INTERNATIONAL JOURNAL OF MULTIPHASE FLOW, published by Pergamon-Elsevier Science Ltd, is a premier platform dedicated to the dissemination of cutting-edge research in the field of multiphase flow. With an impressive impact factor and ranking in the Q1 category across various disciplines including Fluid Flow and Transfer Processes, Mechanical Engineering, and Physics and Astronomy, this journal serves as a crucial resource for researchers and professionals aiming to advance knowledge and applications in fluid dynamics. Since its inception in 1973, the journal has established a distinguished legacy, providing a venue for high-quality research articles, comprehensive reviews, and technical notes that push the boundaries of current understanding. Although it does not offer Open Access options, its rigorous peer-review process ensures that only the most relevant and significant contributions are published, making it a vital source for students and experts alike striving for excellence in their fields. The journal is based in Kidlington, Oxford, United Kingdom, and continues to be a pivotal part of scholarly discourse in multiphase flow research.

Energy Science & Engineering, published by WILEY, serves as a leading open-access platform for the dissemination of high-quality research and insights in the fields of energy science, engineering, and safety. Since its inception in 2013, this esteemed journal has gained recognition for its impactful contributions, reflected in its impressive impact factor and notable Scopus rankings. As of 2023, it holds a distinguished Q2 category ranking in both Energy (miscellaneous) and Safety, Risk, Reliability, and Quality, showcasing its vital role in advancing interdisciplinary collaboration and innovation. With an open access model, the journal ensures that groundbreaking research reaches a wide audience, fostering discussion and knowledge sharing across academia and industry. The scope of the journal encompasses cutting-edge topics related to energy efficiency, renewable energy technologies, and risk management, making it an essential resource for researchers, professionals, and students aiming to contribute to the evolving landscape of energy science and enhance societal sustainability.

The INTERNATIONAL JOURNAL OF THERMAL SCIENCES is a premier academic journal published by ELSEVIER FRANCE-EDITIONS SCIENTIFIQUES MEDICALES ELSEVIER, focusing on cutting-edge research in the field of thermal sciences. With its ISSN 1290-0729 and E-ISSN 1778-4166, this journal has established itself as a crucial resource for scholars and professionals interested in the thermodynamic principles governing engineering and condensed matter physics. The journal is ranked Q1 in both Condensed Matter Physics and Engineering (miscellaneous), highlighting its exceptional quality and influence, as reflected in its impressive Scopus ranks: #32 out of 307 in General Engineering (89th percentile) and #57 out of 434 in Condensed Matter Physics (86th percentile). Researchers and students alike can benefit from the wealth of articles available, with access options designed to foster a wider dissemination of knowledge within the scientific community. Established in 1973 and ongoing through 2025, the journal invites contributions that advance the understanding of thermal phenomena and their applications, solidifying its importance in driving innovation and insight within these dynamic fields.

Computational Thermal Sciences, an esteemed journal published by BEGELL HOUSE INC, presents cutting-edge research at the intersection of computational mathematics, energy engineering, and fluid dynamics. With an ISSN of 1940-2503 and an E-ISSN of 1940-2554, this journal aims to disseminate high-quality research articles, reviews, and methodologies that improve our understanding of thermal processes and their applications. Renowned for its solid impact in the field, it holds a Q3 ranking in multiple categories including Computational Mathematics and Energy Engineering for 2023. As the field evolves, the journal continues to play a pivotal role in bridging theoretical research with practical innovations, thereby catering to a diverse audience of researchers, professionals, and students. Although it operates on a subscription model, the journal ensures accessibility to significant contributions in thermal sciences from 2009 to 2024, fostering an environment of knowledge sharing and collaboration.

