{"id":280,"date":"2023-02-22T18:00:08","date_gmt":"2023-02-22T23:00:08","guid":{"rendered":"http:\/\/core.loc\/development\/?page_id=280"},"modified":"2026-07-06T21:35:26","modified_gmt":"2026-07-07T01:35:26","slug":"f-10-subsurface-infiltration","status":"publish","type":"page","link":"https:\/\/water.phila.gov\/development\/stormwater-plan-review\/manual\/appendices\/f-design-guidance-checklists\/f-10-subsurface-infiltration\/","title":{"rendered":"F.10 Subsurface Infiltration"},"content":{"rendered":"\n<h4 class=\"wp-block-heading f-10-subsurface-infiltration\">F.10.1 Subsurface infiltration plan standards<\/h4>\n\n\n\n<ol class=\"wp-block-list\">\n<li>Verify that the plans include an appropriate sequence of construction that is specific to the construction of the subsurface infiltration SMP. Refer to Section&nbsp;4.4.5 for guidance. [Section&nbsp;2.3.1]<\/li>\n\n\n\n<li>To avoid soil disturbance and compaction during construction, verify that the infiltration area is proposed to be clearly marked before any site work begins. [Section&nbsp;4.4.5,&nbsp;1]<\/li>\n\n\n\n<li>Verify that the plans include an appropriate cross-sectional detail for the subsurface infiltration SMP. [Section&nbsp;2.3.1]<\/li>\n<\/ol>\n\n\n\n<h4 class=\"wp-block-heading\">F.10.2 Subsurface infiltration design standards<\/h4>\n\n\n\n<ol class=\"wp-block-list\">\n<li>Verify that the SMP drains within the acceptable 72\u2011hour period after the 24\u2011hour storm event. [Section&nbsp;4.4.3,&nbsp;1]<\/li>\n\n\n\n<li>Verify that the loading ratio of DCIA to the horizontal footprint of the subsurface infiltration SMP does not exceed 10:1. [Section&nbsp;4.4.3,&nbsp;2]<\/li>\n\n\n\n<li>Verify that positive overflow is provided for large storm events, up to and including the 100\u2011year, 24\u2011hour storm event, or, if the project is exempt from Flood Control, the ten\u2011year, 24\u2011hour storm. [Section&nbsp;4.4.3,&nbsp;3]<\/li>\n\n\n\n<li>Verify that overflow structures and pipes are designed to convey at least the ten\u2011year, 24\u2011hour storm event. [Section&nbsp;4.4.3,&nbsp;3]<\/li>\n\n\n\n<li>Verify that the distance between subsurface infiltration basins and any adjacent private property line is at least ten&nbsp;feet. This includes partially lined basins. It is acceptable for SMPs to be located directly adjacent to the public right-of-way (ROW) (unless a deed restriction is put in place extending at least ten&nbsp;feet from the perimeter of the infiltrating SMP). [Section&nbsp;4.4.3,&nbsp;4]<\/li>\n\n\n\n<li>Verify that the distance between subsurface infiltration basins and any building or retaining wall is at least ten&nbsp;feet. This includes partially lined basins. The following requirements and exceptions apply: [Section&nbsp;4.4.3,&nbsp;5]\n<ol style=\"list-style-type:lower-alpha\" class=\"wp-block-list\">\n<li>For existing and proposed buildings with basements, the setback is measured from the basement&nbsp;wall.<\/li>\n\n\n\n<li>For existing buildings without basements and existing retaining walls, the setback is measured from the foundation and may be waived if a signed and sealed geotechnical analysis is submitted that evaluates the impacts of infiltration and excavation on the existing foundation and determines it to be feasible.<\/li>\n\n\n\n<li>For proposed buildings without basements and proposed retaining walls, the setback is measured from the foundation and may be waived if the foundation is proposed to be designed with the basin\u2019s proximity in mind.<\/li>\n<\/ol>\n<\/li>\n\n\n\n<li>Verify that the invert elevation of the subsurface infiltration SMP is at least two&nbsp;feet above any poorly infiltrating soils, seasonal high groundwater table, bedrock, or any other limiting zone. [Section&nbsp;4.4.3,&nbsp;6b]<\/li>\n\n\n\n<li>For hydrologic modeling, verify that the design infiltration rate is applied to the horizontal surface area (SMP footprint), not the wetted area. [Section&nbsp;4.4.3,&nbsp;6c]<\/li>\n\n\n\n<li class=\"keep-together\">Verify that the soils underlying the subsurface infiltration SMP are determined to be infiltration feasible. If infiltration feasibility is unknown and determination is deferred until construction, the applicant must submit two complete designs (e.g. plans, calculations, Online Technical Worksheet, etc.) for both infiltrating and non-infiltrating scenarios to be