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Home My WebLink AboutCT 14-07; BEACHWALK AT ROOSEVELT; GEOTECHNICAL REVIEW OF BMP DESIGN; 2016-08-09G eoTek, Inc. 1384 Poil\settia Avenue, Suite A Vista, CA 92081-8505 (760) 599-0509 (760) 599-0593 www.geotekusa.com Vesta Pacific Development 1818 Second Avenue San Diego, California 920 I I Attention: Subject: Mr. Geoff McComic Geotechnical Review of BMP Design Beachwalk at Roosevelt 2685, 2687 and 2715 Roosevelt Street Carlsbad, California Dear Mr. McComic: August 9, 2016 Project No. 3447-SD3 As requested presented herewith is discussion of the planned storm water disposal system for the subject property. Geo Tek, Inc. (Geo Tek) has performed an infiltration evaluation at the subject property dated February 27, 2016. The intent of that study was to estimate the infiltration rate in the proposed infiltration area for the project site as indicated to us by Pasco, Laret Suitor and Associates. This report is intended to comply with the now current guidelines as outlined in the Carlsbad BMP Design Manual. The subject project is located at 2685, 2687 and 2715 Roosevelt Street in Carlsbad, California. The subject property was occupied by several old bungalow style residential structures. Plans provided to us indicated that storm water basins are planned along the Roosevelt frontage and extending along the northern side of the property. Percolation/Infiltration Testing Two (2) excavations were dug by hand to a depth of about 3.5 and four (4) feet foot below existing grade in the area of the proposed storm water basins along Roosevelt Street, as provided to Geo T ek. Percolation tests were performed in general accordance with San Diego County DEH procedures. A 6-inch diameter test hole was manually drilled and cleaned using an auger, the side walls were free from smeared soils, approximately 4 inches of fine gravel was placed in the hole, a 3-inch perforated pipe was set in the hole and fine gravel placed around the outside of the pipe. Water was then poured into the pipe to approximately 12 inches above the gravel. Water fel l to below the top of the gravel. We continued to pour additional water in the gravel and a total of approximately 200 were used in PI without ever maintaining a head. Approximately 35 gallons of water were used in P2. Water drained from holes completely. Testing was performed the following day. ....) ~ I .J) a I rr-c VESTA PACIFIC Infiltration Evaluation Beachwalk at Madison. Carlsbad Project No. 3447-$D3 February 27, 2016 Page 3 Testing (see attached) indicated a stabilized infiltration rate of approximately 3.0 gallons/hr/sf in P2. We were unable to determine an accurate rate in PI , data suggests a rate exceeding 5.0 gallons/hr/sf. It should be realized that rates should be expected to vary and may do so significantly. Over the lifetime of the storm water disposal area, the infiltration rate may be affected by silt build up and biological activities, as well as local variations in near surface soil conditions. Discussion Appendix C.4 of the Carlsbad BMP Manual outlines guidelines for the Geotechnical and Groundwater Investigation Report Requirements addressing onsite storm water infiltration. Below we are providing specific answers/comments the address each section of Appendix C.4. We quote each section and then provide an applicable comment in italics. C.4.1 Site Evaluation Site evaluation shall identify the following: • Areas of contaminated soil or contaminated groundwater within the site; There ore no nearby areas of contaminates based on review of Geo Tra cker f,les. • "Brown fields" adjacent to the site; There ore no nearby areas of contaminates based on review of Geo T rocker f,les. • Mapped soil type(s); Site is underlain by porolic deposits. They ore comprised mainly of sands and silty sands with varying grovel and small cobble. • Historic high groundwater (GW) level; There is limited historic GW data. The best available data suggest a depth of SO~. • Slopes steeper than 25 percent; No nearby slopes exceeding 25%. • Location of water supply wells, septic systems (and expansion area), or underground storage tanks, or permitted gray water systems within I 00 feet of a proposed infiltration/ percolation BMP. There is no supply well within that radius in the State Water Doto Ubrory. There or no UST on the Geo Tracker