摘要
旨在探索一种非平衡状态下SO2 转化为SO3 技术的工业性应用的全新脱硫理念。转化原理是:在绝热的反应器内通过瞬间提高介质温度,促使气体分子、原子团、及电子进入化学动力学的非平衡状态,导致化学反应物的浓度向超饱和过渡,形成质的转化。除简述非平衡状态的转化理论及试验设施外,还着重分析了试验结果和这一技术的应用前景。
Guided by brand new ideas of desulphurization, an industrial way of realizing the conversion of SO_3 into SO_2 under non-equilibrium conditions is being probed. The principle of the conceived transformation is as follows:gas molecules, atomic nuclei and electrons of a medium in an adiabatic isolated reactor, enter a state of chemically dynamic non-equilibrium by swiftly raising the medium's temperature, wherewith causing the reagents' concentration to get oversaturated, followed by a qualitative change. Besides presenting a brief explanation of the theory of transformation under non-equilibrium conditions and desribing the test facilities used, test results are being analyzed, accompanied by an indication of prospective application. Figs 5, tablel and refs 5.
出处
《动力工程》
CSCD
北大核心
2005年第3期433-436,共4页
Power Engineering
关键词
环境工程学
非平衡状态
瞬间温升
SO2转换
硫酸回收
锅炉脱硫
environmental engineering
non-equlibrum conditions
swift temperature rise
SO_2 transformation
retrieval of sulfuric acid
boiler desulfurization