FDMP-Fluid Dynamics & Materials Processing, published by TECH SCIENCE PRESS, stands as a significant contribution to the field of materials science, specifically focusing on the intricate relationships between fluid dynamics and material processing. With an ISSN of 1555-256X and an E-ISSN of 1555-2578, this journal offers an open-access platform where researchers can disseminate their work broadly, promoting collaboration and innovation among professionals and students alike. Established in 2007 and continuously evolving through to 2024, the journal is classified in the Q4 category of materials science, ranking at #347 out of 463 in the Scopus database, signifying its niche yet crucial role in the academic community. By focusing on the dynamic interplay between fluid behavior and material properties, FDMP addresses contemporary challenges and advances in material processing techniques. The journal plays a pivotal role for academics and industry professionals seeking to push the boundaries of knowledge and application in materials science.

INTERNATIONAL JOURNAL OF HEAT AND MASS TRANSFER is a premier, peer-reviewed academic journal published by PERGAMON-ELSEVIER SCIENCE LTD, focusing on the vital fields of condensed matter physics, fluid flow, and transfer processes, as well as mechanical engineering. With an impressive impact factor and consistently ranked in the Q1 quartile across multiple engineering and physics categories, this journal stands out for its rigorous scholarship and relevance to advancements in heat and mass transfer phenomena. Spanning from 1960 to 2024, it serves as a critical platform for researchers and professionals aiming to disseminate innovative findings and foster cutting-edge discussions in these interconnected domains. Though it operates on a subscription model, readers benefit from a comprehensive archive that covers seminal studies and contemporary advancements. Academics and practitioners alike can deepen their understanding of the complex interplay between heat and mass transfer, which is essential for numerous applications in engineering and scientific research.

Acta Mechanica et Automatica is a leading open-access journal published by SCIENDO, dedicated to the dynamic fields of Mechanical Engineering and Control and Systems Engineering. Since its inception in 2012, this journal has provided a vital platform for researchers and professionals to disseminate innovative findings and advances within these disciplines, boasting a convergence of years up to 2024. Based in Warsaw, Poland, the journal has embraced open access since 2013, ensuring broad dissemination of knowledge for the academic community globally. With a current Scopus ranking placing it in the 25th to 31st percentile among its peers, it plays an essential role in fostering scholarly communication and collaboration. The objectives of Acta Mechanica et Automatica include promoting original research, facilitating dialogue between disciplines, and enhancing the understanding of complex mechanical and control systems. This journal is invaluable for researchers looking to explore cutting-edge methodologies, theories, and applications in engineering.

NUMERICAL HEAT TRANSFER PART A-APPLICATIONS, published by TAYLOR & FRANCIS INC, serves as a premier outlet for cutting-edge research in the domains of numerical analysis and condensed matter physics. With an ISSN of 1040-7782 and an E-ISSN of 1521-0634, this esteemed journal has steadily maintained its influence in the academic community since its establishment in 1989, continuing its publication into 2024. Currently ranked in the Q2 quartile for both Condensed Matter Physics and Numerical Analysis, it stands as a vital resource for researchers committed to advancing computational methodologies and applications. The journal's Scopus rankings reflect its growing impact, particularly in mathematics, where it is placed in the top 26% of its category. Although not an open-access journal, its comprehensive research articles and detailed applications foster innovation and collaboration, making it essential for professionals and students aiming to deepen their understanding of thermal transfer phenomena through numerical techniques. This journal not only bridges theory and application but also propels forward the field of heat transfer.

Applied Thermal Engineering is a leading international journal dedicated to the field of thermal engineering, published by Pergamon-Elsevier Science Ltd. With an impressive impact factor indicating its significance in the academic community, this journal focuses on innovative research and developments related to energy engineering, fluid flow, and transfer processes, as well as manufacturing and mechanical engineering. Being indexed in top quartiles (Q1) across multiple categories, it ranks exceptionally well on platforms like Scopus, ensuring that contributors reach a wide and relevant audience. The journal supports both open access and subscription options, promoting the dissemination of vital research findings from 1996 to 2024. With its commitment to advancing the discipline and implementing rigorous peer-review processes, Applied Thermal Engineering serves as an essential resource for researchers, industry professionals, and students aiming to stay abreast of the latest advancements and applied methodologies in thermal science.

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.