针对我国电厂烟气治理的现状,进行了微波诱导催化还原脱硫、脱硝实验研究。
Experimental study on microwave induced catalyzed reduction (MW icr) for desulfurization and denitrification was carried out according to the status of flue gas control in our country.
微波照射活性炭后,其孔隙结构和表面官能团发生明显变化,同时存在诱导催化,可降低反应活化能。
The pore structure and surface functional group of activated carbon are significantly changed by microwave radiation. The activation energy is reduced as a result of induced catalysis.
结果表明,二烯值大、酚含量低是加氢渣油催化裂化汽油诱导期短的主要原因。
Results show that the main causes of low induction period of cracked naphtha are the high diene number and low phenol content.
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