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HomeMy WebLinkAboutSoil & Percolation Testing 105 MN( frC1221- Rusty Olson's--Soil and Percolation Testing Joseph J. Olson--MPCA License #810 11481 Riverview Rd. NE, Hanover, MN 55341 (763) 498-8779 fax (763) 498-8290 September 20,2005 Suad Azhari&Omar Abukhadra Proposed Lot 2 1745 Fox Street Orono,Hennepin.County This on-site Sewage Treatment System is partially designed for a Type 1,five-bedroom home in accordance with the Minnesota Pollution Control Agency Chapter 7080 and local ordinances. Once the house size,location and septic site are chosen this design can be completed. The seasonally saturated soils were located at 16"-22"(mottled soil). Due to the seasonally saturated soils, a pressurized Mound System will need to be installed to treat septic effluent. The bottom of the treatment area must be located at least 3' above the saturated soils. The soils at a depth of 12"have a percolation rate averaging 4 MPI. A pumping chamber will need to be installed to lift the effluent to the treatment area. The power supply and switches must be located outside the manhole and pumping chamber in a weatherproof enclosure. A warning device must be installed with a light and sound device;this is in case of a pump failure. Keep all heavy equipment off of the proposed treatment areas before and after construction. The treatment area must be fenced off before construction begins. This Design is not valid&the System will need to be relocated if failure to protect the areas proposed for the On-Site Sewage Treatment systems occurs. Nothing other than gray water,(laundry,showers,ect.)human water&toilet tissue should be disposed of into the septic tanks. Garbage disposals are not recommended. Additives must no be used,they may cause harmful damage to your septic system. It is recommended that you pump the septic tank every year for 1 tank,every two years for two tanks. Sincerely, Joseph J. Olson \ \ ` \ \\\s4:'' \, ' ., \\ \ \ iii) , , s`...\\ .....\\\\\ \ Po55i ALL \ \ • gya, TYPE ,� 3 t �1 9Nx� sB�y y3 '`a Wc���Nfl L. • ' y + ''Try IWO 1 1 y g� \ 1 ) NH.I a t i. �. ., I et?' � X41�* ' g', $) + r3 .}540 } l 1I c,],- ,arI 3 -1- "11•D Q� ' +515. q� 4 { 544 / Sa 1 '�yc.i / 1 / / Tt3tkl (E UATIDNS— q3P•I f /rRoMFR/ �F ASSO@! TES .,./ I (\k 1 ti i Seale . s ` / � 0 Percolation Test WETI.r4NO �, / Q Soil Baring, \ �.-" ® Finch Mark \ ' �t Check all underground utilities v \ / / Property Of: •� a7NART ANL • 7 4 „ nn, uueta.6 \ / _ R r L M Wig Lo'" 2` .- , / 1 _4 c_ SIYtegr O b O dEN1v• / / U // Pl•l(763)498-8779 \\ �• \ / Rusty Olson's soi • d percolation testing Designed by: � University of Minnesota Mound Design Worksheet - 10125104 All boxed rectangles must be entered,the rest will be calculated. OHs„e _ Sammie A. Estimated Flow 750 gpd(Fig.A-1) TaATMT PROGRAM A-1 Estimated Sewage Flows in GPD Number of Class Bedrooms I II III IV 2 300 225 180 60%of lot 2 site A 450 5Y 5 T.,3f } 218 the 4 600 375 256 values :44' - :.;.