Thermal Science and Engineering Progress is a premier peer-reviewed journal published by ELSEVIER, established to bridge the gap between theoretical and practical advancements within the fields of thermal science and engineering. Since its inception in 2017, this esteemed journal has rapidly ascended to a Q1 ranking in the category of Fluid Flow and Transfer Processes, positioning it among the top 17 of 96 journals in this discipline, as reflected by its impressive 82nd percentile ranking in Scopus. With a focus on disseminating high-impact research, Thermal Science and Engineering Progress aims to foster innovation and collaboration by publishing cutting-edge studies that address both contemporary challenges and future directions in thermal management, energy conversion, and heat transfer technologies. Researchers, professionals, and students alike are invited to explore the wealth of knowledge contained within its pages, which are accessible from its headquarters in Amsterdam, Netherlands. This journal plays a critical role in advancing technological progress and fostering a deeper understanding of thermal processes, making it an essential resource for anyone dedicated to these crucial areas of study.

Journal of Thermal Science and Technology, published by the Japan Society of Mechanical Engineers, is a distinguished open-access journal that has been serving the academic community since its inception in 2009. With a commitment to disseminating cutting-edge research in the realms of thermal science and its engineering applications, the journal has established itself as an essential resource for researchers, professionals, and students alike. Holding important quartile rankings in 2023, including Q3 in Atomic and Molecular Physics, Engineering (miscellaneous), and Materials Science (miscellaneous), this journal showcases high-impact studies that contribute to the advancement of technology and materials engineering. Open access since 2021, it aims to enhance the visibility and accessibility of critical research findings, thus fostering innovation and collaboration within the global scientific community. The journal’s dedicated editorial board actively seeks to publish novel insights that not only engage with existing challenges but also inspire future developments in thermal science and technology.

Nanoscale and Microscale Thermophysical Engineering is a leading scholarly journal published by Taylor & Francis Inc, focusing on the latest advancements in the fields of heat transfer, thermophysical properties, and nanoscale and microscale phenomena. With an ISSN of 1556-7265 and an E-ISSN of 1556-7273, this journal has established itself as a critical resource within the scientific community since its inception in 2006. The journal is ranked in the Q2 category across several disciplines, including Atomic and Molecular Physics, Condensed Matter Physics, Materials Science, and Mechanics of Materials, reflecting its significant contribution to ongoing research and development. Researchers and professionals in related fields benefit from its open access options, facilitating a wider dissemination of innovative findings and methodologies. With a commitment to addressing contemporary challenges in thermophysical engineering at the nanoscale and microscale levels, this journal not only fosters academic discussion but also accelerates technological breakthroughs and applications in various industries.

The Journal of Mechanical Engineering and Sciences (ISSN: 2289-4659, E-ISSN: 2231-8380), published by UNIV MALAYSIA PAHANG, is a prominent open access journal established in 2011, dedicated to advancing the field of mechanical engineering and associated sciences. Covering a wide array of topics from industrial manufacturing processes to computational mechanics, the journal serves as a vital platform for researchers, professionals, and students to disseminate innovative findings and methodologies. With impressive Scopus rankings, including a place in the 60th percentile for Industrial and Manufacturing Engineering, the journal holds a significant position among its peers, facilitating global academic discourse. Located in Kuantan, Pahang, Malaysia, the journal emphasizes accessibility and collaboration within the engineering community, encouraging submissions that contribute to both theoretical and applied aspects of mechanical engineering.

International Journal of Thermophysics, published by Springer/Plenum Publishers, is a premier platform for the dissemination of high-quality research in the field of thermophysics, particularly focusing on the intricate relationships between thermal properties and their applications across various scientific disciplines. With an ISSN of 0195-928X and an E-ISSN of 1572-9567, the journal has established a respected presence in the academic community since its inception in 1980, with a converged publication timeline extending to 2024. Categorized in the Q2 quartile for Condensed Matter Physics in 2023 and maintaining impressive Scopus rankings—such as #39 in Fluid Flow and Transfer Processes and #178 in Condensed Matter Physics—the journal serves as a vital resource for researchers and professionals aiming to advance knowledge in the thermal sciences. Though not an open-access journal, it remains accessible through institutional subscriptions. The International Journal of Thermophysics is committed to fostering innovative research and interdisciplinary collaboration, ensuring that it remains at the forefront of thermophysical studies.