with that radius. There ore sewers in the area and hove been for many years it is unlikely that any active septic systems ore nearby. We inquired at the City of Carlsbad building deportment regarding permitted groywoter; no permits were found for addresses from 2653, 2667, 2650-2740 Roosevelt or for 580 Beech. GEOTEK VESTA PACIFIC Infiltration Evaluation Beachwalk at Madison. Carlsbad C.4.2 Field Investigation Project No. 3447-$D3 February 27, 2016 Page 4 Where the site evaluation indicates potential feasibility for onsite storm water infiltration BMPs, the following field investigations will be necessary to demonstrate suitability and to provide design recommendations. A field evaluation was performed results were discussed above. C.4.2.1 Subsurface Exploration Subsurface exploration and testing for storm water infiltration BMPs shall include: • A minimum of two exploratory excavations shall be conducted within SO-feet of each proposed storm water infiltration BMP. The excavations shall extend at least IO feet below the lowest elevation of the base of the proposed infiltration BMP. Two tests were performed to evaluate the infiltration test results are included herein. While several small basins are planned they are nearly contiguous and therefore addressed as one area. • Soils shall be logged in detail with emphasis on describing the soil profile. Logs of soils encountered are presented on the percolation test results. • Identify low permeability or impermeable materials. None were encountered. • Indicate any evidence of soil contamination. None encountered C.4.2.2 Material Testing and Infiltration/Percolation Testing Various material testing and in situ infiltration/percolation testing methods and guidance for appropriate factor of safety are discussed in detail in Appendix D. Infiltration testing methods described in Appendix D include surface and shallow excavation methods and deeper subsurface tests. Percolation testing in small diameter borings as allowed in the Appendix D. C.4.2.3 Evaluation of Depth to Groundwater An evaluation of the depth to groundwater is required to confirm the feasibility of infiltration. Infiltration BMPs may not be feasible in high groundwater conditions (within IO feet of the base of infiltration/ percolation BMP) unless an exemption is granted by the City. Groundwater was not encountered on the site. A 2003 report for a property north of the Carlsbad Coaster Station (Klienfelder, 2003) and approximately 500ft. west of and roughly 5ft. lower than this site indicates the depth to groundwater exceeding 50ft. deep. C.4.3 Reporting Requirements by Geotechnical Engineer The geotechnical and groundwater investigation report shall address the following key elements, and where appropriate, mitigation recommendations shall be provided. A GEOTEK VESTA PACIFIC Infiltration Evaluation Beachwalk at Madison. Carlsbad Project No. 3447-SD3 February 27, 2016 Page 5 • Identify areas of the project site where infiltration is likely to be feasible and provide justificationsfor selection of those areas based on soil types, slopes. proximity to existing features, etc. Include completed and signed Form 1-8 in Appendix I. Form /-8 is attached. There is no actual signature block on the form but it is attached to this signed report. • Investigate, evaluate and estimate the vertical infiltration rates and capacities in accordance with the guidance provided in Appendix D which describes infiltration testing and appropriate factor of safety to be applied for infiltration testing results. The site may be broken into sub- basins, each of which has different infiltration rates or capacities. Vertical infiltration rates based on conversion using the Porchet method are attached. The Porchet method is used to estimate infiltration rates based on percolation tests. • Describe the infiltration/ percolation test results and correlation with published infiltration/percolation rates based on soil parameters or classification. Recommend providing design infiltration/percolation rate(s) at the sub-basins. Use Form 1-9 in Appendix I. Rates are reasonable for the soil conditions. Sub-basins are not applicable. • Investigate the subsurface geological conditions and geotechnical conditions that would affect infiltration or migration of water toward structures, slopes, utilities, or other