Aim and Scope
Thematic Energy Journal (TEJ) is peer reviewed journal publishes original research and review papers, book reviews, innovations and case studies in 04 Thematic Issues per year. We welcome the articles on following topics.
Thermal and Fluid Energy
- Combustion and power generation
- Control of thermal and fluid systems
- Energy conversion, distribution and storage
- Energy efficient buildings
- Fluid mechanics of ocean, tidal, wave energies
- Gas turbines and steam turbines
- Heat and mass transfer
- Heat exchangers, heat pumps and heat pipes
- Heating and cooling
- Hydraulic systems
- Modelling, predication and evaluation of fluid and thermal systems
- Ocean thermal, bio, nuclear, fossil and geothermal energies
Solar Energy
- Controls for solar systems
- Materials for solar systems
- Modelling and optimization of solar systems
- Real time monitoring of solar power plants
- Recent solar MPPT control systems
- Recent solar system design and simulation techniques
- Smart solar grid connections
- Solar concentrators
- Solar energy for smart cities
- Solar energy storage
- Solar photovoltaic systems
- Solar thermal systems
- Solar tracking systems
Wind Energy
- Advanced protection systems
- Aerodynamics of wind turbine
- Grid connections of wind turbines
- Materials for wind turbines
- Modelling, predication and evaluation of wind turbines
- Real time monitoring of wind farms
- Simulation and optimization of wind farms
- Standalone wind turbines
- Wind turbine control systems
- Wind turbine power performance
- Wind turbines electrical and electronics systems
- Wind turbines fault detection
- Yaw and pitch control systems for wind turbines
Energy Efficiency in Automobile
- Alternative fuels, energy efficiency and emissions
- Computation and experiments for energy efficient automobile
- Electric vehicles
- Emerging smart methods for energy efficient automobiles
- Energy efficient materials for automobile
- Fuels and efficiency
- Green automobile systems
- Modelling, predication and evaluation of automotive systems