化工学报
化工學報
화공학보
JOURNAL OF CHEMICAL INDUSY AND ENGINEERING (CHINA)
2014年
7期
2813-2820
,共8页
正渗透%水通量%溶质反向摩尔通量%传递现象
正滲透%水通量%溶質反嚮摩爾通量%傳遞現象
정삼투%수통량%용질반향마이통량%전체현상
forward osmosis%water flux%solute reverse molar flux%transport phenomena
正渗透是一种利用渗透原理的新兴膜技术,近年来在国内外受到了广泛的关注。解析该过程中溶剂水的传递和驱动溶质的反向传递对其发展和应用至为关键。首先开展了两种膜的取向下,正渗透过程中的水通量和溶质反向摩尔通量的实验研究。当驱动溶液在膜分离层侧时,水通量更高,而溶质反向摩尔通量更低,表明水的传递对溶质的反向传递有限制作用。而后分别考察了不同的单一溶质和二元混合溶质作为驱动溶质时,水和溶质的传递现象。当单一中性溶质或电解质作为驱动溶质时,水通量和溶质反向摩尔通量均随驱动溶液浓度的升高而增大;在相同操作条件下,驱动溶质的扩散系数越小,溶质反向摩尔通量越小;中性溶质与电解质混合溶液为驱动溶液时,溶质分子之间存在耦合传递效应。
正滲透是一種利用滲透原理的新興膜技術,近年來在國內外受到瞭廣汎的關註。解析該過程中溶劑水的傳遞和驅動溶質的反嚮傳遞對其髮展和應用至為關鍵。首先開展瞭兩種膜的取嚮下,正滲透過程中的水通量和溶質反嚮摩爾通量的實驗研究。噹驅動溶液在膜分離層側時,水通量更高,而溶質反嚮摩爾通量更低,錶明水的傳遞對溶質的反嚮傳遞有限製作用。而後分彆攷察瞭不同的單一溶質和二元混閤溶質作為驅動溶質時,水和溶質的傳遞現象。噹單一中性溶質或電解質作為驅動溶質時,水通量和溶質反嚮摩爾通量均隨驅動溶液濃度的升高而增大;在相同操作條件下,驅動溶質的擴散繫數越小,溶質反嚮摩爾通量越小;中性溶質與電解質混閤溶液為驅動溶液時,溶質分子之間存在耦閤傳遞效應。
정삼투시일충이용삼투원리적신흥막기술,근년래재국내외수도료엄범적관주。해석해과정중용제수적전체화구동용질적반향전체대기발전화응용지위관건。수선개전료량충막적취향하,정삼투과정중적수통량화용질반향마이통량적실험연구。당구동용액재막분리층측시,수통량경고,이용질반향마이통량경저,표명수적전체대용질적반향전체유한제작용。이후분별고찰료불동적단일용질화이원혼합용질작위구동용질시,수화용질적전체현상。당단일중성용질혹전해질작위구동용질시,수통량화용질반향마이통량균수구동용액농도적승고이증대;재상동조작조건하,구동용질적확산계수월소,용질반향마이통량월소;중성용질여전해질혼합용액위구동용액시,용질분자지간존재우합전체효응。
As a novel technology using the principle of osmosis, forward osmosis has drawn worldwide attentions in recent years. Understanding the simultaneous water transport and solute reverse transport in the forward osmosis processes is essential to the development and application of this emerging technology. In this study, the effects of two membrane orientations on solute reverse molar flux and water flux were investigated. The water flux in the mode of active layer facing draw solution was higher than that in the mode of active layer facing feed solution, whereas solute reverse molar flux presented a contrary result, which indicated that transport of water would restrict the reverse transport of solute. The effects of different types of solute, including one single solute and two-component mixed solutes, on solute flux and water flux were also investigated. Water flux and solute reverse molar flux increased with increasing draw solution concentration when using single neutral solute or electrolyte as solute. Under the same operation condition, the smaller the diffusion coefficient was, the lower the solute reverse molar flux was. Furthermore, the coupled transport of the solutes was observed in the mixed draw solution.