USGS
South Florida Information Access
SOFIA home
Help
Projects
by Title
by Investigator
by Region
by Topic
by Program
Results
Publications
Meetings
South Florida Restoration Science Forum
Synthesis
Information
Personnel
About SOFIA
USGS Science Strategy
DOI Science Plan
Education
Upcoming Events
Data
Data Exchange
Metadata
publications > water resources investigations > report 84-4100


U.S. Department of the Interior
U.S. Geological Survey
WRI 84-4100

Quality Of Water Recovered From A Municipal Effluent Injection Well In The Floridan Aquifer System, Pompano Beach, Florida

Water-Resources Investigations Report 84-4100

Donald J. McKenzie and G. A. Irwin

ABSTRACT

Approximately 69 million gallons of backflow from an injection well used for the disposal of secondary treated municipal effluent in the Floridan aquifer system near Pompano Beach, Florida, was periodically sampled for inorganic and organic quality from March 1975 through March 1977. Analyses of the backflowed effluent showed a concomitant increase in dissolved solids and a change in ionic composition as a function of cumulative volume of backflow. Both the increase in dissolved solids and the change in major ionic composition were directly related to the mixing of an estimated 6 to 7 percent of the moderately saline water in the Floridan aquifer system with the injected effluent. Although an estimated 3.5 billion gallons of effluent with an estimated chloride concentration of 84 milligrams per liter was injected into the aquifer system during the 16- year operation of the Collier Manor treatment plant, only 65 to 70 million gallons (about 2 percent of the total effluent) was recovered before the chloride concentration approached 250 milligrams per liter.

Unlike the more conservative major inorganic constituents, the levels of nitrogen, phosphorus, and hydrogen sulfide decreased with cumulative backflow. The reduction in concentrations of these nonconservative variables in the final backflow samples exceeded that which was likely caused by a 6 to 7 percent mixing of the water in the Floridan aquifer system with injected effluent. The decreases of many nonconservative variables , therefore, were probably the result of both mixing and other processes such as ion exchange, sorption, bacterial activity, and chemical precipitation.

Overall, the recovered effluent was of poor quality and was not suitable for most uses under existing State regulations. Additionally, the inorganic quality of the injected effluent was further degraded as a result of mixing with the moderately saline native water.

(The entire report is available below.)


Information about on-line reading and printing of historic documents
These reports and documents have been scanned from the original hard-copy materials and are made available on the internet in both HTML and PDF formats. Because these are scanned documents, we are unable to provide fully-accessible versions of these reports. If you cannot fully access the information in these documents, please contact Heather S. Henkel at hhenkel@usgs.gov.

The HTML versions of these documents have been created to provide the information in a format that is quickly and easily readable over the internet. Selective pages and images can be printed from this HTML version by placing the cursor inside the right-hand frame and selecting the print option from the browser. The PDF version of the reports are also provided, and are the recommended format to use for the best printer format and resolution.

Please note - some PDF files are very large (over 2 MB) and may take some time to download, depending on your system.

View HTML Version of this report View the HTML version of the report (downloads faster for on-line reading)

View PDF Version of this report View the PDF version of this report (775kb) (best for printing)


| Disclaimer | Privacy Statement | Accessibility |

U.S. Department of the Interior, U.S. Geological Survey
This page is: http://sofia.usgs.gov/publications/wri/84-4100/index.html
Comments and suggestions? Contact: Heather Henkel - Webmaster
Last updated: 20 January, 2005 @ 07:53 AM (KP)