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Item 8 - Tarrant County Public Health letterVEERINDER NINNY) TANEJA, MBBS; MPH PUBLIC HEALTH DIRECTOR June 11, 2019 CATHERINE A. COLQUITT, M.D. LOCAL HEALTH AUTHORITY & MEDICAL DIRECTOR TARRANT COUNTY PUBLIC HEALTH INNOVATION QUALITY ACCOUNTABILITY SRI Southlake Villas, LLC, Narender Kasarla & Trium Development Partners, LLC, Dan Anderson 805 Glen Abbey Drive Southlake, Texas 76092 RE: Maranatha Way Residential, Lots 1 — 13, Block 1 Dear Mr. Kasarla: I have reviewed the material submitted for the referenced property. The following conditions are to be noted: 1) City Sewer service is not currently available to this property 2) No On -Site Sewage Facility (OSSF) may be constructed without prior approval of this office. 3) Soil conditions in the area frequently require alternative systems 4) Due to the presence of ponds, creeks and sharp slopes on lots 1, 2, 3, 4, 6, 9, 10, 11, 12, 13, careful preplanning, prior to grading and construction, will be important to preserve optimal soils, grades and necessary setbacks 5) A representative number of site-specific designs (lots 3 and 10) have been submitted, which indicate an OSSF will be able to satisfy the state's minimum standards and receive a permit 6) Any new water well must comply with the Northern Trinity Groundwater Conservation District's horizonal and vertical separation requirements, which were not included as a part of this review. We have no objections to the continued processing of this plat. If you have any questions please feel free to contact me. Sincerely, Sam Adamie, R.S. Environmental Health Division Tarrant County Public Health cc: Dan Anderson 1 10 1 S. MAIN STREET • FORT WORTH, TEXAS 76104 • IS 17) 321.4700 HTTP: //H EALTH.TARRANTCO U NTY. CO M TARRANT COUNTY PUBLIC HEALTH �a u �';@TCPHTWEETS NO Culp B.S. P.O. Box 986 + Crowley, Texas 76036 Phone (817) 297-2342 + Fax (817) 297-4007 RE: 1825 Maranatha Way Lot 3 and Lot 10 Southlake, Texas Daniel, May 29, 2019 A site specific design was requested for an On -Site Sewage Facility O.S.S.F. was requested for 1825 Maranatha Way Lot 3 and Lot 10. These will also be determined by the Builders and the placement of the house, pools, and driveways. The soil classification is Class III per Soil Evaluation Report. The design was based on a 10,000 Sq. Ft. home ( 9 BRrn ) this would be about 600 gallons a day with a 1200 gallon aerobic unit. The actual Sq. Ft. of the septic field would be 600/20 = 3000 Sq. Ft. with 2 zones. Minimum requirements separation distance Private Water Ponds or Streams Foundations Property Lines Underground Easements Overhead Easements Slopes Ground Water Restrictive Horizons 10 Ft. 50 Ft for Class III soil None 5 Ft. I Ft. None 25 Ft. for Class III soil I Ft. 6 Inches If you have any questions, please call me at 817-297-2342 or 817-996-5040 S in aFI u el . fl��'e Culp R May 29, 2019 DRIP IRRIGATION FOR ON-SITE WASTEWATER DISPOSAL Daniel Anderson Lot 3 1825 Maranatlia Way Southlake, Texas House 9 BRM = 600 Gallons A Day Water Saving Devices Pretreatment Tank 500 Gallon Aerobic Tank 1200 Gallon Pump Tank 750 Gallon 600 Gals. /.20 = 3000 Sq. Ft. Proprietary System Class III Soil 3000 Sq. Ft. /2 Ft. Spacing = 1500 L.F. 1500 L. Ft. / 2 Ft. Spacing Emitters = 750 Emitters Two Zones 75OSq. Ft. per Zone 15x100L.F. 15 x 100 L.F. Flow Rate 15 P.S.I. = 1.3 G.P.H. 750 Emitters x 1.3 = 975 G.P.H. 975 / 60 = 16.25 G.P.M. Irrigation Time 600 Gallons / 4.52 G.P.M. = 36 Minutes Per Day 600 Gallons / 9 = 40 Gallons Per Dosing Pump Size 15 Ft. Head At 30 to 45 P.S.I 150 Mesh Filter Screen & Disc I Inch Depth Of System Cover K -Rain Valve Flush Valve & Vacuum Breaks Tanks to Be pumped Every Two Years 6 To 8 Inches Native Grass 2 Zones 1500 Sq. Ft. Each Each field if 8 Ft. difference in Elevation This design is representative of the current "state of the art" in effluent disposal system design. It should function within normal limits and expectations and without causing significant threat or harm to existing water supply systems, the public health or the threat of