Mo. Code Regs. Ann. tit. 10, § 20-8.180
PURPOSE: This rule specifies the minimum standards for the design of biological treatment that is part of wastewater collection and treatment systems. This rule is to be used with rules 10 CSR 20-8.110 through 10 CSR 20-8.210. It does not address all aspects of design, and the design engineer may refer to other appropriate reference materials so long as these minimum standards set forth in this rule are met.
Editor’s Note: The secretary of state has determined that the publication of this rule in its entirety would be unduly cumbersome or expensive. The entire text of the material referenced has been filed with the secretary of state. This material may be found at the Office of the Secretary of State or at the headquarters of the agency and is available to any interested person at a cost established by state law.
(1) Applicability. Wastewater systems that utilize biological treatment shall be designed based on criteria contained in this rule, published standards, applicable federal and state requirements, standard textbooks, current technical literature, and applicable safety standards. In the event of any conflict between the above criteria, the requirement in this rule shall prevail.
(2) Septic Tanks.
(3) Recirculating Media Filters.
(D) Loading. Hydraulic loading rate shall—
thetic media filters; and
square foot (3.5 gpd/sqft) for sand or rock filters.
(E) Media Characteristics. The media is any of a number of physical structures whose sole purpose is to provide a surface to support biological growth. Commonly used media includes rock, gravel, and sand of various sizes, textile media, and peat. Finely crushed limestone, dolomite, slag, any clay, limestone, or appreciable amounts of organic material is not acceptable.
1. Rock, sand, and gravel media, when used shall–
media.
(4) Trickling Filters.
(B) Media.
1. Media depth shall—
derdrains for rock filter media;
tured filter media to provide adequate contact time with the wastewater; and
2. Size and grading of rock and similar media shall—
of pieces whose longest dimension is three (3) times the least dimension;
sand, or fine material; and
in Table 180-1, included herein, when mechanically graded over vibrating screen with square openings.
Table 180-1 Particle Size Distribution: Screen Size Percent Passing by Weight
4.5 inches 100% 3 inches 0-95% 2 inches 0-0.2% 1 inch 0 to 0.1%
3. Manufactured and synthetic media material shall—
mendations;
ing, spalling, ultraviolet degradation, disintegration, erosion, aging, common acids and alkalis, organic compounds, and biological attack;
experience with an installation treating wastewater under similar hydraulic and organic loading conditions (include a relevant case history involving the use of the synthetic media);
water flowing through or trapped in voids, and the maximum anticipated thickness of the wetted biofilm;
provision is made for maintenance access to the entire top of the trickling filter media and to the distributor; and
sible to provide consistent hydraulic conditions within the trickling filter.
(C) Underdrainage System.
with—
two feet per second (2 fps) at average daily rate of application to the filter;
ent pipe that permit free passage of air;
percent (50%) of their cross section area will be submerged under the design peak hydraulic loading, including proposed or possible future or recirculated flows.
(D) Forced Ventilation.
when—
or
not provide sufficient difference between the ambient air and wastewater temperatures to sustain passive ventilation.
filter shall be the greater of—
of oxygen demand at average organic loading, based on stoichiometry; or
of oxygen demand at peak organic loading, based on stoichiometry.
(5) Activated Sludge.
(6) Sequencing Batch Reactor (SBR).
(7) Membrane Bioreactor (MBR).
(A) General.
greater than one hundred thousand gallons per day (100,000 gpd), the MBR process must be designed with a minimum of two (2) membrane trains capable of treating the daily average flow with one (1) membrane cassette out of service.
brane module out-of-service (e.g., for external clean in place, recovery cleaning, repair). For purposes of these criteria, a membrane module is the smallest membrane unit capable of separate removal from the tank while maintaining operation of other membrane units in the same tank.
separate membrane tank shall have—
be removed separately for maintenance and repair; and
tion.
(B) Preliminary Treatment. Each system shall—
mendations;
influent may cause damage to the membranes;
treat peak hourly flow. Coarse screens followed by fine screens may be used in larger facilities to minimize the complications of fine screening; and
(D) Redundancy. The facility shall have at least one (1) of the following:
(PLC) or standby power mode in case of an automatic control failure;
not possible; or
vide continuous flow through the membranes during a power outage (e.g., preliminary screening, process aeration, recycle/ RAS/permeate pumps, air scour, vacuum pumps) or an adequate method to handle flow for an indefinite period (e.g., private control of influent combined with contingency methods).
(E) Operations and Maintenance. The MBR design shall—
filtrate or an equivalent for operational control and indirect membrane integrity monitoring for a treatment plant with design average flow greater than or equal to one hundred thousand gallons per day (100,000 gpd); and
cleaning considering the membrane cassette wet weight plus additional weight of the solids accumulated on the membranes.
(8) Moving Bed Bioreactor (MBBR). A MBBR secondary treatment system shall provide upstream preliminary treatment units capable of—
AUTHORITY: section 644.026, RSMo 2016.* Original rule filed Aug. 10, 1978, effective March 11, 1979. Amended: Filed June 15, 2018, effective Feb. 28, 2019.
*Original authority: 644.026, RSMo 1972, amended 1973, 1987, 1993.