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Aims & Scope

Aims

Mansoura Engineering Journal(MEJ) is a multidisciplinary engineering journal that has served as a foundational hub for innovative research contributions for more than 45 years. The journal continues to disseminate high-quality research advances across all disciplines of engineering.

MEJ is a freely accessible, double-blind peer-reviewed journal that publishes original research articles, case studies, and review papers covering all areas of engineering. The journal seeks high-quality theoretical and experimental research that advances knowledge and addresses gaps in the existing literature, making published work visible and accessible to researchers worldwide. .

Vision

MEJ seeks to advance research across all fields of engineering by publishing high-quality, peer-reviewed articles that serve academics, researchers, practitioners, and policy decision-makers. The journal endeavors to help the academic community by providing opportunities for discussion and exchange of ideas across a wide spectrum of scholarly opinions to promote theoretical, empirical, and comparative research that addresses current and future engineering challenges.

Mission

MEJ is committed to strengthening the global research community by collaborating with academic societies, institutions, and researchers to support the exchange of impactful scientific discoveries. Through partnerships with authors, libraries, and research organizations, MEJ facilitates the generation, dissemination, and accessibility of scholarly knowledge that contributes to solving pressing engineering challenges.

The Journal aims to:

  • Publish rigorous, high-quality, and accessible material efficiently and in a timely manner, supporting scientific progress, lifelong learning, and career development.
  • Serve as a leading platform in international engineering science discussions across all engineering disciplines.
  • Establish itself as one of the world’s most influential and widely read engineering journals

Scope

MEJ is an international journal with a broad scope covering all areas of engineering research and development, including but not limited to the following fields:

  1. Architecture Engineering:

    2. Architectural design and theory; building ventilation and environmental control systems; urban planning and design; landscape architecture; green and sustainable buildings; existing building renovation; architectural heritage conservation; Islamic architecture.

  2. Civil Engineering:

    3. Structural engineering; geotechnical engineering; reinforced concrete and steel structures; surveying engineering; road and traffic engineering; transportation planning, railway engineering; water resources engineering; irrigation structures; hydraulics; construction management; infrastructure engineering; earthquake engineering.

  3. Environmental Engineering:

    4. Water resources management; remote sensing applications; waste management and waste valorization; water and wastewater treatment; hazardous materials management; air pollution control; pollutant dispersion modeling; nanotechnology for environmental remediation.

  4. Electrical Engineering:

    5. Electrical power systems; power generation, transmission and distribution; smart grids and renewable energy integration; power electronics and electrical machines; energy storage and high voltage engineering; power system protection and reliability. computer and systems engineering; embedded and real-time systems; internet of things (iot); cyber-physical systems; artificial intelligence and machine learning applications. electronics and communications engineering; analog and digital electronics; microelectronics and vlsi; wireless and optical communications; signal processing; antennas and propagation. photonics and optoelectronics; laser systems; optical sensors; photonic devices and integrated circuits.

  5. Mechanical Engineering:

    6. Mechanical power engineering; production and manufacturing design; mechatronics engineering; industrial engineering and materials; mining and geotechnical engineering.

  6. Textile Engineering:

    7. Textile materials and performance evaluation; fiber science and technology; technical and smart textiles; production control and management; functionalization of textile materials; polymer technology; nanotechnology applications in textiles.

  7. Natural Science Engineering:

    8. Engineering mathematics; engineering physics; chemical engineering; renewable energy engineering; geology.

  8. Biomedical Engineering:

    9. Bioinformatics; biomaterials; biomechanics and mechanobiology; biomedical signal processing; biomedical imaging and devices; electrocardiographic systems; hearing aids and assistive technologies; medical devices and instrumentation.

  9. Interdisciplinary Fields of Engineering Sciences:

    10. Nanotechnology applications across engineering fields; renewable energy systems; intelligent engineering systems; machine learning and data-driven engineering applications.