features. Describe the anticipated flow path of infiltrated water. Indicate if the water will flow into pavement sections, utility trench bedding, wall drains, foundation drains, or other permeable improvements. Geo Tek performed a Preliminary Geotechnical Evaluation for the project in 20 I 4 which was updated in 20 I 6. Recommendations have been provided for structural foundations near the basin (see Updated Preliminary Geotechnical Evaluation, Beachwalk at Roosevelt· CT 14-07, 2685, 2687 & 2 715 Roosevelt Street, Carlsbad, California by GeoTek, In c. doted April 15, 2016) There are no significant slopes nearby. There is some potential for infiltrated water to migrate toward utility trenches. Sewer lines typically the lowest lines. If water enters the trenches it generally migrates along the pipe bedding. This would not be expected to be a high volume provided there is reasonable separation between the Infiltration area and any permeable backfill. We recommend that low permeability material ( e.g. lean slurry) be used as backfiil in any utility within I Oft. of the infiltration basins. It has previously been recommended to not infiltrate in the basin area above the north retaining wall. In part to avoid the wall drain in that area. • Investigate depth to groundwater and the nature of the groundwater. Include an estimate of the high seasonal groundwater elevations. GEOTEK VESTA PACIFIC Infiltration Evaluation Beachwalk at Madison. Carlsbad Project No. 3447-$D3 February 27, 2016 Page 6 Groundwater was not encountered on the site. A 2003 report for a property north of the Carlsbad Coaster Station (Klienfelder, 2003) and approximately S00fr west of and roughly Sfr lower than this site indicates the depth to groundwater exceeding S0fr deep. Considering the overall geologic conditions significant seasonal GW ffuctuations are not expected. • Evaluate proposed use of the site (industrial use, residential use, etc.), soil and groundwater data and provide a concluding opinion whether proposed storm water infiltration could cause adverse impacts to groundwater quality and if it does cause impacts whether the impacts could be reasonably mitigated or not. The site is proposed for residential use. It is our understanding the bioretention basins are designed to mitigate the potential contaminants generated by this use. This should be limited largely to typical waste from roofs, parking and driveway areas. Assuming proper design and long term maintenance both of which are performed by others then storm water infiltration should not have a negative impact on GW quality. • Estimate the maximum allowable infiltration rates and volumes that could occur at the site that would avoid damage to existing and proposed structures, utilities, slopes, or other features. In addition the report must indicate if the recommended infiltration rate is appropriate based on the conditions exposed during construction. The allowable infiltration rate used in the design is 0.5 inches per hr based on our recommendation this is considered reasonably conservative based on the testing. The volume determination is not a function for the geotechnical consultant. Site construction has not occurred. It is therefore impossible to address the conditions exposed during construction. • Provide a concluding opinion regarding whether or not the proposed onsite storm water infiltration/percolation BMP will result in soil piping, daylight water seepage, slope instability, or ground settlement. It is our conclusion that soil piping, daylight water seepage, slope instability, or ground settlement will not occur as the result of on site infiltration. Provided that recommendations previously provided for use of filter fabric are followed. • Recommend measures to substantially mitigate or avoid any potentially detrimental effects of the storm w ater infiltration BMPs or associated soil response on existing or proposed improvements or structures, utilities, slopes or other features within and adjacent to the site. For example, minimize soil compaction. These were addressed in conjunction with our "Updated Geotechnical Evaluation." • Provide guidance for the selection and location of infiltration BMPs, including the minimum separations between such infiltration BMPs and structures, streets, utilities, manufactured and GEOTEK VESTA PACIFIC Infiltration