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About this Research Topic

Abstract Submission Deadline 30 November 2022
Manuscript Submission Deadline 31 January 2023

Heat plays an important role in life and science, with approximately 70% of energy in the universe transferring with heat. Measuring and controlling heat transfer is vital to ensuring efficiency and preventing malfunctions of equipment and devices. The validation and verification of the models can not be done without direct experiments and finding a correlation between heat transfer and related phenomena. That which is mentioned above brings us to the necessity of a precise and scrupulous understanding of heat transfer mechanisms and concomitant phenomenon.

This Research Topic is devoted to discovering, highlighting, and promoting new and original experimental heat transfer research which is of interest to researchers within the field. The main goal of this collection is to bring together knowledge from researchers and scientists who are investigating heat transfer via physical experiments. Discussing experimental results with other experts in the field enables researchers to discover the latest progress made in experimental heat transfer research, and identify key areas for future research. This collection considers only convective heat transfer, processes with an essential contribution of thermal radiation are addressed in other open collections.

All manuscript types that are focused on aspects of experimental heat transfer research are welcome for submission to this Research Topic. Papers should report a significant scientific advance and/or physical insight.

Areas of particular interest to be covered in this Research Topic include, but are not limited to, the following:
• Measurement techniques in heat transfer experiments (e.g. heat transfer coefficient and heat flux)
• Direct heat transfer experiments
• The correlation between heat transfer and the performance of equipment and devices
• Solving problems to enable the lifetime and efficiency of equipment and devices to be increased

Keywords: heat transfer, validation, heat flux, experimental research, pressure, temperature, sensors, velocity


Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.

Heat plays an important role in life and science, with approximately 70% of energy in the universe transferring with heat. Measuring and controlling heat transfer is vital to ensuring efficiency and preventing malfunctions of equipment and devices. The validation and verification of the models can not be done without direct experiments and finding a correlation between heat transfer and related phenomena. That which is mentioned above brings us to the necessity of a precise and scrupulous understanding of heat transfer mechanisms and concomitant phenomenon.

This Research Topic is devoted to discovering, highlighting, and promoting new and original experimental heat transfer research which is of interest to researchers within the field. The main goal of this collection is to bring together knowledge from researchers and scientists who are investigating heat transfer via physical experiments. Discussing experimental results with other experts in the field enables researchers to discover the latest progress made in experimental heat transfer research, and identify key areas for future research. This collection considers only convective heat transfer, processes with an essential contribution of thermal radiation are addressed in other open collections.

All manuscript types that are focused on aspects of experimental heat transfer research are welcome for submission to this Research Topic. Papers should report a significant scientific advance and/or physical insight.

Areas of particular interest to be covered in this Research Topic include, but are not limited to, the following:
• Measurement techniques in heat transfer experiments (e.g. heat transfer coefficient and heat flux)
• Direct heat transfer experiments
• The correlation between heat transfer and the performance of equipment and devices
• Solving problems to enable the lifetime and efficiency of equipment and devices to be increased

Keywords: heat transfer, validation, heat flux, experimental research, pressure, temperature, sensors, velocity


Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.

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