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Membranes
for
Industrial
Membranes forIndustrial
Wastewater RecoveryandRe-use
To
Claire, Oliver and Samuel
Membranes forIndustrial
Wastewater RecoveryandRe-use
Edited
by:
Simon
Judd and
Bruce Jefferson
E
L
S
E
1-
1
i5
R
UK
USA
JAPAN
Elsevier Science Ltd, The Boulevard, Langford Lane, Kidlington, Oxford
OX5
lGB,
UK
Elsevier Science Inc, 360 Park Avenue South, New York,
NY
Elsevier Japan, Tsunashima Building Annex, 3-20-12 Yushima,
Bunkyo-ku, Tokyo 113, Japan
10010-1710, USA
Copyright
0
2003 Elsevier Ltd.
All rights reserved. No part of this publication may be reproduced, stored in
a retrieval system or transmitted in any form
or
by any means: electronic,
electrostatic, magnetic tape, mechanical, photocopying, recording
or
otherwise, without prior permission in writing from the publishers.
British Library Cataloguing
in
Publication
Data
Membranes forindustrialwastewaterrecoveryandre-use
1
.Water reuse 2.Membranes (Technology) 3.Water
-
Purification
-
Reverse osmosis process
I. Judd, Simon
628.1'674
ISBN 1856173895
Library
of
Congress Cataloging-in-Publication Data
Judd, Simon
11. Jefferson, Bruce
Membranes forindustrialwastewaterrecoveryandre-use
/
Simon
Judd and Bruce Jefferson.
Includes bibliographical references and index.
1.
Sewage-Purification.
2.
Factory and trade waste-Purification.
3. Membranes (Technology) 4. Water reuse.
I.
Jefferson, Bruce.
11. Title.
p. cm.
ISBN 1-8561 7-389-5
TD754.J83 2003
62 8.3'5241~2
1
2003040757
No
responsibility is assumed by the Publisher for any injury and/or damage
to persons
or
property as a matter of products liability, negligence or
otherwise, or from any use or operation of any methods, products,
instructions
or
ideas contained in the material herein.
Published by
Elsevier Advanced Technology, The Boulevard, Langford Lane, Kidlington
Oxford OX5
lGB,
UK
Tel.: +44(0) 1865 843000
Fax: +44(0) 1865 843971
Typeset by Variorum Publishing Ltd, Lancaster and Rugby
Printed and bound in Great Britain by Biddles Ltd, Guildford and King's
Lynn
Contents
Preface
Contributors
Chapter
1
Introduction
1.1
1.2
Industrial water
1.3
Membrane technology
1.
I
Water reuse motivations and barriers
Chapter
2
Membrane technology
2.1
2.2
2.3
2.4
The membrane
2.
I.
1
2.
I
.2
Membrane structure
2.
I.
3
2.1.4
Membrane configurations
The process fundamentals
2.2.1
Process performance definitions
2.2.2
The driving force
2.2.3
2.2.4
Critical flux
The theory
2.3.1
Membrane mass transfer control
2.3.2
Process design and operation
2.4.1
Staging
2.4.2
Specific energy demand
2.4.3
Fouling and pretreatment
2.4.4
Backwashing and cleaning
References
Membrane and membrane process definition
Membrane materials and their manufacture
Factors opposing the driving force
Fouling/cake layer mass transfer control
ix
xiii
2
4
7
14
14
14
17
23
32
32
34
34
39
40
41
43
52
52
55
59
66
70
vi
Membranes
for
Industrial Wastewutrr Recoveryand
Re-use
Chapter
3
Industrial waters
3.1
3.2
3.3
3.4
3.5
The power industry: water requirements for power
generation and cooling water
3.1.1 Water demand by the power industry
3.1.2 Overview ofcooling water systems
3.1.3 Overview of boiler feedwater systems
3.1.4 Sources of water used for
3.1.5 Water quality comparisons
3.1.6 Optimisation of water use in recirculating
cooling systems
3.1.7 Cooling tower water quality issues
3.1.8 Governing legislation and guidelines
3.1.9 Volumes and quality of aqueous process
waste streams
3.1.10 Current reuse practices and opportunities
References
The pulp and paper industry
3.2.1 Introduction
3.2.2
3.2.3 Effluent volumes and quality
3.2.4
3.2.5
3.2.6 Conclusions
Acknowledgements
References
The textile industry
3.3.1 Categories of textile processing operations
3.3.2 Effluents from textile processing unit
operations
3.3.3 Process water quality requirements
3.3.4 Legislation
3.3.5 Conventional treatment
3.3.6 Demand management
3.3.7 Reuse practice and opportunities
References
The beverage industry
3.4.1 Point of use recycling opportunities
3.4.2 End
of
pipe recovery opportunities
References
Pure waters in the pharmaceutical industry
3.5.1
Background
3.5.2 Water quality standards
3.5.3
3.5.4 Reuse opportunities
Pulping and paper manufacturing processes
Current water and effluent purification
systems and governing legislation
Membranes in the pulp and paper industry
Volumes and quality of aqueous process
and waste streams
76
76
77
80
80
81
85
88
93
94
95
100
102
102
104
106
113
115
125
125
125
132
132
133
143
144
146
148
149
154
159
159
160
163
163
163
164
167
169
Contents
vii
Chapter
4
System design aids
4.1 Computer-aided design for reverse osmosis plant
4.1.1 Introduction
4.1.2
4.1.3
RO
design software
4.1.4 Cost calculation
4.1.5 Overview
References
4.2.1 Introduction
4.2.2 Water pinch: the history
4.2.3 Methodology
4.2.4 Computed solutions
4.2.5 Software tools currently available
4.2.6
4.2.7 Conclusion
References
4.3 Design examples
4.3.1
4.3.2
4.3.3
4.3.4
4.3.5
Key elements
of
the reverse osmosis process
4.2 Water pinch analysis
Case study: water pinch and implementation
of
regeneration techniques
Problem in reverse osmosis: film theory and
energy demand
Problem in reverse osmosis: array design