Evaluation Beachwalk at Madison, Carlsbad Project No. 3447-SD3 February 27, 2016 Page 7 existing slopes, engineered fills, utilities or other features. Include guidance for measures that could be used to reduce the minimum separations or to mitigate the potential impacts of infiltration BMPs. The locations of basins as currently planned are considered acceptable. • Provide a concluding opinion whether or not proposed infiltration BMPs are in conformance with the following design criteria: • Runoff will undergo pretreatment such as sedimentation or filtration prior to infiltration; There is planned pretreatment. • Pollution prevention and source control BMPs are implemented at a level appropriate to protect groundwater quality for areas draining to infiltration BMPs; The BMPs appear appropriate to protect groundwater. • The vertical distance from the base of the infiltration BMPs to the seasonal high groundwater mark is greater than IO feet. This vertical distance may be reduced when the groundwater basin does not support beneficial uses and the groundwater quality is maintained; Criteria is met as basins are currently proposed. • The soil through which infiltration is to occur has physical and chemical characteristics (e.g., appropriate cation exchange capacity, organic content, clay content, and infiltration rate) which are adequate for proper infiltration durations and treatment of runoff for the protection of groundwater beneficial uses; With the treatment as proposed in the BMPs this appears to met and • Infiltration BMPs are located a minimum of I 00 feet horizontally from any water supply wells. There is no record of any well within I 00~ of the site on the California DWR Water Data Ubrary. LIMITATIONS The materials observed on the project site appear to be representative of the area; however, soil materials vary in character between excavations and natural outcrops or conditions exposed during site construction. Site conditions may vary due to seasonal changes or other factors. Geo T ek, Inc. assumes no responsibility or liability for work, testing or recommendations performed or provided by others. GEOTEK VESTA PACIFIC Infiltration Evaluation Beachwalk at Madison, Carlsbad Project No. 3447-SD3 February 27, 2016 Page 8 Our conclusions and recommendations are professional opinions that are limited to the extent of the available data. Observations during construction are important to allow for any change in recommendations found to be warranted. These opinions have been derived in accordance with current standards of practice and no warranty is expressed or implied. Standards of practice are subject to change with time. The opportunity to be of service is sincerely appreciated. If you should have any questions, please do not hesitate to call our office. Respectfully submitted, GeoTek, Inc. Attachment: Infiltration Test Data Figure I -Infiltration Test Location Map Form 18 Distribution: (I) Addressee via email (PDF file) GE O TE K Senior Project Engineer GEOTEK, INC. PERCOLATION TEST DATA SHEET TEST HOLE NO. P ----------------DEPTH OF TEST HOLE: 4 ft TEST HOLE SIZE: 6inch ----------------S O1 L CLASSIFICATION: Light red Brown, sl moist, clean SAND (SW) START STOP PRESOAK PERIOD TIME INTERVAL 10:50 AM 9:15 AM 2/19/16 AMOUNT OF WATER USED 200 Gallons 2/20/16 (no water left in test hole) Unable to fill hole TEST PERIOD Initial Water Final Water _6.in Water Percolation Calculated Time Time Interval (min) Level (inches) Level (inches) Level Rate Infiltration (inches) (min/inch) (gal/hr/sf) 9:20 AM Attempted to fill test hole unable to obtained a 10 inch head 10:00 AM TECHNICIAN: WD/TM DATE: 2/20/2016 ------------- TEST HOLE NO. p 2 DEPTH OF TEST HOLE: 4 TEST HOLE SIZE: 6inch -,----,,----------------,---SOIL CLASSIFICATION: Red Brown, Slightly Clayey Sand, Moist (SC) START STOP PRESOAK PERIOD TIME INTERVAL 11:30 AM 10:15 AM 2/19/16 AMOUNT OF WATER USED 35 Gallons 2/20/16 (no water left in test hole) TEST PERIOD Initial Water Final Water ~n Water Percolation Calculated Time Time Interval (min) Level (inches) Level (inches) Level Rate Infiltration (inches) (min/inch) (gal/hr/sf) 10:20 AM 10:30 AM 10 10.0 1.9 8.1 1.2 3.0 10:32 AM 10:42 AM 10 10.0 1.8 8.2 1.2 3.1 10:45 AM 10 10.0 1.8 8.2 1.2 3.1 10:55 AM 10:58 AM 10 11 :08 AM 10.0 1.8 8.2 1.2 3.1 TECHNICIAN: WD/TM DATE: 2/20/2016 ------------- Roosevelt Not to Scale Geotechnical Legend $ Percolation Test Location P-2 All locations approximate II " ;; I . ~ , --a- Beachwalk on Roosevelt PN: 3447-SDJ : ::; I .., llac --= .. -=-=-:.:-I ---_, L ____ ..