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OSTP Pressure Distribution <br /> UNIVERSITY <br /> Minnesota Pollution Design Worksheet OF MINNESOTA �� <br /> Control Agency ��ti <br /> 1. Select Number of Perforated Laterals in system/zone: 3 Geotext(te <br /> �,:v V '�p�^ v' �to Ove .gip_ v <br /> ::.p IL 6ep&C Minimum l7pp ;IC?J♦-,1 <br /> (2 feet is minimum and 3 feet is maximum spacing) ='!^�r oration::��ea 3�apart r trR�2'of rock ;�'., <br /> '2. Select Perforation Spacing: 3.0 ft i, , , , ,, t2 <br /> A...!,l► ►y ► ',;! ►, 9 of rock , �, �, �, �., o -, <br /> , r� <br /> 3. Select Perforation Diameter Size 7/32 inch Perforation sizing:'/,"to yr <br /> Perforation spacing:2'to 3' <br /> 4. Length of Laterals =Media Bed Length-2 Feet. Perforation can not be closer then 1 foot from edge. v 11.05.31 <br /> 63 - 2ft = 61 ft <br /> 5. Determine the Number of Perforation Spaces. Divide the Length of Laterals (Line 4)by the Perforation Spacing (Line 2)and <br /> round down to the nearest whole number. <br /> Number of Perforation Spaces = 61 ft 3 ft = 20 Spaces <br /> 6. Number of Perforations per Lateral is equal to 1.0 plus the Number of Perforation Spaces (Line 5). <br /> Perforations Per Lateral = 20 Spaces + 1 = 21 Perfs. Per Lateral <br /> Check table below to verify the number of perforations per lateral guarantees less than a 10%discharge variation. The value is <br /> double if the a center manifold is used. <br /> Maximum Number of Perforations Per Lateral to Guarantee<1096 Discharge Variation <br /> .Inch Perforations 7/32 Inch Perforations <br /> Perforation Spacing(Feet) Pipe Diameter(Inches) Perforation Spacing Pipe Diameter(inches) <br /> i <br /> 1 114 11; 2 3 (Feet) 1 11 11: 2 3 <br /> 2 10 13 18 30 60 2 11 16 21 3468 i <br /> 21: 8 12 16 28 54 254 10 14 20 32 64 <br /> 3 8 12 16 25 52 3 9 14 19 30 60 <br /> 3'16 Inch Perforations 1/8 Inch Perforations i <br /> Perforation Spacing(Feet) I Pipe Diameter(Inches) Perforation Spacing Pipe Diameter(Inches) <br /> 1 114 11; 2 3 (Feet) 1 1Y 117 2 3 <br /> 2 12 18 26 46 87 2 21 33 44 74 149 <br /> 21 12 17 24 40 80 2/ 20 30 41 69 135 <br /> 3 12 16 22 37 75 3 20 29 38 64 128 <br /> 7. Total Number of Perforations equals the Number of Perforations per Lateral (Line 6)multiplied by the Number of <br /> Perforated Laterals (Line 1). <br /> 21 Perf. Per Lateral X 3 Number of Perf. Laterals = 63 Total Number of Perf. <br /> 8. Calculate the Square Feet per Perforation. Recommended value is 4-10 ft2 per perforation. Perforation 0ischarge(GPM) <br /> Does not apply to At-Grades Perforation Diameter <br /> Head(ft) ,!r /,• ./" '!• <br /> Bed Area = Bed Width(ft)X Bed Length(ft) <br /> I . <br /> 0.18 0.41 0.56 0.74 <br /> 1.o.5 0.22 0.51 0.69 0.9 <br /> 10 ft X 63 ft = 630 ft2 2.0" 0.26 0.59 0.80 1.04 <br /> 2.5 0.29 0.65 0.89 1.17 <br /> 3.0 0.32 0.72 0.98 1.28 <br /> Square Foot per Perforation =Bed Area divided by the Total Number of Perforations (Line 7). 4.0 0.37 0.83 1.13 1.47 <br /> 5.0` 0.41 0.93 1.26 1.65 <br /> 2 fop[ Dwellings with 3/16 inch to 1/4 inch <br /> 630 ft - 63 perforations = 10.0 ft2 <br /> 1/perforations perforations <br /> Dwellings with 1/8 inch perforations <br /> 2 feet Other establishments and 14515 with 3/16 <br /> 9. Select Minimum Average Head: 1.0 ft inch to 1/4 inch perforations <br /> 6 feet Other establishments and MSTS with 1/8 inch <br /> perforations <br /> 10. Select Perforation Discharge (GPM)based on Table III: 0.56 GPM per Perforation <br /> 11. Determine required Flow Rate by multiplying the Total Number of Perforations (Line 7)by the Perforation Discharge (Line 10). <br /> 63 Perforations X 0.56 GPM per Perforation = 36 GPM <br />