制冷技术
製冷技術
제랭기술
REFRIGERATION TECHNOLOGY
2015年
2期
34-38
,共5页
吴琦%马列军%万意%殷宇%崔群%王海燕
吳琦%馬列軍%萬意%慇宇%崔群%王海燕
오기%마렬군%만의%은우%최군%왕해연
吸附制冷%异丁烷%活性炭%改性%直接再生
吸附製冷%異丁烷%活性炭%改性%直接再生
흡부제랭%이정완%활성탄%개성%직접재생
Adsorption refrigeration%Isobutane%Activated carbon%Modification%Direct regeneration
本文对活性炭表面进行氨水改性,对改性前后活性炭表面形貌和孔结构进行表征,测定氨水改性条件对活性炭表面基团含量及碘值的影响,研究改性活性炭对异丁烷的平衡吸附量,考察改性活性炭-异丁烷工质对的直接再生吸附制冷循环性能。结果表明:氨水改性较适宜条件为氨水浓度14 wt%、温度25℃、时间12 h;氨水改性活性炭表面碱性基团含量提高了45.7%,改性活性炭对异丁烷吸附量增加10.8%;改性活性炭-异丁烷工质对直接再生吸附制冷循环吸附量比未改性活性炭提高30.8%。
本文對活性炭錶麵進行氨水改性,對改性前後活性炭錶麵形貌和孔結構進行錶徵,測定氨水改性條件對活性炭錶麵基糰含量及碘值的影響,研究改性活性炭對異丁烷的平衡吸附量,攷察改性活性炭-異丁烷工質對的直接再生吸附製冷循環性能。結果錶明:氨水改性較適宜條件為氨水濃度14 wt%、溫度25℃、時間12 h;氨水改性活性炭錶麵堿性基糰含量提高瞭45.7%,改性活性炭對異丁烷吸附量增加10.8%;改性活性炭-異丁烷工質對直接再生吸附製冷循環吸附量比未改性活性炭提高30.8%。
본문대활성탄표면진행안수개성,대개성전후활성탄표면형모화공결구진행표정,측정안수개성조건대활성탄표면기단함량급전치적영향,연구개성활성탄대이정완적평형흡부량,고찰개성활성탄-이정완공질대적직접재생흡부제랭순배성능。결과표명:안수개성교괄의조건위안수농도14 wt%、온도25℃、시간12 h;안수개성활성탄표면감성기단함량제고료45.7%,개성활성탄대이정완흡부량증가10.8%;개성활성탄-이정완공질대직접재생흡부제랭순배흡부량비미개성활성탄제고30.8%。
The activated carbon surface was modified by ammonia solution. The changes in surface morphology and pore structure of the activated carbon were characterized. The effects of modification conditions on the content of surface functional groups and iodine value were studied. The adsorbed isobutane amount of modified activated carbon was tested. The performance of the activated carbon-isobutane pair for direct regenerative adsorption refrigeration cycle was investigated. The results show that the feasible modification conditions were the ammonia solution concentration of 14 wt%, the temperature of 25oC, and the modification time of 12 h. In comparison with the original activated carbon, the basic functional groups and adsorption capacity for the activated carbon-isobutane were increased by 45.7% and 10.8%, respectively. The adsorption capacity of the modified activated carbon-isobutane pair for direct regenerative adsorption refrigeration cycle was improved by 30.8%than that of the original activated carbon.