pollution or nuisance conditions. However, due to the vagaries of both nature and than, no warranty of this design performance is expressed or implied. SEE ATTACHED PAGES Drip fine Design Site Evaluations Example Designs ti aF r -1%, •••• p3Y W. CULP ° . �0, 2949 18 t fi` 8!0UNA.S��\�$�® tiv � A subsurface drip line irrigation would typically consist of a septic tank, an aerobic unit, a pumping tank, filtration system and the irrigation lines with emitters. The effluent will flow from the residence to the septic tank for settling the solid waste. An aerobic unit will further reduce the effluent by providing a rapid and complete decomposition of organic waste materials and greater reduction of pathogens. The treated effluent will then pass into the pumping tank to be dosed out through the filtration system and into the lines at a predetermined dosing rate. The drainfield shall consist of a matrix of lines and emitters arranged in almost any configuration where the layout would ensure equal distribution throughout the drainfield. The drip irrigation system consist of small diameter pressurized lines buried in the soil. The lines contain pressure reducing emitter spaced at intervals. The purpose of the pressure reducing emitter is to restrict the flow of effluent from the pipe into the surrounding soil to a very low rate. This distribution method promotes uniform wetting of the soil in the root zone of surface vegetation. The shallow depth of installation is an advantage of the drip irrigation system since the topsoil or surface soil is generally the most permeable soil for accepting water. All irrigation systems are dependent on a vegetative cover to prevent erosion from the field and utilize the water applied to the rooting zone. Sites should be quickly sodded or seeded and mulched with appropriate lawn grasses immediately after installation. This design is representative of the current "state of the art" in effluent disposal system design. It should function within normal limits and expectations and without causing significant threat or harm to existing water supply systems, the public health or the threat of pollution or nuisance conditions. However, due to the vagaries of both nature and man, no warranty of this design perfo expressed or implied. KE # ............ OFLE CULP 10 to............ ** ................ 2849 �T R' % SN M0!704 gYr. CLAY cum aor o.re: 5/2 -polo ..3. - ffml . PROJECT N I t DRIVE AND U DRIVE 5 �8y PLANO, TEAS Via € 9 DOY1.E W� C11LF N ND m PROJECT N I t DRIVE AND U DRIVE 5 �8y PLANO, TEAS Via € 9 Aerobic Chlorinator unit / Wastewater /11/ Sampling P box Septic tank level switches IF pump Air compressor Dosing chamber Flush line .,, 5 Treated Effluent -40.- To subsurface drip system Flush valve Valve box Compresion adapter Driplines Emitters Moisture sensor \Ik (optional) Header line_,, - - - - - - - I - - - - - - - - - - - - - Control valve - - - - -- - - E� Treated effluent Screen Filter Timer Water meter Pressure - - - - - - - (optional) regulator valve Box Treated Effluent -40.- To subsurface drip system Flush valve Valve box Mush comarn'-slon ada rit I S, coflet".-rml v N -,o VEROLium Filtered offluent intaf,- 7!f IAl .4 G� T -M -p -Tal Emivofs coflet".-rml v N -,o VEROLium Filtered offluent intaf,- WASTEFLOW Classic Flow Rate vs. Pressure Pressure Head ALL WASTEFLOVI psi. ft. Classic- Dripline, 10 psi 2' )A 0 E .81 gph 15 psi 34.65 ft. 1.00 gph 20 psi 46.20 ft. 1.16 mph 25 psi 57.75 ft, ------- 1 31 -- gph 30 psi 69.30 ft. 1.44c, P.1 35 psl­­ 80 80 1,37 ph 40 psi 92.40 ft. 1.68 goh 45 psi 1013.95 1.80 gph Maximum Length of Run vs. Pressure Flo -,v variation Pressure Head Emitter Spacing psi ft_ 24" .18-1 12" 1.0 -psi 2110 ft. 170* 165' 100' 15 psi 34.65 ft. 170' 165, 100, 20 psi 46-20 ft. 1701 -D 161 25 -psi 57.75 ft. 170' 165' 100 - 30 psi 69-30 ft. 170' 165' 100, 80.85ft. 170' 165' 1001. 