Fla. Admin. Code R. 40C-3.517
Wells shall be grouted and sealed to protect the water resource from degradation caused by movement of waters along the well annulus either from the surface to the aquifer or between aquifers, and to prevent loss of pressure in artesian aquifers. All wells shall be constructed and sealed using a method which insures that an open or unnaturally permeable annular space does not remain when a well is completed.
(4) Wells obtaining water from a consolidated formation and which are constructed using telescoping casings shall meet the following conditions:
(7) Cuttings shall not be reintroduced into the annular space. Wells which breach confining units and special monitoring well installations will be grouted as outlined below.
(a) When confining units are breached and the guidelines in subsection 40C-3.512(2), F.A.C., are not met, the following practices will be acceptable:
1. Seating of a casing into the confining unit and grouting as required, or
2. Placing of grout in the annular space to meet subsection 40C-3.512(2), F.A.C., requirements. When caving materials are present above and below the confining unit, temporary casing or drilling fluids will be placed in the borehole to maintain an opening to the confining unit.
In all circumstances, the annular space shall be maintained by use of either drilling fluids or temporary surface casing until the confining unit breach is plugged.
(b) Monitoring wells shall be protected and grouted in the following manner:
1. The terminal box in traffic areas and well casing shall be sealed to a depth of eighteen inches below land surface with cement grout.
2. The well casing or outside protective casing in high water table areas shall be grouted to a depth of eighteen inches in a non-traffic area.
(8) Unless a variance has been granted by the District, grouting and sealing of water wells shall be accomplished in the following manner:
(a) The grout mixture shall consist of either Portland Cement or a natural Bentonite slurry for wells and boreholes meeting the requirements in subsection 40C-3.512(8), F.A.C.
1. A mixture consisting of 5.5 to 6.0 gallons of water per sack of Portland Cement or a mixture of 6.5 gallons of water per sack of Portland Cement with 3 to 5 pounds of Bentonite not to exceed 5% by weight will meet minimum requirements. Additional Bentonite may be added upon written approval from the District, however Bentonite shall not exceed a total of 10% by weight.
2. A mixture of 8-20-mesh granular Bentonite, water, and an approved liquid polymer viscosifer or untreated 200-mesh Bentonite and water is acceptable. In all circumstances, the manufacturer’s mixing instructions shall be followed.
(b) The minimum set time for grouting of casing using either Portland Cement or Bentonite before drilling operations may continue is 12 hours.
The minimum set time for grouting of casing using Portland Cement and 2% calcium chloride by weight as an accelerator will vary with depth. Set times are listed in Table 3 below. The addition of Bentonite as specified in paragraph 40C-3.517(8)(a), F.A.C., does not change the set times listed in Table 3.
| WHEN 2% CALCIUM CHLORIDE IS MIXED BY WEIGHT WITH PORTLAND CEMENT | |
| Depth | Set Time |
| (in feet) | (in hours) |
| 0-200 | 4 |
| 201-400 | 3.5 |
| 401-600 | 3 |
| 601-800 | 2 |
| 801 & greater | 1 |
(e) In all cases grout will be introduced into the annular space from bottom to top unless conditions in paragraph 40C-3.517(9)(e), F.A.C., for abandonments are met. To assure that the grout will satisfactorily seal the annular space, the contractor must employ one or a combination of the following procedures:
1. The “Casing method” by which a calculated volume of grout slightly greater than the volume of the annular space of the entire length of casing is forced under pressure down the inside of the casing, which is followed by a volume of water or mud necessary to clear the grout from all but the last ten to fifteen feet of casing. This should continue until a return of cement is observed in the annular space at the upper terminus. If, after the set time has elapsed an open annular space still exists the remaining void must be filled with grout.
2. The “Tremie method” in which a grout pipe is lowered into the annular space to slightly above the bottom casing and grout pumped through the pipe. As the pumping begins the tremie is gradually raised, keeping the discharge end of the pipe submerged in the grout, until the grout has been brought to the upper terminus. This procedure may be done in one continuous operation or in stages. If, after the set time has elapsed, an open annular space still exists the remaining void is to be filled with grout.
3. The “Packer method” in which a grout pipe is attached to a drillable packer and positioned at the bottom inside the casing. The casing is then suspended above the bottom of the borehole, and the grout is forced upward into the annular space either by pumps or pneumatic pressure. Once the grout has reached land surface, the grout pipe is disconnected. After the set time has elapsed, the operation is continued by drilling out the packer and continuing into the next formation.
4. The “Halliburton method” in which the grout is forced through the casing, preceded and followed by a “spacer” or “piston.” A calculated volume of grout is used to seal the annular space. A measured amount of water equal to the volume of the entire length of casing is used to force the second “spacer” to the end of the casing. After the set time has elapsed the construction may continue by drilling out the “spacers.”
(9) Abandonment procedures for water wells shall be undertaken in the following manner:
(e) Abandonment by pressure injection of Portland Cement or Bentonite from top to bottom at the well head will be acceptable to the District if one of the following criteria is met:
1. Access to the site near the well head is difficult as determined by District staff and will cause the contractor excessive economic hardship;
2. Overhead safety such as power lines or trees is of concern to the contractor or District staff; or
3. Surface stability is of concern around the well site due to collapse or cavity development.
(f) Abandonment by bentonite chips or pellets will be acceptable to the District if all of the following criteria are met:
1. The well casing and borehole are greater than three inches in diameter.
2. The bentonite used consists of a high solid sodium montmorillonite with a diameter greater than one quarter inch and fine materials are separated utilizing a mesh screen prior to being placed in the borehole.
3. The application rate is less than two minutes per fifty-pound sack.
4. A Portland cement seal is used from a point ten feet below the static water level.
5. There are no contaminants that would prevent an adequate seal present and water quality concentrations are below 10,000 milligrams per liter total dissolved solids.
(11) Wells constructed by methods which require driven well casing are exempt from grouting and sealing guidelines set forth in previous sections, provided that the following conditions are met:
Rulemaking Authority 373.044, 373.113, 373.171 FS. Law Implemented 373.306, 373.308, 373.309 FS. History–New 10-14-84, Amended 4-23-85, 12-5-85, Formerly 40C-3.517, 40C-3.0517, Amended 9-17-89, 7-27-16, 5-20-26.