-eai AtiV50. r; 294, in the 6 900 525 332 Class I, .w Yt ;w 1050 1: q : 43 370 R 4- II or II 8 1200 675 408 columns B. Minimum Septic Tank Capacity Septic tank capacity 3000 gallons Number of tanks/compartments 0 Effluent filter(yes/no) yes C-1 Minimum Septic Tank Capacity in Gallons Number of Minimum Capacity with Capacity with GD and *GD=garbage disposal Bedrooms Capacity GD* pump in basement*'` Must have multiple tanks or compartments 2 or less 750 1125 1500 ** Must have multiple tanks,compartments 3or4 1000'' 1500.E s:: . or effluent screen 5 or 6 1500 2250 3000 - 1,86,9. 2000 3000 : ;e i 4.>,:; . 4 4 C. SOILS(Site evaluation data) D-33 Absorption Width Sizing Table 1. Depth to restricting layer 1.6 feet Perc Rate mpi Soil Texture Loading Rate Absorption 2. Texture loam (gpd/ft2) Ratio Coarse sand,Loamy 3. Loading rate(see Fig D-33) 0.60 gpd/ft2 <5 sand,Med and Fine 1.20 1.00 sand 4. Absorption Ratio(Fig D-33) 2.00 a Sandy.loam ,_ , r i t79 ,Algi ;- 16-30 Loam 0.60 2.00 5. Percolation rate if available 41 MPI A1a F SilttLoarri;Silt ;Y ;;-.1050 , 40 2. . 46-60 Clay loam(CL),Silty0.45 2.67 6. %Slope 8 % or Sandy CL 61`-120 Silty-or Sandy 0.24, 5 = Clay or Clay >120* *Must be other or performance. D. ROCK LAYER DIMENSIONS 1. Multiply average design flow(A)by 0.83 to obtain required area of rock layer: Item A x 0.83= 750 gpd x 0.83 ft2/gpd 622.5 ft2 LLR Chart 2. Determine rock layer width =0.83 ft2/gpd x Linear Loading Rate(LLR)(see LLR chart) Perk Rate LLR 0.83 ft2/gpd x 12 = 10.0 ft <120 MPI <=12 3. Length of rock layer=area divided by width= >=120 MPI* <=6 622.5 ft2 10 ft = 62.5 ft *or other limited soil conditions E. ROCK VOLUME 1. Multiply rock area by rock depth to get cubic feet of rock 622.5 X 1 ft = 622.5 ft3 2. Divide ft3 by 27 ft3/yd3 to get cubic yards 622.5 ft3 / 27 = 23.1 yd3 3. Multiply cubic yards by 1.4 to get weight of rock in tons; 23.1 yd3 X 1.4 ton/yd3 = 32.3 tons 4. Add in 10%extra for constructability= 1.1 x 32.3 = 35.5 tons • MOUND SLOPE WIDTH&LENGTH(Greater than 1%) F. ABSORPTION WIDTH Absorption width equals absorption ratio(C4)times rock layer width(D2) 2 x 10.0 ft = 20.0 ft G. 1. Downslope absorption width=absorption width(F)minus rock layer width(D2) D-34 Slope Multiplier Table 20 ft - 10 ft = 10 ft Land Slope Upslope Downslope 2. Calculate mound size in% multipliers multipliers UPSLOPE 3:1 4:1 3:1 4:1 a.Determine depth of clean sand at upslope edge of rock layer 0 3.00 4.00 3.00 4.00 =3 feet minus distance to restricting layer(C1) 1 231 3.85 3.09 ` 4.17 3 ft - 1.6 ft= 1.4 ft 2 2.83 3.70 3.19 4.35 3 275 3.57' 330 4.54' b.Mound height at the upslope edge of rock layer=depth of clean sand for separation(G2a) 4 2.68 3.45 3A1 4.76 at upsiope edge plus depth of rock layer(1 foot)to depth of cover(1 foot) 5 -2.61 333' 353` 5.00 1.4 ft+1ft+1ft= 3.4 ft 6 2.54 3.23 3.66 5.26 7 ' 2:48 312 380 5.56 c.Upslope berm multiplier based on land slope(see figure D-34) 3.03 8 2.42 3.03 3.95 5.88 9 -2.36 294 4:1i'' 6.25 d.Upslope width=berm multiplier(G2c)times upsiope mound height(G2b): 10 2.31 2 86 4.29 6.67 3.03 x 3.4 ft = 10.0 ft 11 '226' 2.78 448 7.14 12 2.21 2.70 4.69 7.69 DOWNSLOPE e.Drop in elevation=rock layer width(D2)times percent landslope(C5)/100 10 ft x 8 % /100= 0.8 ft f.Downslope mound height=depth of clean sand for slope difference(G2e) at downslope rock edge plus the mound height at the upsiope edge of rock layer(2b) 0.8 ft + 3.4 ft = 4.2 ft g.Downslope berm multiplier based on percent land slope(see Figure D-34) 3.95 h.Downslope width=downslope multiplier(G2g)times