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生化战剂除剂方法 被引量:7
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作者 谭碧生 彭汝芳 +3 位作者 陈晓明 李海波 郁卫飞 楚士晋 《重庆大学学报(自然科学版)》 EI CAS CSCD 北大核心 2006年第8期127-131,共5页
综述了生化战剂除剂的几种方法,常规方法包括焚烧、等离子体高温分解、氢解、超临界水氧化、超热漂白等高温除剂方法和水解、氨解、电化学氧化、溶剂化电子技术、非水溶剂取代、光化学氧化等低温除剂方法.从实战出发可以采用高温燃烧弹... 综述了生化战剂除剂的几种方法,常规方法包括焚烧、等离子体高温分解、氢解、超临界水氧化、超热漂白等高温除剂方法和水解、氨解、电化学氧化、溶剂化电子技术、非水溶剂取代、光化学氧化等低温除剂方法.从实战出发可以采用高温燃烧弹、微乳液等方法,若需有效摧毁地下深埋的生化武器,可采用核除剂的方法,即利用低当量核爆炸产生的高温、高压和强辐射等效应原位摧毁生化战剂,其附带毁伤效应要比常规除剂方法小得多. 展开更多
关键词 生化战 除剂方法 高温除剂 低温除剂 除剂
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HCl Dry Removal with Modified Ca-Based Sorbents at Moderate to High Temperatures 被引量:2
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作者 DezhenChen XiongpingWang +1 位作者 TongZhu HeshengZhang 《Journal of Thermal Science》 SCIE EI CAS CSCD 2003年第3期283-288,203,共7页
Modified Ca-based sorbents were obtained by adding sodium alkali into Ca(OH)2 and CaCO3. Reactive properties of modified Ca-based sorbents with acidic gases were investigated through reacting with gaseous HC1 at 450-... Modified Ca-based sorbents were obtained by adding sodium alkali into Ca(OH)2 and CaCO3. Reactive properties of modified Ca-based sorbents with acidic gases were investigated through reacting with gaseous HC1 at 450-760℃, and SEM and XRD technologies were adopted to get information on the reaction mechanism. Experimental data showed that HC1 dry removal efficiencies increased with temperature before 700℃ for all of the investigated sorbents, and there existed improved sorbents that corresponded to the highest removal efficiencies under the similar conditions. SEM photographs exhibited morphology difference between original and improved sorbents both before and after the reaction; and displayed that improved sorbents formed more porous product layers than original sorbents especially at higher temperature when product sintering became heavier, which is favorable to HC1 dry removal. XRD analysis showed that (1) improved Ca(OH)2 and CaCO3 were less crystalline than original lime and limestone; (2) the reaction product species of improved Ca(OH)2 changed with reaction temperature, while for original Ca(OH)2 the same product species appeared for all of the tested temperatures; and (3) for improved CaCO3, the only product at lower temperatures was CaCl2.2H2O and more product species were produced when temperature was higher than 650℃, but no CaCl2.Ca(OH)2.H2O formed at 700℃, while for the case of original CaCO3, the undesired CaCl2.Ca(OH)2.H2O appeared at 700℃. Presently, reaction temperature interval of 650-700℃ is recommended for improved Ca(OH2) to get the highest efficiency, for improved CaCO3 reaction at higher temperature deserves further investigation to make a good choice. 展开更多
关键词 HC1 dry removal improved Ca(OH)2 and CaCO3 Ca-based sorbent reaction temperature product species
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