(a) Mixing Requirements.
- (1) Mixing Zones. A mixing zone within a chlorine contact basin must not be considered as part of the volume needed for disinfection. A mixing zone must be designed to ensure that the chlorine is thoroughly mixed with the wastewater before entering a chlorine contact chamber, as described in paragraph (2) of this subsection.
- (2) Chlorine and Sodium Hypochlorite Application. A disinfection system must apply the chlorine gas or solution in a highly turbulent flow regime created by in-line diffusers, mechanical mixers, or jet mixers. Effective initial mixing for the mean velocity gradient (G value) in the area of turbulent flow must exceed 500 per second. A serpentine disinfection channel may be used in place of turbulent initial mixing if the length-to-width ratio is at least 40-to-1 and complete mixing is demonstrated by a dye test.
(3) Sulfur Dioxide and Sodium Bisulfite Application.
- (A) The mixing for a sulfur dioxide or sodium bisulfite system must ensure compliance with the effluent limits in the wastewater permit.
- (B) A disinfection system must provide a mean velocity gradient (G value) of at least 250 per second.
(b) Chlorine Contact Basins.
- (1) A chlorine contact basin must provide a minimum chlorine contact time of 20 minutes at the peak flow.
- (2) A chlorine contact basin must prevent short-circuiting to ensure that the wastewater is retained in a chlorine contact basin for at least 20 minutes at peak flow.
- (3) A rectangular chlorine contact basin must have rounded corners.
(4) If a wastewater treatment facility is designed with more than one chlorine contact basin:
- (A) the design must provide a means of verifying the chlorine contact time and residual chlorine in each basin; and
- (B) separate sampling points must be provided after each chlorine contact basin, unless the effluent from the basins is commingled at a single sampling point.
- (5) The design of an aerated chlorine contact basin must include an analysis of the chlorine feed rate required to offset chlorine volatilization.
- (6) The engineering report must include supporting data from a chlorine contact basin design model, performance data of a similar design, or a field tracer study.
- (7) A chlorine contact basin must include a drain to facilitate removal of accumulated settled solids.
(c) Dechlorination Contact Time.
- (1) A dechlorination system must have sufficient mixing and contact time between the disinfected wastewater and a dechlorinating agent to ensure continuous compliance with the chlorine limits in the wastewater permit.
- (2) A dechlorination system must prevent short-circuiting and provide a minimum contact time of 20 seconds at the peak flow.
Source Note:The provisions of this §217.281 adopted to be effective August 28, 2008, 33 TexReg 6843; amended to be effective December 4, 2015, 40 TexReg 8254.