Only two membrane modules per pressure vessel? Hydraulic optimization of spiral-wound membrane filtration plants

被引：24

作者：

van der Meer, WGJ

Riemersma, M

van Dijk, JC

机构：

[1] Water Supply Co Friesland NV, NL-8901 BE Leeuwarden, Netherlands

[2] Delft Univ Technol, Dept Civil Engn, NL-2600 GA Delft, Netherlands

来源：

DESALINATION | 1998年 / 119卷 / 1-3期

关键词：

optimization; membrane filtration plants; mathematical modelling; spiral-wound module; reverse osmosis; nanofiltration;

D O I：

10.1016/S0011-9164(98)00105-2

中图分类号：

TQ [化学工业];

学科分类号：

0817 ;

摘要：

In order to optimize the performance of NF and RO membrane filtration plants, the influence of the plant design and operating conditions has been studied. For this purpose a simplified mathematical model has been developed, which takes into account the difference in rejection of monovalent and bivalent ions, and the hydraulics of SPW membrane modules. This study clearly shows that an increase in permeate productivity of 20% can be achieved, by lowering the number of membrane modules (N<2-3) per pressure vessel.

引用

页码：57 / 64G

页数：15

共 26 条

[1] AN APPROXIMATE ANALYTICAL SOLUTION FOR THE PERFORMANCE OF REVERSE-OSMOSIS PLANTS [J].

ALZAHRANI, AES ;

SOLIMAN, MA ;

ALMUTAZ, IS .

DESALINATION, 1989, 75 (1-3) :15-24

[2]

[Anonymous], REVERSE OSMOSIS

[3]

BENBOUDINAR M, 1992, DESALINATION, V86, P273

[4] MATHEMATICAL-MODEL OF REVERSE-OSMOSIS IN PARALLEL-WALL CHANNELS WITH TURBULENCE PROMOTING NETS [J].

CHIOLLE, A ;

GIANOTTI, G ;

GRAMONDO, M ;

PARRINI, G .

DESALINATION, 1978, 26 (01) :3-16

[5] MODELING OF MODULES AND SYSTEMS IN REVERSE-OSMOSIS .1. THEORETICAL SYSTEM-DESIGN MODEL DEVELOPMENT [J].

COSTA, ML ;

DICKSON, JM .

DESALINATION, 1991, 80 (2-3) :251-274

[6] PREDICTABILITY OF MEMBRANE PERFORMANCE OF REVERSE-OSMOSIS SYSTEMS FOR SEAWATER DESALINATION [J].

DARWISH, BAQ ;

ALY, GS ;

ALRQOBAH, HA ;

ABDELJAWAD, M .

DESALINATION, 1989, 75 (1-3) :55-69

[7] SYNTHESIS OF REVERSE-OSMOSIS NETWORKS FOR WASTE REDUCTION [J].

EL-HALWAGI, MM .

AICHE JOURNAL, 1992, 38 (08) :1185-1198

[8] A SHORT CUT METHOD FOR THE DESIGN OF REVERSE-OSMOSIS DESALINATION PLANTS [J].

EVANGELISTA, F .

INDUSTRIAL & ENGINEERING CHEMISTRY PROCESS DESIGN AND DEVELOPMENT, 1985, 24 (01) :211-223

[9] OPTIMAL-DESIGN AND PERFORMANCE OF SPIRAL WOUND MODULES .1. NUMERICAL-METHOD [J].

EVANGELISTA, F ;

JONSSON, G .

CHEMICAL ENGINEERING COMMUNICATIONS, 1988, 72 :69-81

[10]

GUPTA K, 1985, IND ENG CHEM PROC DD, V24, P1240

← 1 2 3 →