广东化工
廣東化工
엄동화공
GUANGDONG CHEMICAL INDUSTRY
2012年
16期
190-191
,共2页
陈秀宇%陈国奋%杨金杯%陈文韬%余美琼
陳秀宇%陳國奮%楊金杯%陳文韜%餘美瓊
진수우%진국강%양금배%진문도%여미경
吸收%填料塔%吸收效率%操作条件
吸收%填料塔%吸收效率%操作條件
흡수%전료탑%흡수효솔%조작조건
absorption%packing column: efficiency influence: operating condition
文章对现有的填料塔中水吸收CO2体系的操作条件进行分析研究。分析了CO2的浓度,空气流量、吸收剂用量等因素对填料吸收塔的吸收效率的影响,通过单因素和正交实验验证,确定最佳的实验操作条件:空气流量为1.5m^3/h。清水流量为400L/h,CO2流量为40mh。
文章對現有的填料塔中水吸收CO2體繫的操作條件進行分析研究。分析瞭CO2的濃度,空氣流量、吸收劑用量等因素對填料吸收塔的吸收效率的影響,通過單因素和正交實驗驗證,確定最佳的實驗操作條件:空氣流量為1.5m^3/h。清水流量為400L/h,CO2流量為40mh。
문장대현유적전료탑중수흡수CO2체계적조작조건진행분석연구。분석료CO2적농도,공기류량、흡수제용량등인소대전료흡수탑적흡수효솔적영향,통과단인소화정교실험험증,학정최가적실험조작조건:공기류량위1.5m^3/h。청수류량위400L/h,CO2류량위40mh。
The paper embarked a research and analysis on the operating conditions of existing column which the included water can absorb CO2 system. And analyzed the efficiency influence of COils density, factors and so on air flow and absorbent amount used to the padding absorption tower's absorption. Through the single factor and the orthogonal experimental verification, it obtained the best operating condition: the air flow was 1.5 m^3/h, the clear water current capacity was the 400 L/h, and the CO2's current capacity was 40 m^3/h.