40 psi 92.40 ft, -- - 1701 ---- --- 1651 100' 45 psi 103.95 ft, 170' 165' 100'- Kd=0.9 CA- < 05 PSI Available in 2 standard models \VF1 6-4-24 WASTE FLOW ('-'lassie 24"/ 1.3gph WF1 6-4-12 \X7ASTEFLOW Classic 12"/ 1.3gph luternate flog- rates, diameters and spacing aNailable upon request. WASTEFLOW Classic Specification The dripline shall consist of nominal sized one-half inch linear low density Polyethvwith tubing, th turbulent flow drip emitters bonded to the inside wall. The drip emitter flog- .passage ow,passage shall be 0.033" x 0.073" square. The tubing shall have an outside diameter (O.a) of approximately .64 -inches and an inside diameter J.D.) of approximately .55 -inches. The tubing shall consist of three la�lexs; the inside layer shall be Geoshieldg-- protection, the middle layer shall be black and the outside layer shall be purple striped for cam, identification. The dripline shall have emitters regularly spaced 24" (or 12") apart. The turbulent floe- emitters shall be molded from virgin pol\.ett-rdene resin. The turbulent flow emitters shall have nominal discharge rates of 116 gallons per hour at 20 psi. The emitters shall be impregnated with Treflan® to inhibit root intrusion for a minimum period of fifteen years and shall be guaranteed by the manufacturer to inhibit root intrusion for this period, NVASTEFLOW Classic dripline shall be Geoflo-,N- model number VT16-4-24 (or WTI 6-4-1 -2), Wasteflow Clasic I gph Pressure Loss vs. .senth of -Run OF 7-,p .......... -w .... ....... I DOYLE W, CU 1- ............................. 2949 % Wasteflow Clasic I gph Pressure Loss vs. .senth of -Run VHJLVN"VH I 1�1` 'Hill I NVId DNKI"O .\\ `- It J AA �\], - May 29, 2019 DRIP IRRIGATION FOR ON-SITE WASTEWATER DISPOSAL Daniel Anderson Lot 10 1825 Maranatha Way Southlake, Texas House 9 BRM = 600 Gallons A Day Water Saving Devices Pretreatment Tank 500 Gallon Aerobic Tank 1200 Gallon Pump Tank 750 Gallon 600 Gals. /.20 = 3000 Sq. Ft. Proprietary System Class III Soil 3 )000 Sq. Ft. / 2 Ft. Spacing = 1500 L.F. 1500 L. Ft. / 2 Ft. Spacing Emitters = 750 Emitters Two Zones 750 Sq. Ft. per Zone I0x150L.F. 30 x 50 L.F. Flow Rate 15 P.S.I. = 1.3 G.P.H. 750 Emitters x 1.3 = 975 G.P.H. 975 / 60 = 16.25 G.P.M. Irrigation Time 600 Gallons / 4.52 G.P.M. = 36 Minutes Per Day 600 Gallons / 9 = 40 Gallons Per Dosing Pump Size 15 Ft. Head At 30 to 45 P.S.1 150 Mesh Filter Screen & Disc 1 Inch Depth Of System Cover K -Rain Valve Flush Valve & Vacuum Breaks Tanks to Be pumped Every Two Years 6 To 8 Inches Native Grass 2 Zones 1500 Sq. Ft. Each Each field if 8 Ft. difference in Elevation This design is representative of the current "state of the art' in effluent disposal system design. It should function within normal limits and expectations and without causing significant threat or hann to existing water supply systems, the public health or the threat of pollution or nuisance conditions. However, due to the vagaries of both nature and man, no warranty of this design performance is expressed or implied. SEE ATTACHED PAGES Drip Line Design Site Evaluations Example Designs A subsurface drip line irrigation would typically consist of a septic tank, an aerobic unit, a pumping tank, filtration system and the irrigation lines with emitters. The effluent will flow from the residence to the septic tank for settling the solid waste. An aerobic unit will further reduce the effluent by providing a rapid and complete decomposition of organic waste materials and greater reduction of pathogens. The treated effluent will then pass into the pumping tank to be dosed out through the filtration system and into the lines at a predetennined dosing rate. The drainfield shall consist of a matrix of lines and emitters arranged in almost any configuration where the layout would ensure equal distribution throughout the drainfield. The drip irrigation system consist of small diameter pressurized lines buried in the soil. The lines contain pressure reducing emitter spaced at intervals. The purpose of the pressure reducing emitter is to restrict the flow of effluent from the pipe into the surrounding soil to a very low rate. This distribution method promotes uniform wetting of the soil in the root zone of surface vegetation. The shallow depth of installation is an advantage