• AWWA ACE68912
Provide PDF Format

Learn More

AWWA ACE68912

  • Innovative Inland Brine Disposal Options
  • Conference Proceeding by American Water Works Association, 11/01/2008
  • Publisher: AWWA

$12.00$24.00


Growing demand, concerns over droughts, over-allocation of surface waterresources, and depletion of freshwater aquifers have all made desalination of brackishgroundwater an increasingly important option for inland communities. However, thesecommunities must find a means to dispose of the concentrated saline residual wastestream in an environmentally sound manner. Evaporation ponds are one of the primaryoptions, but this technology has a large land requirement, which makes it costly. Aconcern for large facilities is that this technology is one of the few treatment methods thatoffers decreasing returns to scale due to increasing boundary layer resistance for largerponds.This study evaluated a number of innovative options for improving the performanceof evaporation ponds. Viable methods identified from the literature include the following: fabricevaporators; wetted boundary layer breakers; salt-tolerant plants; and, dropletspraying. Two cost models are developed, one for boundary layer breakers and one fordroplet spraying. Incremental costs and incremental evaporation enhancements arecompared with site-specific cost information for a wastewater treatment facility inCalifornia's Central Valley. Results indicate that both boundary layer breakers and spraytechnologies are cost-effective compared to a simple expansion of the pond area.Boundary layer breakers appear to be more cost-effective per gallon incremental capacitybut have a lower evaporation enhancement capacity compared to droplet spraying (24%enhancement vs. 35% enhancement). For a new facility, an example calculation withpreliminary cost information indicates that spray evaporation is more cost-effectivebecause of avoided pond excavation and lining costs. Boundary layer breakers arepreferred as a retrofit to an existing facility, if they provide sufficient additional capacityto avoid the need for an expansion of the pond. Includes 16 references, appendices.

Related Products

AWWA WSC61409

AWWA WSC61409

American Water Case Study: ADT Helps Secure Water Facility Sites Across the United States..

$12.00 $24.00

AWWA QTC97015

AWWA QTC97015

Pilot Scale Evaluation of Alternatives for Aluminum Control..

$12.00 $24.00

AWWA ACE61786

AWWA ACE61786

Rainwater Harvesting - A Way to Sustainability in Desert Areas..

$12.00 $24.00

AWWA JAW34125

AWWA JAW34125

Journal AWWA - DBP Control by Nanofiltration: Cost and Performance..

$15.00 $30.00