downslope mound height(G2f) 3.95 x 4.2 = 17.0 ft j.Total mound width is the sum of upslope(G2d)width plus rock layer width(D2)plus downslope width(G2h) 10.0 ft+ 10.0 ft + 17.0 ft = 37.0 ft k.Total mound length is the sum of upsiope width(G2d)plus rock layer length(D3) plus upslope width(G2d) 10.0 ft + 62.5 ft + 10.0 ft = 82.5 ft Final Dimensions (slope>1%) 37.0 ft x 82.5 ft I hereby certify that I have completed this work in accordance with all applicable ordinances,rules and laws (Signature) SW ) (License#) 9/��/03 (date) University of Minnesota Mound Design Worksheet - 10125/04 All boxed rectangles must be entered,the rest will be calculated. ON Ire A. Estimated Flo 750 gpd(Fig.A-1) SAGE TREATMENT PROGRAM A-1 Estimated Sewage Flows in GPD Number of Class Bedrooms I II III IV 2 300 225 180 60%of Lot 2, Site B , 3 ' 450 300 :218 the 4 600 375 256 values 750 , ,i taw 294 in the 6 900 525332 Class I, 1050 ;; r, .370 Il or II 8 1200 675 408 columns B. Minimum Septic Tank Capacity Septic tank capacity 3000 gallons Number of tanks/compartments 0 Effluent filter(yes/no) Yes C-1 Minimum Septic Tank Capacity in Gallons Number of Minimum Capacity with Capacity with GD and *GD=garbage disposal Bedrooms Capacity GD* pump in basement** Must have multiple tanks or compartments 2 or less 750 1125 1500 ** Must have multiple tanks,compartments 1000" 1500 2000 or effluent screen 5 or 6 1500 2250 3000 1 - f - 7►��OS,t9�- �.fi. 2000 3000 , '.4000 C. SOILS(Site evaluation data) D-33 Absorption Width Sizing Table 1. Depth to restricting layer 1.6 feet Perc Rate mpi Soil Texture Loading Rate Absorption 2. Texture loam (gpd/ft2) Ratio Coarse sand,Loamy 3. Loading rate(see Fig D-33) 0.60 gpd/ft2 <5 sand,Med and Fine 1.20 1.00 sand 4. Absorption Ratio(Fig D-33) 2.00 6-15 �r!~� '0.79 1.50 16-30 Loam 0.60 2.00 5. Percolation rate if available y MPI 31=45 S tt WiteSilt ' 0.50 1.40 46-60 Clay loam(CL),Silty 0.45 2.67 6. %Slope 8 % or Sandy CL 61-120 Silty or Sandy 0.24 5 Clay or Clay >120* *Must be other or performance. D. ROCK LAYER DIMENSIONS 1. Multiply average design flow(A)by 0.83 to obtain required area of rock layer: Item A x 0.83= 750 gpd x 0.83 ft2/gpd 622.5 ft2 LLR Chart 2. Determine rock layer width =0.83 ft2/gpd x Linear Loading Rate(LLR)(see LLR chart) Perk Rate LLR 0.83 ft2/gpd x 12 = 10.0 ft <120 MPI <=12 3. Length of rock layer=area divided by width= >=120 MPI* <=6 622.5 ft2 / 10 ft = 63.0 ft *or other limited soil conditions E. ROCK VOLUME 1. Multiply rock area by rock depth to get cubic feet of rock 622.5 X 1 ft = 622.5 ft3 2. Divide ft3 by 27 ft3/yd3 to get cubic yards 622.5 ft3 / 27 = 23.1 yd3 3. Multiply cubic yards by 1.4 to get weight of rock in tons; 23.1 yd3 X 1.4 ton/yd3 = 32.3 tons 4. Add in 10%extra for constructability= 1.1 x 32.3 = 35.5 tons • MOUND SLOPE WIDTH&LENGTH(Greater than 1%) F. ABSORPTION WIDTH Absorption width equals absorption ratio(C4)times rock layer width(D2) 2 x 10.0 ft = 20.0 ft G. 1. Downslope absorption width=absorption width(F)minus rock layer width(D2) D-34 Slope Multiplier Table 20 ft - 10 ft = 10 ft Land Slope Upslope Downslope 2. Calculate mound size in% multipliers multipliers UPSLOPE 3:1 4:1 3:1 4:1 a.Determine depth of clean sand at upslope edge of rock layer 0 3.00 4.00 3.00 4.00 =3 