of the drip irrigation system since the topsoil or surface soil is generally the most permeable soil for accepting water. All irrigation systems are dependent on a vegetative cover to prevent erosion from the field and utilize the water applied to the rooting zone. Sites should be quickly sodded or seeded and mulched with appropriate lawn grasses immediately after installation. This design is representative of the current "state of the art" in effluent disposal system design. It should function within normal limits and expectations and without causing significant threat or harm to existing water supply systems, the public health or the threat of pollution or nuisance conditions. However, due to the vagaries of both nature and man, no warranty of this design perfo 0 4rb%�, expressed or implied. A� .......... & 17. VI 10 .0 Le 294 q�Tof r,17 \V Z,,, ,- )o ColqCEpT S,,TE p,_AN PRIM, CT NAY PREMIER DIUVE AND RUJSSEAU P"Nol TEXAS Aerobic Chlorinator unit Wastewater Sampling r, box Septic level tank switches pump Air compressor Dosing chamber Figure 1_. Pretreatment System: Flush cine F I Compresion adapter Driplines Emitters Moisture sensor 41�\ (optional) Header line, ---- - - _ - - - ^ - Control valve ,� � i ooaa q qq o Treated Screen effluent Filter Water meter Pressure Timer i (optional) regulator i - Valve Treated Effluent To subsurface drip system w v � Flush valve Valve box -- ®....rae'a .® �i'TE OFT�c,�,! .................. ... cuLF s ¢+tom ,....•• 2s� ... S 0. t OPAL SANS ti�A4aA"�°' S S olenoid I F'Uerl "p"8tsy rstUM, tO Ane6robito tank Oc-'MoYf-mes-4on amwjjc-- Con,Leal -Tfadvo FlIt'sued onfluamt jnmao--� Flog --h ;jnc- vs-c-uu-n-I bfea�,SF@ pta-e-d eg,�j , Jil 05, E-mitim line, Con,Leal -Tfadvo FlIt'sued onfluamt jnmao--� Flog --h ;jnc- vs-c-uu-n-I bfea�,SF@ pta-e-d eg,�j , WAS TEFLOW Classic Flow Rate vs. Pressure Pressure Head ALL NVASTEFLONXI Psi,- ft. Classic Dripline 10 psi 23.10 ft. .81 gph -- J 5 Psi 334 605 ft. 1.00 gph 20 - psi - MY 100, 9-5 psi 57.75 ft. 1.31 gph 30 psi 6930 ft. 1.44 gph 35 psi 80.85 ft. 1.57 gph 40 psi 92.40 ft. 1.68 gph 45 psi 103.95 1*80 gph Maximum Length of Run vs. Press -are Flow variation +/- 5% Pressure Head Emitter Spacing psi it. 24" 181 12" 10 psi 23.10 ft. 170" MY 100, 15 psi 34.65 ft. 170' 165' 100, 20 psi 46.20 ft. 170' 165' 100, 25 psi 57.75 ft. 170' 165' 100, 30 psiµ 69.30 ft. 170' 165' 100' 35 psi v 80-85 ft. 170' 165 1(10' 40 psi 92.40 ft, 170' 165' 100, 45 psi 103.95 ft. 170' 165' 100" 1td=0.9 Cv < .03 Available in 2 standard models WF16-4-24 V7ASTEF-LONN' Classic 24"/1.3gph WF16-4-12 \VASTEFLOW Classic 12"/1.3gph Alternate flow rates, diameters and spacing available upon request, WASTE, FLOW Classic Specification The dripline shall consist of nominal sized one-half inch linear low density polyethylene tubing, with turbulent flow drip emitters bonded to the inside wall. The drip emitter flog .passage shall be 0.053" x 0.053" square. The cubing shall have an outside diameter (O.D.) of approximateli .64 -inches and an inside diameter J.D.) of approximately .55 -inches. The tubing shall consist of three lavers; the inside laver shall be Geo shieldCz., protection, the middle laver shall be black and the OUtSide jayer shall be purple striped for easy identification. The dripline shall have emitters regularly spaced 24" (or 12") apart. The turbulent flora- emitters shall be molded froth -virgin polyethylene resin. The airbulent flow emitters shall have nominal discharge rates of 1,16 gallons per hour at 20 psi. The emitters shall be impregnated with Treflan( D to inhibit root intrusion for q minimum period of fifteen years and shall be guaranteed by the manufacturer to inhibit root intrusion for this period. V'-,-STEFLOW Classic dripline shall be Geoflo,,i- model number WFI 6-4-24 (or WF1 6-4-12). Wasteflow Classic I gph Pressure Loss vs. Length of Run DAVIS StVM I M 1938 IVARIABLE WIDTH ROW) SfAVC i SCSI M ----F ARANATRA RESIDENTLAL SOUTHLARE, ITXA-,j z > 5f4-10 MN m W., vp m z > m m -A U, ZONING DEVELOPMENT PL SfAVC i SCSI M ----F ARANATRA RESIDENTLAL SOUTHLARE, ITXA-,j