Mo. Code Regs. Ann. tit. 10, § 20-8.300
PURPOSE: This rule specifies the minimum standards for the design of animal waste management systems. 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.
PUBLISHER’S NOTE: The secretary of state has determined that the publication of the entire text of the material which is incorporated by reference as a portion of this rule would be unduly cumbersome or expensive. This material as incorporated by reference in this rule shall be maintained by the agency at its headquarters and shall be made available to the public for inspection and copying at no more than the actual cost of reproduction. This note applies only to the reference material. The entire text of the rule is printed here.
(2) Definitions.
(B) Other applicable definitions are as follows:
ed number of days that will fill the manure storage structure from the lower to the upper operating level for a covered storage structure or from the lower to the upper operating level for an uncovered, liquid storage structure during a period of average rainfall minus evaporation (R-E).
fewer than three hundred sixty-five (365) days, the largest consecutive average monthly R-E, corresponding with the number of months of the storage period, shall be used.
storage period is the sum of available storage days in each stage.
structures, the upper operating level is one foot (1') below the top of the structure;
between the bottom of the spillway to the top of the berm for an earthen basin;
high water level occurring beneath the surface of the ground, including underground watercourses, artesian basins, underground reservoirs and lakes, aquifers, other bodies of water located below the surface of the ground, and water in the saturated zone. For the purposes of this rule, groundwater table does not include the perched water table;
excretion of animals;
ed structure or earthen basin used to store manure, litter, and/or process wastewater;
The average depth of monthly liquid precipitation minus evaporation as published in the most recent National Weather Service Climate Atlas for the geographical region of the proposed structure;
depth or the depth needed to hold the volume of the ten- (10-) year, ten- (10-) day storm, whichever is greater;
stacked without free flowing liquids;
wastewater stored between the upper pumpdown and emergency spillway crest;
not have adequate volume to accomplish treatment;
manure, runoff, washwater, rainfall, and additional water sources between the lower and upper operating levels;
storm—The depth of rainfall occurring in a ten- (10-) day duration over a ten- (10-) year return frequency as defined by the most recent publication of the National Weather Service Climate Atlas for the geographical region of the proposed manure storage structure;
bined volume of storage and safety volumes stored between the lower pumpdown level and emergency spillway crest;
volume maintained below the lower pumpdown designed for anaerobic treatment of manure based on latitude;
that is sized to have three hundred sixty-five (365) days of storage volume and adequate treatment volume;
manure, washwater, runoff, rainfall, and process wastewater; and
wastewater contributed to an animal waste management system.
(4) Location.
(B) The minimum setback distances from manure storage structures, manure storage areas, confinement buildings, open lots, or mortality composters shall be as follows: 10 CSR 20-8
pipelines;
ponds, or lakes not used for human water supply;
streams (classified or unclassified; perennial or intermittent);
water supply lakes or impoundments; and
streams (classified or unclassified; perennial or intermittent) and sinkholes.
(5) Manure Storage Structure Sizing.
(B) Design Storage Period. The minimum design storage period for manure storage structures shall be as follows:
for liquid manure, solid manure, and dry process waste to be land applied is one hundred eighty (180) days;
for solid manure and dry process waste to be sold or used as bedding is ninety (90) days; and
for waste treatment lagoons without an impermeable cover is three hundred sixtyfive (365) days.
(D) Sizing Manure Storage Structures.
hold all inputs, between the upper and lower operating levels, anticipated during the design storage period.
shall also include:
minus evaporation from the surface of the structure, held between the operating levels; and
ty-five (25) year, twenty-four (24) hour storm event above the upper operating level.
inches (6") of depth below the lower operating level for incomplete removal allowance.
4. Earthen basins shall also include:
or two feet (2') for structures that receive storm water from open lots larger than the surface area of the storage structure;
depth below the lower operating level. Anaerobic treatment volume greater than two feet (2') will satisfy this requirement;
operating level for anaerobic treatment lagoons.
(6) Construction of Earthen basins.
(B) Detailed Soils Investigation. A detailed soils investigation is required to substantiate feasibility and to determine the quantity and quality of soil materials on-site and from a borrow area for use in the basin and/or liner. The following information, in whole or in part, is required:
(moisture/density relationships);
turbed and remolded);
(C) Shape and Location.
that there are no narrow or elongated portions or islands, peninsulas, or coves.
consistent elevation with finished elevations not be more than three inches (3") above or below the average elevation of the floor.
four feet (4') above the groundwater table or the water table as modified by subsurface drainage and at least two feet (2') above bedrock.
