AWWA WQTC59025

The first brackish water desalination water treatment plant in Massachusetts will be constructed along the TauntonRiver in Dighton, Massachusetts. The source water is seasonally brackish and salt water intrusion at the proposedintake location normally takes place during the period of July through November. The source water is high innatural organic matter (NOM) and color, with wide variations in temperature and salinity. Thus, the full-scaleprocess being considered must not only be adequate in providing proper pretreatment for the reverse osmosissystem, but must also be able to provide full treatment when the reverse osmosis system is not required forremoval of total dissolved solids. Specifically, the pretreatment process must be effective in removing NOM,color, turbidity and particles for compliance with the Stage 1 & 2 Disinfection/Disinfection Byproduct Rule andLong Term 2 Enhanced Surface Water Treatment Rule.An alternatives analysis was conducted to identify the most effective process to satisfy these demands. A dualmembrane approach was ultimately selected, involving immersed membrane ultrafiltration (UF) followed byreverse osmosis (RO). A three season pilot study was initiated in September 2002 and completed in June of 2003and was conducted to evaluate the performance of the proposed dual membrane system and to provide designcriteria for the full-scale facility. The major focus of this study was to identify the optimal coagulation scheme forefficient operation of the UF system, and to evaluate the ability of the UF system to provide pretreatment for theRO system. The coagulants that were investigated included alum, two brands of polyaluminum chloride (PACL),and ferric chloride.This paper presents the results of the pilot study, with the major focus on the UF coagulation process. The pilotstudy demonstrated that the UF system, operated in the enhanced coagulation mode, was very effective inproviding upstream pretreatment for the RO system, and the UF permeate quality allowed for stable operation ofthe RO pilot unit. After optimization of the UF process, silt density index (SDI) values of UF permeate werebelow 2.5 units average, total particles were maintained below 5 per mL, and permeate turbidity averaged 0.02NTU. In addition, the UF system achieved up to 71% removal of total organic carbon (TOC), up to 88% removalof UV-254, and > 90 % removal of apparent color. The use of ferric chloride as primary coagulant proved mosteffective for NOM removal. Includes 9 references, tables, figures.

Product Details

Edition:

Vol. - No.

Published:

11/02/2003

Number of Pages:

21

File Size:

1 file , 750 KB