. A rectangular channel with dimensions 40 mm ...
• Noncontact SThM Thermal Conductivity Measurements of GeSbTe Thin Films Sputtered on Silicon and Glass Substrates 

  Zhang, Yun; Choudhary, Ankit; Zhu, Wenkai; Efstathiadis, Harry; Yang, Bao; Borca-Tasciuc, Theodorian (The American Society of Mechanical Engineers (ASME), 2025)

  Chalcogenide materials based on germanium–antimony–tellurium (GST) are typically used in phase change memory (PCM) applications. The thermal conductivity of GST films is an important factor in predicting the temperature ...
• Experimental Investigation of Heat Transfer to Supercritical Pressure Fluid in Tubes With Rough Inner Surface 

  Wiltschko, Fabian; Cheng, Xu (The American Society of Mechanical Engineers (ASME), 2025)

  The highly corrosive environment inside a supercritical water-cooled reactor (SCWR) places stringent demands on the fuel rod cladding material, particularly requiring it to have strong corrosion resistance. However, within ...
• Modeling Microwave-Enhanced Chemical Vapor Infiltration Process for Preventing Premature Pore Closure 

  Ge, Wenjun; Ramanuj, Vimal; Li, Mengnan; Sankaran, Ramanan; She, Ying; Dardas, Zissis (The American Society of Mechanical Engineers (ASME), 2024)

  The chemical vapor infiltration (CVI) process involves infiltrating a porous preform with reacting gases that undergo chemical transformation at high temperatures to deposit the ceramic phase within the pores, ultimately ...
• Physics-Informed Bayesian Neural Networks for Solving Phonon Boltzmann Transport Equation in Forward and Inverse Problems With Sparse and Noisy Data 

  Li, Ruiyang; Zhou, Jiahang; Wang, Jian-Xun; Luo, Tengfei (The American Society of Mechanical Engineers (ASME), 2024)

  Nondiffusive phonon transport presents significant challenges in micro/nanoscale thermal characterization, compounded by the limitations of experimental-numerical techniques and the presence of measurement noise. Additionally, ...
• Closed-Form Solutions of Injection-Driven Flow and Heat Transfer Inside an Inclined Horizontal Filter Chamber 

  Lekoko, Modisawatsona Lucas; Magalakwe, Gabriel; Motsepa, Tanki (The American Society of Mechanical Engineers (ASME), 2024)

  The closed-form solutions of models provide operators and designers with a better understanding of how the systems perform practically, thus improving critical industrial production operations. Due to this importance, the ...
• The Effect of U-Bend Zone, Rotation, and Corrugation on Two-Pass Channel Flow 

  Abdulrasool, Ali A.; Kurji, Hayder J.; Kadhim, Thualfaqir J. (The American Society of Mechanical Engineers (ASME), 2024)

  Further consideration on the two-pass channel flow is still necessary due to the complexity of 180-deg turn, rotation, and wall ribs. Numerical investigations have repeatedly revealed differences from experiments, with the ...
• Equivalent Circuits for Exergy Flow in Thermodynamic Systems 

  Kocher, Jordan D.; Yee, Shannon K. (The American Society of Mechanical Engineers (ASME), 2024)

  The second law of thermodynamics explains the nature of all spontaneous processes, and it imposes a limit on the performance of all technologies, from heat engines to refrigerators. These limits are well described as early ...
• Experimental Study on Flow and Thermal Transport in Additively Manufactured Lattices Based on Cube-Shaped Unit Cell 

  Singh, Prashant; Aider, Youssef; Phanikumar, Mantha S.; Mahajan, Roop L. (The American Society of Mechanical Engineers (ASME), 2024)

  This paper presents the convective heat transfer coefficient of cubic lattices under both buoyancy-induced and forced convection. Additionally, it examines the effective thermal conductivity, permeability, and inertial ...
• Data Generation and Training of Surrogate Models for Friction Factor and Nusselt Number in Low Reynolds Number Flows Through Pin Fin Geometries 

  Pai, Saeel S.; Navaresse, Bruno; Weibel, Justin A. (The American Society of Mechanical Engineers (ASME), 2024)

  The design of various biomedical, electronics cooling, and microfluidic devices relies on geometry-specific models and empirical correlations for flow and heat transfer through microscale pin fin geometries. Machine learning ...
• Identification of the Onset of Bifurcations in a Trapezoidal Cavity Receiver Open at the Top 

  Saxena, Ashish; Mishra, Saurabh; Maurya, Govind; Singh, Suneet; Pandey, Vikas (The American Society of Mechanical Engineers (ASME), 2024)

  Stability analysis of buoyancy-driven convective flow in the trapezoidal cavities is essential for efficient heat transfer in solar evaporators. In the present analysis, the symmetry breakdown pitchfork and Hopf bifurcations' ...
• An Exact Solution Based on a Three-Energy Equation Model for Gaseous Transpiration Cooling Through a Bi-Disperse Porous Medium 

  Bai, Xiaohui; Zheng, Zihao; Liu, Cunliang; Nakayama, Akira (The American Society of Mechanical Engineers (ASME), 2025)

  A local thermal nonequilibrium analysis was made to assess the potential use of bi-disperse porous walls for a transpiration cooling system. A three-energy equation model successfully used for the transient thermal analysis ...
• Solidification of a Liquid Column Between Two Rods of Unequal Sizes and Different Temperatures 

  Ho, Nang X.; Nguyen, Vinh T.; Vu, Truong V. (The American Society of Mechanical Engineers (ASME), 2025)

  A liquid column hanging between two surfaces (e.g., rod ends) appears in many engineering applications. This study focuses on its solidification with volume expansion through the use of an axisymmetric front-tracking method. ...
• Simultaneous Mapping of Bubbling Regimes and Thermal Layer During Direct Contact Condensation of Steam Using Gradients-Based Approach 

  Singhal, Anant; Tom, S.; Khan, A. A.; Srivastava, Atul; Agarwal, Deepak K.; Atrey, M. D. (The American Society of Mechanical Engineers (ASME), 2025)

  Direct contact condensation experiments of steam in subcooled water are carried out for subcooling levels of ΔTsub= 20 °C, 30 °C, and 40 °C with a steam injection mass flux of 20 kg/m2 s. Rainbow schlieren deflectometry ...
• Enhancing Thermal Transport in Polymeric Composites Via Engineered Noncovalent Filler–Polymer Interactions 

  Zhou, Yijie; Hertog-Raz, Dina; Raza, Saqlain; Transtamar, Josh; Abarca, Benjamin; Wang, Yangyang; Liu, Jun; Xu, Yanfei (The American Society of Mechanical Engineers (ASME), 2025)

  Understanding thermal transport mechanisms in polymeric composites allows us to expand the boundaries of thermal conductivity in them, either increasing it for more efficient heat dissipation or decreasing it for better ...

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