feet minus distance to restricting layer(C1) 1 2.91 3.85" 3.09 4.17 3 ft - 1.6 ft= 1.4 ft 2 2.83 3.70 3.19 4.35 3 2.75 .3.57` 3.30 4.54 b.Mound height at the upslope edge of rock layer=depth of clean sand for separation(G2a) 4 2.68 3.45 3.41 4.76 at upslope edge plus depth of rock layer(1 foot)to depth of cover(1 foot) 5 2:61 333 3.53 5.00 1.4 ft+1ft+1 ft= 3.4 ft 6 2.54 3.23 3.66 5.26 7 2.48 312 3.80 5.56 c.Upslope berm multiplier based on land slope(see figure D-34) 3.45 8 2.42 3.03 3.95 5.88 9 2.36 2.94 4.11 625 d.Upslope width=berm multiplier(G2c)times upslope mound height(G2b): 10 2.31 2.86 4.29 6.67 3.45 x 3.4 ft = 11.0 ft 11 2.26 . 278 4A87.14; 12 2.21 2.70 4.69 7.69 DOWNSLOPE e.Drop in elevation=rock layer width(D2)times percent landslope(C5)/100 10 ft x 8 % /100= 0.8 ft f.Downslope mound height=depth of clean sand for slope difference(G2e) at downslope rock edge plus the mound height at the upslope edge of rock layer(2b) 0.8 ft + 3.4 ft = 4.2 ft g. Downslope berm multiplier based on percent land slope(see Figure D-34) 3.95 h. Downslope width=downslope multiplier(G2g)times downslope mound height(G2f) 3.95 x 4.2 = 17.0 ft j.Total mound width is the sum of upslope(G2d)width plus rock layer width(D2)plus downslope width(G2h) 11.0 ft+ 10.0 ft + 17.0 ft = 38.0 ft k.Total mound length is the sum of upslope width(G2d)plus rock layer length(D3) plus upslope width(G2d) 11.0 ft + 63.0 ft + 11.0 ft = 85.0 ft Final Dimensions (slope>1%) 38.0 ft x 85.0 ft I hereby ce .fy that I have completed this work in accordance with all applicable ordinances,rules and laws _. (Signature) 810 (License#) 6/11/2005 (date) Logs of Soil Borings License#810 Location or Project: Preliminary Plat Borings for Suad Azhari &Omar Abukhadra Lot 2 Borings made by: Rusty Olson's Soil and Perc testing 3/8/05 Classification System: AASHO ; USDS-USDS-SCS X ; Unified ; Other Auger used (check two): Hand_X_,or Power , Flight, Bucket or Probe_X_ Boring Number_1_Surface elevation_942.0_ Mottled Soil at 1.6_feet 0"-6" Dark brown loam 10yr3/3 H2O present at_X 6"-20" Brown loam 10yr4/4 20"-30" Rusty brown clay loam 10yr5/4 Boring Number 2_Surface elevation_943.0_ Mottled Soil at 1.6_feet 0-6" Dark brown loam 10yr3/3 H2O present at_X 6"-20" Brown loam 10yr4/4 20"-30" Rusty brown loam 10yr5/4 Boring Number_3_Surface Elevation_942.9 Mottled Soil at_1.6 feet 0"-6"Dark brown loam 10yr3/3 H2O present at_X_ 6"-20" Brown loam 10yr4/4 20"-30" Rusty brown loam 10yr5/4 Boring Number_4_ Surface elevation_943.2_ Mottled Soil at_1.8_feet 0-6" Dark brown loam 10yr3/3 H2O present at_X_ 6"-22" Brown loam 10yr4/4 22"-30" Rusty brown sandy clay loam 10yr5/4 Boring Number_5_Surface elevation_940.8_ Mottled Soil at_1.3_feet 0-6" Dark brown loam 10yr3/3 H2O present at_X_ 6"-16" Brown loam 10yr4/4 16"-30" Rusty brown loam 10yr5/3 Boring Number_6_Surface elevation_943.2_ Mottled Soil at_1.5_feet 0-6" Dark brown loam 10yr3/3 H2O present at_X_ 6"-18" Brown loam 10yr4/4 18"-30" Rusty brown loam 10yr5/4 Percolation Test Data Sheet Lic.