Syngas Production from Coal through Microwave Plasma Gasification: Influence of Oxygen, Steam, and Coal Particle Size
2012
Yoon, Sang Jun | Goo Lee, Jae
Plasma gasification is widely applied because of its clean syngas production performance and high chemical reactivity accelerated by the free radicals produced by plasma. In the present study, the plasma gasification of four kinds of coal with various conditions of O₂/fuel ratio, steam/fuel ratio, and coal particle sizes was performed by using a 2 kW microwave plasma unit. Nitrogen was used as a plasma forming gas. Gasification was conducted with an O₂/fuel ratio of 0–1.3, a steam/fuel ratio of 0–1.5, and a coal particle size of 45–150 μm. With an increasing O₂/fuel ratio, the H₂ composition in the syngas decreased while the CO₂ content increased. The CO composition increased until reaching an O₂/fuel ratio of approximately 0.6, depending on the coal type, and decreased thereafter. CH₄ was not observed in a syngas, which is typical of high temperature plasma gasification. The H₂ and CO₂ contents tend to increase, and the CO content in the product gas decreased with increasing steam/fuel ratio. The syngas composition produced from plasma gasification at same conditions is affected by the physicochemical properties of coals. The Shenhua coal shows highest H₂ production of other coals by plasma gasification. Gasification of coal with high moisture content generates high CO₂ composition in the syngas.
Показать больше [+] Меньше [-]Ключевые слова АГРОВОК
Библиографическая информация
Эту запись предоставил National Agricultural Library