Reclamation of the wastewater from an industrial park using hollow-fibre and spiral-wound membranes: 50 m3 d-1 pilot testing and cost evaluation

Environmental Technology

Volumn 30, Issue 9, 2009, Pages 871-877

  Chu, C P ^a   Jiao, S R ^a   Hung, J M ^b   Lu, C J ^b   Chung, Y J ^a  

^a SINOTECH ENGINEERING CONSULTANTS INC   (Taiwan)

^b NATIONAL CHUNG HSING UNIVERSITY   (Taiwan)

Author keywords

Hollow fibre module; Industrial park; Reverse osmosis retentate; Spiral wound module; Wastewater treatment plant effluent

Indexed keywords

BIOCHEMICAL ENGINEERING; BIOCHEMICAL OXYGEN DEMAND; BIOCONVERSION; DISSOLUTION; EFFLUENT TREATMENT; EFFLUENTS; FIBERS; INDUSTRIAL APPLICATIONS; INDUSTRIAL WATER TREATMENT; INDUSTRY; PARKS; PILOT PLANTS; REVERSE OSMOSIS; SEWAGE PUMPING PLANTS; SEWAGE TANKS; TOXICITY; ULTRAFILTRATION; WASTEWATER; WASTEWATER RECLAMATION; WATER RECYCLING; WATER TREATMENT PLANTS;

AERATION TANKS; BIODEGRADABLE ORGANICS; BIOLOGICAL TREATMENT; COMPACTIBILITY; COST EVALUATIONS; DESIGN CAPACITY; HOLLOW FIBER MODULE; HOLLOW-FIBRE MODULE; IN-PHASE; INDUSTRIAL PARK; INDUSTRIAL PARKS; INDUSTRIAL USE; MEMBRANE PROCESS; PILOT TESTING; POLYETHERSULFONES; POLYVINYLIDENE DIFLUORIDE; RE-CLAIMED WATER; REFLUXING; RETENTATE; SPIRAL-WOUND MODULE; THREE PHASIS; TOTAL DISSOLVED SOLIDS; VARIABLE PROPERTY; WASTEWATER TREATMENT PLANT EFFLUENT; WASTEWATER TREATMENT PLANTS;

WASTEWATER TREATMENT;

FLUORIDE; ORGANIC COMPOUND; POLYETHERSULFONE; POLYVINYLIDENE FLUORIDE;

AERATION; BIODEGRADATION; BIOFILTRATION; COST-BENEFIT ANALYSIS; DESIGN; DISSOLVED MATTER; FEASIBILITY STUDY; HYDRAULIC CONDUCTIVITY; INDUSTRIAL WASTE; OSMOSIS; RECLAIMED LAND; RECYCLING; TEMPORAL ANALYSIS; TESTING METHOD; ULTRAFILTRATION; WASTE TREATMENT; WASTEWATER;

AERATION; ARTICLE; BIODEGRADABILITY; CONDUCTANCE; CONTROLLED STUDY; COST; EFFLUENT; ENVIRONMENTAL IMPACT ASSESSMENT; ENVIRONMENTAL PROTECTION; ENVIRONMENTAL RECLAMATION; HOLLOW FIBER; HYDROPHILICITY; HYDROPHOBICITY; INDUSTRIAL AREA; LIQUID; MEMBRANE; OSMOSIS; RECYCLING; WASTE WATER; WASTE WATER MANAGEMENT; WATER QUALITY;

EID: 68849117216     PISSN: 09593330     EISSN: 1479487X     Source Type: Journal    
DOI: 10.1080/09593330802343033     Document Type: Article

References (6)

1. th edn., American Public Health Asspcoation, New York, USA (1998).
2. H.H. Chen, H.H. Yeh, and S. Shiau, The membrane application on the wastewater reclamation and reuse from the effluent of industrial WWTP in northern Taiwan. Desalination, 185, (2005), pp. 227-239.
3. C.P. Chu, Y.S. Wu, C.C. Lin, and Y.J. Chung, Reuse potential analysis on WWTP effluent of industrial parks in Taiwan. Water Sci. Technol. 55 (2007), pp. 425-431.
4. C.P. Chu, S.R. Jiao, H.M. Lin, C.H. Yang, and Y.J. Chung, Recycling the wastewater of the industrial park in Northern Taiwan using UF-RO system: In-situ pilot testing and cost analysis. J. Water Supply: Res. Technol. - AQUA, 56 (2007), pp. 533-540.
5. J.M. Montgomery, Water Treatment Principles and Design, Chapter 14. Wiley, New York, USA. (1985).
6. USEPA, The Guidelines for Water Reuse, Chapter 3. United States Environmental Protection Agency, Washington DC, USA. (1992).