Problem in reverse osmosis:
CAD
array design
Problem in electrodialysis: energy demand
Problem in submerged membrane filtration
design
Chapter
5
Case studies
5.1
5.2
5.3
5.4
Flag Fen high-purity water production plant
(UK)
5.1.1 Background
5.1.2 Description ofplant
5.1.3 Performance
Eraring Power Station: purification
of
secondary
sewage for boiler feedwater (Australia)
5.2.1 Background
5.2.2 Description ofplant
5.2.3 Performance
Doswell combined cycle power plant: zero liquid
discharge
(USA)
5.3.1 Background
5.3.2 Description of system
5.3.3 Performance
VHP Ugchelen: paper mill water recycling
(Netherlands)
5.4.1 Background
172
172
172
176
182
183
186
186
186
187
187
191
197
201
209
209
213
213
216
217
220
223
228
228
228
2
30
232
232
233
235
237
237
238
2
40
241
241
5.4.2 Description of system 242
[...]...viii MembranesforIndustrialWastewaterRecoveryandRe-use 5.5 5.6 5.7 5.8 5.9 5.10 5.1 1 5.12 5.1 3 Index 5.4.3 Performance Kronospan Ltd: medium-density fibreboard wash water recycling (UK) 5.5.1 Background 5.5.2 Description of plant 5.5.3 Performance M-Real Kirkniemi paper mill (Finland) 5.6.1 Background 5.6.2 Description of plant 5.6.3 Performance T Forsell and Son: dyewaste water... which membranes find employment, such as the biotechnology and food industries, are only briefly discussed with reference to a x Membranesfor lndustrial WastewaterRecoveryandRe-use Table 1 Recent membrane textbooks Author(s)/editor(s) Title Publisher Date Nunes and Peinemann Membrane Technology in the Chemical Industry Membrane Bioreactors for Wastewater Treatment Membrane Technology in Water and Wastewater. .. some defined set of conditions Nanofiltration membranes, which have a charge rejection component, are generally designed to be selective for multivalent rather than univalent ions Reverse osmosis membranes are designed to reject all species other than water, 16 Membranesfor Industrial Wastewater Recovery andRe-use Table 2.1 Dense and porous membranesfor water treatment (adapted from Stephenson et... University 2 Membranesfor lndustrial WastewaterRecoveryandRe-use 1.1 Water reuse motivations and barriers The motivations for recycling of wastewater are manifold Most often stated are those pertaining to increasing pressures on water resources Reuse of wastewater conserves the supply of freshwater, and this presents clear advantages with respect to environmental protection More pragmatically, wastewater. .. implementation Industrial water reuse andwastewater minimization Wastewater reclamation and reuse Handbook of wastewater reclamation and reuse Wastewater reuse for golf course irrigation IWA publishing 2002 McGraw-Hill 1999 Technomic 1998 CRC press 1995 Lewis publishers 1994 Mann and Liu Asano Rows and Ahdel-Magid USGA few specific industrial sectors (Chapter 3 ) Again, industrial process applications are... District wastewater reclamation and groundwater recharge program Report to OCWD Chapter 2 Membrane technology Simon Judd School of Water Sciences, Cranfield University 14 Membranesfor Industrial Wastewater Recovery andRe-use 2.1 The membrane 2.1.1 Membrane and membrane process definition There are a number of definitions of the word “membrane”, which can vary considerably in comprehensiveness and clarity... Nostrand Reinhold 1993 1992 Stephenson, Judd, Jefferson and Brindle Hillis Radecki Crittenden Shonnard and Bullock Cheryan Scott Mallevialle, Odendaal and Wiesner Amjad Ho and Sirkar Table 2 Recent water recycling textbooks Author/editor Title Publisher Date Lens, Pol Wilderer and Asano Water recycling and resource recovery in industry: analysis, technology and implementation Industrial water reuse and. .. Technology and Technical Polymer Chemistry at Lappeenranta University of Technology (LUT), as Research Assistant, Researcher and Associate Professor She received her doctorate at LUT in 1 9 9 7 before joining the Cleantech 2 0 0 0 project (1997-2000) as Research Professor She is currently working as Senior Fellow funded by the Acadcmy of Finland xvi Membranesfor lndustrial WastewaterRecoveryand Re-use. .. with over 15 years' experience of industrialand academic R&D, having spent three years in nuclear waste management and two years in forensic science In his current post he has conducted research into a wide range of chemical and, principally, membrane processes as applied to water andwastewater treatment Topics have included municipal and domestic wastewater treatment and reuse using membrane bioreactors,... conventional sewage treatment 4 Membranesfor Industrial Wastewater Recovery andRe-use works have the capacity to treat these industrial waters simply by virtue of blending with domestic water, significantly dampening the effects of broad temporal variations in quality and the concomitant shock loads of specific problem contaminants that arise In other words, existing municipal wastewater treatment works . Membranes
for
Industrial
Membranes for Industrial
Wastewater Recovery and Re-use
To
Claire, Oliver and Samuel
Membranes for Industrial
Wastewater. Jefferson, Bruce
Membranes for industrial wastewater recovery and re-use
/
Simon
Judd and Bruce Jefferson.
Includes bibliographical references and index.