大连理工大学学报
大連理工大學學報
대련리공대학학보
JOURNAL OF DALIAN UNIVERSITY OF TECHNOLOGY
2014年
6期
662-675
,共14页
张扬%马才云%刘晶晶%刘涛%王学重
張颺%馬纔雲%劉晶晶%劉濤%王學重
장양%마재운%류정정%류도%왕학중
逆流反应器%纳米材料热液合成%计算流体动力学%超临界水%混合%反应器设计
逆流反應器%納米材料熱液閤成%計算流體動力學%超臨界水%混閤%反應器設計
역류반응기%납미재료열액합성%계산류체동역학%초림계수%혼합%반응기설계
counter-current reactor%hydrothermal synthesis of nanomaterials%computational fluid dynamics%supercritical water%mixing%reactor design
利用计算流体动力学的数值模拟来研究超临界水操作条件下,用于纳米材料合成的连续热液系统中的逆流反应器的性能.入口流量和温度是关键过程变量并在仿真过程中发生变化.预测的温度与取自相同的设计和在相同操作条件下的实验室测量数据相吻合.研究发现反应器中物料的快速混合可以通过超临界水的高流量与高入口温度,和使用非平衡的入口流量条件即超临界水的流量不等于反应物流量来实现.对比仿真还显示内管插入长度是一个反应器性能的关键控制因素,当前反应器配置下其必须小于72.5 mm,以达到令人满意的混合效果.
利用計算流體動力學的數值模擬來研究超臨界水操作條件下,用于納米材料閤成的連續熱液繫統中的逆流反應器的性能.入口流量和溫度是關鍵過程變量併在倣真過程中髮生變化.預測的溫度與取自相同的設計和在相同操作條件下的實驗室測量數據相吻閤.研究髮現反應器中物料的快速混閤可以通過超臨界水的高流量與高入口溫度,和使用非平衡的入口流量條件即超臨界水的流量不等于反應物流量來實現.對比倣真還顯示內管插入長度是一箇反應器性能的關鍵控製因素,噹前反應器配置下其必鬚小于72.5 mm,以達到令人滿意的混閤效果.
이용계산류체동역학적수치모의래연구초림계수조작조건하,용우납미재료합성적련속열액계통중적역류반응기적성능.입구류량화온도시관건과정변량병재방진과정중발생변화.예측적온도여취자상동적설계화재상동조작조건하적실험실측량수거상문합.연구발현반응기중물료적쾌속혼합가이통과초림계수적고류량여고입구온도,화사용비평형적입구류량조건즉초림계수적류량불등우반응물류량래실현.대비방진환현시내관삽입장도시일개반응기성능적관건공제인소,당전반응기배치하기필수소우72.5 mm,이체도령인만의적혼합효과.
Numerical simulation using computational fluid dynamics is carried out to study the performance of a counter-current reactor in a continuous hydrothermal system for nanomaterial synthesis that is operated under supercritical water condition. Inlet flowrate and temperature are the key process variables and vary in the simulation.The predicted temperatures are in good agreement with measurements taken from a laboratory rig of identical design and under the same operating conditions.It is found that fast mixing in the reactor can be achieved by high inlet temperature,high inlet flowrate of the supercritical water and using unbalanced flow conditions,i.e.the supercritical water flowrate should not be equal to that of the precursor.The comparative simulation also reveals that the insertion length of the inner tube is a key factor dictating the reactor performance,and it needs to be less than 72.5 mm in order to achieve satisfactory mixing under the current reactor configuration.
