Although many serious problems are being caused due to the air pollution and rapid fossil fuel depletion, coal combustion is still a major method for energy generation. Therefore, most heat power plants use pulverized coal as the fuel for steam boilers. Even in this case, however, there are still many problems such as expensive cost of oil, difficulty in its storage and supply, stabilization of ignition and/or burning caused by hot corrosion of surface and heavy metals pollution. These problems require new ways of ignition and burning stabilization.
Due to additional pulverization of coal granules, excitation and dissociation of molecules, and production of free radicals, plasma-assisted combustion technique has drawn considerable attention as a promising method for enhancing combustion.
Plasma-assisted combustion can be classified into equilibrium plasma-assisted combustion (EPAC) and non-equilibrium plasma-assisted combustion (NEPAC). Most equilibrium plasma burners use a plasma torch of arc jet, which has some disadvantages such as fast consumption and frequent replacement of electrodes, complexity of cooling system and low energy efficiency. NEPAC produces incomparably higher vibrational temperature and electron temperature than the translational temperature in non-equilibrium plasmas. Therefore, the non-equilibrium plasma is of particular interest as far as combustion is concerned. The plasma generated by gliding arc discharge that includes both thermal effect and non-equilibrium characteristics is quasi non-equilibrium plasma suitable for fuel combustion.
Ri Thae Nam, a researcher at the Faculty of Physics, built a pulverized coal burner and conducted some experiments, on the basis of the understanding of the characteristics of non-equilibrium plasma generated by gliding arc discharge.
First, he performed a test on the experimental set-up composed of a plasmatron and a burner using gliding arc discharge with two electrodes. He drew distinctive temperature distribution curves at four measuring points of the set-up and confirmed the combustion possibility of low-grade coal. Then, he constructed a combustion system of pulverized coal for boiler ignition and obtained stabilized pulverized coal flame through the secondary burner. Finally, he analyzed the possibility and advantage of boiler ignition by the proposed combustion system in contrast to that of heavy oil or natural gas.
The analysis results showed that the introduction of the proposed combustion system could bring major economical effects by reducing the energy needed for ignition and combustion of coal.