Journal of Engineering for Gas Turbines and Power - Transactions of the ASME, published by the esteemed American Society of Mechanical Engineers (ASME), is a leading interdisciplinary journal dedicated to advancing the fields of energy engineering, aerospace, nuclear energy, and mechanical engineering. With an impressive history dating back to 1960 and continuing its contributions through 2024, this journal boasts a Q2 ranking in multiple engineering categories, reflecting its strong impact on both academia and industry. Although not an open-access journal, it provides invaluable insights and research findings that cater to the needs of professionals, researchers, and students alike. The journal's ISSN is 0742-4795 with an E-ISSN of 1528-8919, ensuring widespread visibility in the global academic community. Indexed in Scopus, it ranks notably within its fields—21st in Nuclear Energy and Engineering and 51st in Aerospace Engineering—underscoring its relevance and contribution to critical technological advancements. Researchers in this domain will find the journal a vital resource for innovative studies, practical applications, and the latest developments related to gas turbines and power generation.

Archives of Thermodynamics is a reputable journal dedicated to the field of thermodynamics, published by the esteemed POLISH ACADEMY OF SCIENCES. With a robust history since its inception in 2003, this journal serves as a critical platform for disseminating high-quality research aimed at advancing knowledge and technology in thermodynamic systems and processes. Recognized for its contribution to the field, it holds a Q3 ranking in the Physics and Astronomy (miscellaneous) category as of 2023, with a respectable Scopus rank of #148 out of 243, placing it within the 39th percentile. Although it follows a traditional access model, the journal's commitment to scholarly excellence ensures that researchers, professionals, and students alike can benefit from its rich archives and ongoing discussions within the scientific community. Situated in Warsaw, Poland, the journal not only reflects a regional dedication to scientific progress, but also engages with global audiences interested in the evolving landscape of thermodynamic research.

HEAT TRANSFER ENGINEERING is a leading international journal published by Taylor & Francis Inc, dedicated to advancing the field of heat transfer and thermal engineering. With a strong focus on the key aspects of Condensed Matter Physics, Fluid Flow and Transfer Processes, and Mechanical Engineering, this journal covers a comprehensive range of topics from experimental studies to theoretical analysis, aiming to foster innovative research and practical applications. Since its inception in 1979 and continuing through 2024, the journal has established itself as an essential resource for researchers and industry professionals alike, reflected in its solid rankings within Scopus—holding a Q2 quartile classification in multiple engineering disciplines. Although not open access, the journal ensures broad accessibility through institutional subscriptions, making cutting-edge research readily available. With its rigorous peer-review process and commitment to quality, HEAT TRANSFER ENGINEERING plays a crucial role in shaping the future of thermal management solutions and engineering practices.

Case Studies in Thermal Engineering, published by ELSEVIER, stands as a premier platform for innovative research and analysis in the field of thermal engineering since its inception in 2013. With a robust Open Access model, this journal ensures that groundbreaking findings in fluid flow and transfer processes are readily accessible to a global audience, fostering collaboration and knowledge sharing across disciplines. Situated in the United Kingdom, the journal boasts an impressive impact factor, reflecting its status in the first quartile (Q1) for both engineering (miscellaneous) and fluid flow and transfer processes, as noted in the latest Scopus rankings. Researchers and professionals alike recognize its significance, ranking 9th out of 96 in Chemical Engineering and achieving a notable 91st percentile in its category. By publishing high-quality case studies, the journal aims to advance understanding and applications of thermal engineering principles, making it an essential resource for those looking to stay at the forefront of this dynamic field.

HEAT TRANSFER RESEARCH is a leading academic journal published by Begell House Inc that focuses on the dynamic and evolving fields of heat transfer, fluid flow, and mechanical engineering. With an ISSN of 1064-2285 and an E-ISSN of 2162-6561, this journal serves as a critical platform for researchers and professionals seeking to disseminate innovative findings and advancements in these interrelated disciplines. Covering converged years from 1992 to 2024, HEAT TRANSFER RESEARCH has established its impact in the academic community, achieving a 2023 ranking of Q3 in Condensed Matter Physics and Q2 in Fluid Flow and Transfer Processes. It currently occupies a percentile rank ranging from 44th to 54th across several Scopus categories, underscoring its relevance and contribution to the scientific discourse. While Open Access options are not available, the journal remains committed to providing high-quality research and insights that shape the future of thermal sciences. Accessible to both seasoned professionals and aspiring students, HEAT TRANSFER RESEARCH is indispensable for anyone looking to stay ahead in the ever-changing landscape of engineering and applied physics.