#810 Percolation test readings made by: Rusty Olson's Perc. starting at 8:23 A.M. On 08/16/05 Location: Proposed Lot 2, Block 1 1745 Fox Street Hole number: 1 Date hole was prepared: 08/15/05 Depth of hole bottom_12"_inches, Diameter of hole 6"_inches. Soil data from test hole: Depth, inches Soil texture 0-6" Dark brown loam 10yr3/3 6"-12" Brown loam 10yr4/4 Method of scratching side wall: Knife Depth of gravel in bottom of hole 2 inches: Date and hour of initial water filling 08/15/05 At 10:30 A.M. depth of initial water filling 12 inches above hole bottom. Method used to maintain at least 12 inches of water depth in hole for at least 4 hours Automatic Siphon Maximum water depth above hole bottom during tests 6 inches Time Time Depth Drop in H2O Perc Rate 8:38 8:53 6" 4.3 3.5 9:00 9:15 6" 4.1 3.6 9:26 9:41 6" 4.0 3.7 AVERAGE PERC. RATE 3.6 MPI Percolation Test Data Sheet Lic.#810 Percolation test readings made by: Rusty Olson's Perc. starting at 8:23 A.M. On 08/16/05 Location: Proposed Lot 2, Block 1 1745 Fox Street Hole number: 2 Date hole was prepared: 08/15/05 Depth of hole bottom 12" inches, Diameter of hole_6"_inches. Soil data from test hole: Depth, inches Soil texture 0-6" Dark brown loam 10yr3/3 6"-12" Brown loam 10yr4/4 Method of scratching side wall: Knife Depth of gravel in bottom of hole 2 inches: Date and hour of initial water filling 08/15/05 At 10:30 A.M. depth of initial water filling 12 inches above hole bottom. Method used to maintain at least 12 inches of water depth in hole for at least 4 hours Automatic Siphon Maximum water depth above hole bottom during tests 6 inches ' Time ' Time Depth Drop in H2O Perc Rate 1 8:39 8:54 6" 3.8 3.9 8:59 9:14 6" 3.8 3.9 9:27 9:42 6" 3.8 3.9 1 AVERAGE PERC. RATE 3.9 MPI Percolation Test Data Sheet Lic.#810 Percolation test readings made by: Rusty Olson's Perc. starting at 8:23 A.M. On 08/16/05 Location: Proposed Lot 2, Block 1 1745 Fox Street Hole number: 3 Date hole was prepared: 08/15/05 Depth of hole bottom_12"_inches, Diameter of hole_6"_inches. Soil data from test hole: Depth, inches Soil texture 0-6" Dark brown loam 10yr3/3 6"-12" Brown loam 10yr4/4 Method of scratching side wall: Knife Depth of gravel in bottom of hole 2 inches: Date and hour of initial water filling 08/15/05 At 10:30 A.M. depth of initial water filling 12 inches above hole bottom. Method used to maintain at least 12 inches of water depth in hole for at least 4 hours Automatic Siphon Maximum water depth above hole bottom during tests 6 inches Time Time Depth Drop in H2O Perc Rate 8:40 8:55 6" 3.7 4.0 8:58 9:13 6" 3.6 4.1 9:28 9:43 6" 3.6 4.1 AVERAGE PERC. RATE 4.1 MPI Percolation Test Data Sheet Lic.#810 Percolation test readings made by: Rusty Olson's Perc. starting at 8:23 A.M. On 08/16/05 Location: Proposed Lot 2, Block 1 1745 Fox Street Hole number: 4 Date hole was prepared: 08/15/05 Depth of hole bottom_12"_inches, Diameter of hole_6"_inches. Soil data from test hole: Depth, inches Soil texture 0-6" Dark brown loam 10yr3/3 6"-12" Brown loam 10yr4/4 Method of scratching side wall: Knife Depth of gravel in bottom of hole 2 inches: Date and hour of initial water filling 08/15/05 At 10:30 A.M. depth of initial water filling 12 inches above hole bottom. Method used to maintain at least 12 inches of water depth in hole for at least 4 hours Automatic Siphon Maximum water depth above hole bottom during tests 6 inches I Time Time Depth Drop in H2O Perc Rate 8:41 8:56 6" 4.3 3.5 8:57 9:12 6" 4.1 3.6 9:29 9:44 6" 4.0 3.7 AVERAGE PERC. RATE 3.6 MPI