fully reviewed. A PCSMP Conditional Approval will be issued, and the approval letter will feature both plan sets. Following infiltration testing, only the applicable design\u2019s plan set will be included on the PCSMP Approval Letter. [Section&nbsp;4.4.3,&nbsp;6d]<\/li>\n\n\n\n<li>Verify that any soils with test infiltration rates in excess of ten&nbsp;inches per hour are proposed to receive soil amendments. [Section&nbsp;4.4.3,&nbsp;6e]<\/li>\n\n\n\n<li>If the infiltration SMP is used as a temporary sediment basin during construction, verify that the invert elevation of the infiltration SMP is a minimum of three&nbsp;feet below the bottom elevation of the pre-basin-conversion sediment basin. [Section&nbsp;4.4.3,&nbsp;6f]<\/li>\n\n\n\n<li>Verify that any infiltrating SMP within the zone of influence of any nearby sewers or sewer laterals is installed with an impervious liner. The zone of influence is defined by the area within a 1:1 (H:V) slope line from the outer edge of a sewer or sewer lateral. [Section&nbsp;4.4.3,&nbsp;6g]<\/li>\n\n\n\n<li>Verify that pretreatment is provided for all runoff entering the subsurface infiltration SMP, including pretreatment of runoff from all inlets. At a minimum, this can be achieved through the use of sumps and traps for inlets, sump boxes with traps downstream of trench drains, and filter strips for overland flow. [Section&nbsp;4.4.3,&nbsp;8]<\/li>\n\n\n\n<li>Verify that the storage area provides static storage for the Water Quality Volume (WQv) between the bottom elevation of the subsurface infiltration SMP and the elevation of the lowest outlet, including storage voids. Storage or distribution pipes alone are not sufficient in providing static storage. A minimum of at least three&nbsp;inches of forced storage via an outlet control device is recommended in order to give the statically stored volume time to infiltrate. [Section&nbsp;4.4.3,&nbsp;11]<\/li>\n\n\n\n<li>Verify that the maximum storage volume statically stored within the subsurface infiltration SMP without supporting documentation (defined below) is the runoff volume from the one\u2011year, 24\u2011hour storm event. [Section&nbsp;4.4.3,&nbsp;12]<\/li>\n\n\n\n<li>Verify that the maximum storage volume statically stored within the subsurface infiltration SMP with supporting documentation is the runoff volume from the ten\u2011year, 24\u2011hour storm event. Requirements for supporting documentation include a letter, signed and sealed by both the geotechnical and design engineer, indicating that the proposed design is recommended, with the following components acknowledged and considered. The designer is encouraged to contact PWD for further guidance when pursuing this design. [Section&nbsp;4.4.3,&nbsp;13]\n<ol style=\"list-style-type:lower-alpha\" class=\"wp-block-list\">\n<li>A summary of the long-term impacts to the neighboring properties, including, but not limited to subsidence, change in basement moisture\/ water, and structural damage;<\/li>\n\n\n\n<li>The location of the groundwater table;<\/li>\n\n\n\n<li>References to other projects that have successfully infiltrated more than the one\u2011year, 24\u2011hour storm event; and<\/li>\n\n\n\n<li>Rigorous pretreatment to promote longevity of the infiltration&nbsp;SMP.<\/li>\n<\/ol>\n<\/li>\n\n\n\n<li>Verify that, when SMPs are used in series, the storage areas for all SMPs provide cumulative static storage for the WQv. [Section&nbsp;4.4.3,&nbsp;14]<\/li>\n\n\n\n<li>Verify that void space provided by linear chamber systems, plastic grids, or other related structures is as specified by the manufacturer and noted in supporting documentation. [Section&nbsp;4.4.3,&nbsp;16]<\/li>\n\n\n\n<li>Verify that pipe, vault, grid, and chamber storage areas are adequately bedded with stone to prevent settling or subsidence. [Section&nbsp;4.4.3,&nbsp;17a]<\/li>\n\n\n\n<li>Verify that bedding thickness is not less than six&nbsp;inches. [Section&nbsp;4.4.3,&nbsp;17b]<\/li>\n\n\n\n<li>Verify that foundations\/footers are provided as warranted by system loading, geotechnical conditions, and manufacturer\u2019s recommendations. Foundation designs must be performed by an appropriate design professional. [Section&nbsp;4.4.3,&nbsp;17d]<\/li>\n\n\n\n<li>Verify that the storage design accounts for potential loading from vehicles, as appropriate, based on expected maximum active