Aim and Scope

The aim of the Journal of Energy Conversion is to provide an area for the publication and dissemination of original work that contributes to the understanding of the main and related disciplines of mechanical engineering related to energy conversion and heat transfer. It focuses on both analytical and experimental research, with an emphasis on contributions which increase the basic understanding in Energy Conversion and their application to engineering problems. The Journal covers the whole spectrum of mechanical engineering related to energy conversion, which includes, but is not limited to, Thermal Engineering and Fluids Engineering, Aerospace engineering, Production Engineering, Dynamics, Vibration, Control, Materials and Design Engineering.

Manuscripts may fall into several categories including original research articles, reviews, research notes and technical notes related to the core of mechanical engineering. It is hoped that this journal will prove to be an important factor in raising the standards of discussion, analyses, and evaluations relating to mechanical engineering. All manuscripts with significant research results in the areas of Mechanical Engineering with the emphasis on Energy Conversion and their application are welcome.

Topic included:

    Aerospace Structures
    Analysis & Selection of Materials
    Analytical Methods
    Automation
    Biomechanics
    Casting
    Computational Fluid Dynamic (CFD)
    Characterization
    Kinematics & Mechanisms
    Combined Heat & Power Systems
    Combustion
    Composites
    Compressible Flow
    Control
    Creep
    Damage Mechanics
    Dynamics
    Elasticity & Plasticity
    Energy in Buildings
    Energy Systems Management
    Environment
    Experimental Fluid Mechanics & Heat Transfer
    Fatigue & Failure
    Finite Elements Method
    Fluids Machines
    Fuel Cell
    Gas Dynamics
    Heat & Mass Transfer
    Hydraulic and Pneumatic Systems
    Impact Mechanics
    Industrial Manufacturing
    Instrumentation
    Internal Combustion Engine
    Lattice-Boltzmann Method
    Manufacturing Methods
    Marine Structures
    Mechatronics
    Mesh-less Numerical Methods
    Metal Forming
    Micro & Nano Systems
    Mould & Tool Design
    Non Destructive Test
    Non-Newtonian Fluid Mechanics
    Numerical Control Machines
    Plumbing & Air Conditioning
    Porous Media
    Pressure Vessel
    Production Methods
    Reaction & Multi-Species Flow
    Robotic
    Solar Energy & Radiation
    Sonic Flow
    Stress Analysis
    Thermal Comfort
    Thermal Power Plant
    Thermodynamics
    Turbulence
    Two & Multi Phase Flow
    Vibration
    Welding