(E) Berm Construction and Width. Construction specifications shall include the following:
basin floor (not including clay liner) and berm cores to between two percent (2%) below and four percent (4%) above the optimum water content and to at least ninety percent (90%) standard proctor density;
exceeding twelve inches (12") with a maximum rock size not exceeding one-half (1/2) the thickness of the compacted lift; and
minimum of eight feet (8') for fill heights from fifteen to twenty feet (15'–20'), use minimum top widths of ten feet (10') and for fill heights from twenty to twenty-five feet (20'–25'), use minimum top widths of twelve feet (12').
(F) Emergency Spillway. To prevent overtopping and cutting of berms, an emergency overflow shall be provided that—
feet (10') and a minimum depth of one foot (1'); and
wise constructed to prevent erosion due to possible flow.
(G) Compacted Clay Liner.
liners shall be constructed to—
between two percent (2%) below and four percent (4%) above the optimum water content and to at least ninety percent (90%) standard proctor density;
inches (6") with a maximum rock size not exceeding one-half (1/2) the thickness of the compacted lift;
mum water content until the basin is prefilled with water; and
twelve inches (12").
be sealed so that seepage loss through the seal is minimized and to meet the following specifications:
inner slope to where the side slope intersects with the top of the berm;
basin seal not exceeding 1.0 x 10-7 centimeter per second (cm/sec). For soils which have a coefficient of permeability greater than 1.0 × 10-7 (cm/sec), unusual depth, or potable ground water contamination potential, liner thickness of more than twelve inches (12") may be required. The following equation shall be used to determine minimum seal thickness:
t = (H×K)/ 5.4 × 10-7cm/sec
where K = permeability coefficient of the soil in question; H = head (maximum water level depth) of water in the basin; and t = thickness of the soil seal.
(7) Construction of Tanks and Pits. Construction of tanks and pits shall meet the following requirements:
(8) Construction of Solid Manure Components. The following requirements shall be met when constructing poultry buildings, open lots, stacking pads, stacksheds, and other similar structures:
(C) Uncovered solids storage areas must also meet the following:
percent (2%) and four percent (4%) for unpaved lots;
ponding; and
meets the requirements of this rule.
(9) Design and Construction of Pipelines, Pump Stations, and Land Application Systems.
(A) General. Design of pipelines shall be based on the following requirements:
can be emptied within the time limits stated in the nutrient management plan;
plugging, based on the type of material and total solids content;
against freezing;
devices to prevent contamination of private or public water supply distribution systems and groundwater;
required system head and volume;
below the natural stream floor and as nearly perpendicular to the stream flow as possible;
roads; and
Pipelines shall be located at least ten feet (10') horizontally from and at least eighteen inches (18") below the base of any potable water line.
shall:
pipes utilized in the crossing;
waters and debris; and
remain watertight and free from changes in alignment or grade.
(B) Gravity Pipelines. Design of pipelines shall be based on the following requirements:
(1%) for four inch (4") pipe, six-tenths percent (0.6%) for six inch (6") pipe, and fourtenths percent (0.4%) for eight inch (8") pipe;
interval of three hundred feet (300') and with maximum horizontal curves of ten degrees (10°) at pipe joints; and
for emptying a storage/treatment structure with a minimum of two (2) valves in series.
(E) Pump Stations.
pump stations shall not be connected to a potable water supply and shall be located at least three hundred feet (300') from any potable water supply well.
required for pumping stations that are activated in cases of power failure, pump failure, or any cause of high water in the wet well.
(F) Land Application Systems. Land application systems shall be designed with—
that minimizes the formation of aerosols;
system sized for the flow and operating pressure requirements of the distribution equipment and the application restrictions of the soils and topography;
prevent freezing, if pipes are located above the frost line;
either a portable pumping unit or a permanent pump installation, the intake to the pumping system providing the capability for varying the withdrawal depth, the intake elevation maintained twelve to twenty-four inches (12"–24") below the liquid elevation, the intake screened so as to minimize clogging of the sprinkler nozzle or distribution system 10 CSR 20-8
orifices, and, for use of a portable pump, a stable platform and flexible intake line with flotation device to control depth of intake;
and
offs in case of pressure drop.
(10) General System Details.
AUTHORITY: sections 640.710 and 644.026, RSMo 2016.* Original rule filed July 14, 2011, effective April 30, 2012. Amended: Filed Jan. 26, 2016, effective Oct. 30, 2016. Amended: Filed June 15, 2018, effective Feb. 28, 2019. Emergency amendment filed Dec. 8, 2020, effective Dec. 22, 2020, expired June 19, 2021. Amended: Filed Jan. 8, 2021, effective Sept. 30, 2021. *Original authority: 640.710, RSMo 1996 and 644.026, RSMo 1972, amended 1973, 1987, 1993, 1995, 2000, 2012, 2014.