__~---- --l_"_ --'--- • )! • r I I -, I ~ · __ : · 1;l I II l r iO C) C) tj) rn < TTi 1- -i tj) --l iQ m rn -i Feb 20/ 6 Percolation Test Location Map I I I I I I I I I I I I I I I ' I I I I I I I I I t I I I ' I I I 1 I I I Figure 1 Appendix I: Forms and Checklists Part 1 -Full Infiltration Feasibilicy Screening Criteria Would infiltration of the full design volume be feasible from a physical perspective without any undesirable consequences that cannot be reasonably mitigated? Criteria Screening Question Is the estimated reliable infiltration rate below proposed facility locations greater than 0.5 inches per hour? The response to this Screening Question shall be based on a comprehensive evaluation of the factors presented in Appendix C.2 and Appendix D. Provide basis: Yes No □ Pursuant to the letter report dated February 27, 2016 prepared by Geotek, Inc. which summarized the results of their infiltration analysis for the project, a percolation test was performed which showed an infiltration rate of 1.7 in/hr. Refer to the letter report for more details. Summarize findings of studies; provide reference to studies, calculations, maps, data sources, etc. Provide narrative discussion of study/data source applicability. 2 Can infiltration greater than 0.5 inches per hour be allowed without increasing risk of geotechnical hazards (slope stability, groundwater mounding, utilities, or other factors) that cannot be mitigated to an acceptable level? The response to this Screening Question shall be based on a comprehensive evaluation of the factors presented in Appendix C.2. Provide basis: □ The site is underlain by paralic deposits (GeoTek, 2014) which is generally dense granular material and are not subject to the following: Hydro collapse and calcareous soils; Expansive soils; Frost heave (due to climate); Consolidation; and Liquefaction. There are no nearby slopes to consider for stability issues. The groundwater depth in the downtown Carlsbad area can vary although depths on the order of 30 feet are typical. Groundwater mounding could potentially occur for brief periods however this would be a localize issue an and quickly dissipate due to the generally high permeablility of the paralic deposits. The water potential could enter Utility trench backfills however it should quickly disapate. No long term concerns are anticipated. Locally deepened foundations are appropriate based on proximity of foundatiojns and basin. Summarize findings of studies; provide reference to studies, calculations, maps, data sources, etc. Provide narrative discussion of study/ data source applicability. 1-3 February 2016 Appendix I: Forms and Checklists ,. . ;. \. Criteri a 3 ·, .. • '· ;=· Form 1-8 ~age 2 <>f 4 Screening Question Can infiltration greater than 0.5 inches per h our be allowed without increasing risk of groundwater contamination (shallow water table, storm water pollutants or other factors) that cannot b e mitigated to an acceptable level? TI1e response to rJ1is Screening Question shall be based on a comprehensive evaluation of rJ1e factors presented in Appendix C3. Provide basis: Yes No □ The rapid infiltration rate is based on the sandy nature of the soils encounter these sandy zones are typical within the paralic deposits although they are neither laterally nor vertically continuous due to the lensing and layering. Much cleansing action of these basins takes place in the man made bio-filtration materials so that the underlying paralic deposits provide secondary cleansing . The water potentially could enter Utility trench backfills however it would be expected to dissapate rapidly. No long term concerns are anticipated. Based on reveiw of records through the Geo Tracker system there does not appear to be any active remediation either up or down gradient that need be considered. There is no indication of seasonal groundwater within 20 feet of the ground surface. No nearby water well records are indicated on the DWR Water Data Library Swnmarize findings of studies; provide reference to studies, calculations, maps, data sources, etc. Provide narrative discussion of study/ data source applicability. 