摘要
H2S在天然气、焦炉煤气和半水煤气等工业气体中是一种有害杂质,它不仅对输运管路、设备等造成腐蚀,影响后续加工过程(如导致催化剂中毒),而且更严重地威胁人身安全,属必须控制的环境污染源之一。迄今为止的脱硫工艺包括干法和湿法两大类,干法工艺通常适用于低含硫气体处理,大部分干法工艺所用脱硫剂均不能再生;相比之下,湿法工艺脱硫负荷高。湿法工艺包括吸收法和湿式氧化法,尽管以醇胺吸收为代表的化学吸收法早已在工业中得到应用,但吸收法实质上只是对气体中的H2S进行提浓,尚需作进一步处理,而且该法工艺本身还存在腐蚀、溶液降解及发泡等操作困难;湿式氧化法脱硫效率高,可将H2S一步转化为单质硫,是当前脱硫工艺的发展前沿。从目前看,铁基工艺较有发展前途,但寻找廉价、高效、易再生、组成简单、稳定性好的新型脱硫剂仍然是湿式氧化法发展的突出热点。
H2S is a harmful impurity in the industrial gases as the natural
gas,cokeeven gas and semiwater gas.It can not only cause the pipeline and equipment to be
corroded so as to influence the followup processing (as leading to catalyst poisoning) but also
seriously threaten the personal safety,belonging to one of the enviromental pollution sources
which must be controlled.Up to now,the desulfurizing technology is composed of the dry
process and wet process,the former is suitable for treating the low sulfureous gas in general
and most of the desulfurizers used for the dry process can't be regenerated;the desulfurization
load by the latter is high in comparison with the former.The wet process includes the adsorption
method and wet oxidization method.Although the chemical adsorption method (being mainly
hydramine adsorption) was adopted in industry long ago,the method is only to make the H2S in
gas be concentrated essentially,a further treatment being needed;and there are some operating
difficulties as the corrosion,solution degradation and foaming,etc.,in the method.The wet
oxidization method with high effectiveness,however,may make the H2S be transformed into
element sulfur in one step,being the developing trend of the desulfurization technology at
present.According to the existing situation,the ironbase technology has a great future,but the
outstanding focus of developing the wet oxidization method is still to look for a new desulfurizer
which is of low price,high effectiveness,simple composition and good stability,being easy to be
regenerated.
出处
《天然气工业》
EI
CAS
CSCD
北大核心
1999年第3期84-90,共7页
Natural Gas Industry
基金
石油科技中青年创新基金
关键词
工业气体
硫化氢
腐蚀
脱硫
气体净化
Industry,Gas,Hydrogen sulfide
corrosion,Desulfurization,Method,Technology,Developing trend