4 Can infiltration greater than 0.5 inches per hour be allowed without causing potential water balance issues such as change of seasonality of ephemeral streams or increased discharge of contaminated groundwater to surface waters? The response to this Screening Question shall be based on a comprehensive evaluation of rJ1e factors presented in Appendix C3. Provide basis: □ There are no nearby stream or surface waters in close proximity to the site. The Pacific Ocean is the nearest surface water is roughly 2000 feet to southwest Swnmarize findings of studies; provide reference to studies, calculations, maps, data sources, etc. Provide narrative discussion of study/data source applicability. Part 1 Result * If all answers to rows 1 -4 are ''Yes" a full infiltration design is potentially feasible. The feasibility screening category is Full Infiltration If any answer from row 1-4 is "No", infiltration may be possible to some extent but would not generally be feasible or desirable to achieve a "full infiltration" design. Proceed to Part 2 *To be completed using gathered site information and best professional judgment considerii1g rJ1e definition of l'vIEP in the MS4 Permit. Additional testing and/ or studies may be required by the City to substantiate findings. I-4 February 2016 Appendix I: Forms and Checklists Part 2 -Partial Infiltration vs. No Infiltration Feasibility Screening Criteria Would infiltration of water in any appreciable amount be physically feasible without any negative consequences that cannot be reasonably mitigated? Criteria 5 Screening Question Do soil and geologic conditions allow for infiltration in any appreciable rate or volume? The response to th.is Screening Question shalJ be based on a comprehensive evaluation of the factors presented in Appendix C.2 and Appendix D. Provide bas.is: Yes No □ □ Summarize findings of studies; provide reference to studies, calculations, maps, data sources, etc. Provide narrative discussion of study/data source applicability and why i1 was not feasible to mitigate low infiltration rates. 6 Can Infiltration in any appreciable quantity be allowed without increasing risk of geotechnical hazards (slope stability, groundwater mounding, utilities, or other factors) that cannot be mitigated to an acceptable level? 'The response to this Screening Question shall be based on a comprehensive evaluation of the factors presented in Appendix C.2. Provide basis: □ □ Summarize findings of studies; provide reference to studies, calculations, maps, da ta sources, etc. Provide narrative discussion of study/data source applicability and why it was not feasible to mitigate low infiltration rates. 1-5 February 2016 .. Appendix I: Forms and Checklists '. • ... ·• Criteria 7 Screening Question Can Infiltration in any appreciable quantity be allowed without posing significant risk for groundwater related concerns (shallow water table, storm water pollutants or other factors)? 111e response to this Screening Question shall be based on a comprehensive evaluation of the factors presented in Appendix C.3. Provide basis: Yes No □ □ Summarize findings of studies; provide reference to studies, calculations, maps, data sources, etc. Provide narrative discussion of study/data source applicability and why it was not feasible to mitigate low infiltration rates. 8 Can infiltration be allowed without violating downstream water rights? The response to this Screening Question shall be based on a comprehensive evaluation of the factors presented in Appendix C.3. Provide basis: □ □ Summarize findings of srudies; provide reference to studies, calculations, maps, data sources, etc. Provide narrative discussion of study/ data source applicability and why it was not feasible to mitigate low infiltration rates. Part 2 Result* If all answers from row 5-8 arc yes then partial infiltration design is potentially feasible. The fcasibili ty screening category is Partial Infiltration. If any answer from row 5-8 is no, then infiltration of any volume is considered ro be infeasible within the drainage area. 111e feasibility screening category is No Infiltration. *'fo be coinpleted us111g gathered sue mfonnat:ton and best professional Judgment consJdering the definition of ~fEP 1n the MS4 Permit. Additional testing and/or studies may be required by the City to substantiate findings. 1-6 February 2016