loading, including consideration for emergency vehicles. [Section&nbsp;4.4.3,&nbsp;18]<\/li>\n\n\n\n<li>Verify that the porosity values used for storage volume calculations are as follows: [Section&nbsp;4.4.3,&nbsp;19]\n<ol style=\"list-style-type:lower-alpha\" class=\"wp-block-list\">\n<li>Soil media: 0.20<\/li>\n\n\n\n<li>Sand: 0.30<\/li>\n\n\n\n<li>Stone: 0.40<\/li>\n<\/ol>\n<\/li>\n\n\n\n<li>Verify that the stone storage layer, if proposed, is separated from soil media by a geotextile or pea gravel filter to prevent sand, silt, and sediment from entering the system. [Section&nbsp;4.4.3,&nbsp;20]<\/li>\n\n\n\n<li>Verify that stone storage systems have a level bottom or use a terraced system if installed along a slope. [Section&nbsp;4.4.3,&nbsp;21]<\/li>\n\n\n\n<li>Verify that an adequate number of appropriately placed cleanouts, manholes, access panels and other access features are provided to allow unobstructed and safe access to the subsurface infiltration SMP for routine maintenance and inspection of inflow, outflow, underdrains, and storage systems. [Section&nbsp;4.4.3,&nbsp;23]<\/li>\n\n\n\n<li>Verify that observation wells are provided for SMPs that include stone storage and that they meet the following requirements: \n<ol style=\"list-style-type:lower-alpha\" class=\"wp-block-list\">\n<li>The observation well must be placed at the invert of the stone bed. [Section&nbsp;4.4.3,&nbsp;24a]<\/li>\n\n\n\n<li>The observation well must be located near the center of the stone bed system to monitor the level and duration of water stored within the SMP (drain down time). A minimum of six&nbsp;inches of clearance must be provided between the edge of the observation well\u2019s concrete ring or frame and any nearby site features (curbing, tree pits, sidewalk edge, etc.). Plan view dimensioning for the proposed location of the observation well, relative to the boundaries of the SMP it lies within, must be provided on the plans. [Section&nbsp;4.4.3,&nbsp;24b]<\/li>\n\n\n\n<li>Adequate inspection and maintenance access to the observation well must be provided. [Section&nbsp;4.4.3,&nbsp;24c]<\/li>\n\n\n\n<li>An observation well located in a paved area must be outfitted with a cover and frame. The cover plate must be installed flush with the surrounding surface at finished grade, and grading should drain away from the observation well wherever possible. The solid section of the observation well must extend into the cover frame enough such that a bentonite\/cement seal can be placed around the well within the frame, and a solid slip-on cap can be fitted onto the pipe end. [Section&nbsp;4.4.3,&nbsp;24d]<\/li>\n\n\n\n<li>An observation well located in an unpaved area must have a concrete ring or frame poured for support, with three lengths of rebar evenly spaced around the ring and three&nbsp;inches from its outer edge. The observation well should be located outside of the ponding area of any surface SMPs. If, due to space limitations, an observation well must be placed in the ponding area of a surface SMP, the concrete ring and well cover must extend three&nbsp;inches above the SMP\u2019s maximum ponding depth. [Section&nbsp;4.4.3,&nbsp;24e]<\/li>\n\n\n\n<li>The observation well must include a slotted section within the storage layer of the SMP. The top of the slotted well section must extend to a minimum of six&nbsp;inches below the top of the SMP storage layer, and the slotted section must extend down the entire depth of the SMP. [Section&nbsp;4.4.3,&nbsp;24f]<\/li>\n<\/ol>\n<\/li>\n\n\n\n<li>Verify that access features are provided for any subsurface infiltration SMP that is not comprised of a stone storage bed. [Section&nbsp;4.4.3,&nbsp;25a]<\/li>\n\n\n\n<li>Verify that a sufficient number of access points in the SMP are provided to efficiently inspect and maintain the infiltration area. [Section&nbsp;4.4.3,&nbsp;25b]<\/li>\n\n\n\n<li>For cast-in-place vault systems, verify that access features consist of manholes or grated access panels or doors. Grated access panels are preferred to maintain airflow. [Section&nbsp;4.4.3,&nbsp;25c]<\/li>\n\n\n\n<li>For grid storage or other manufactured systems, verify that the manufacturer\u2019s recommendations are followed. [Section&nbsp;4.4.3,&nbsp;25d]<\/li>\n\n\n\n<li>Verify that ladder access is proposed for vaults greater than four&nbsp;feet in height. [Section&nbsp;4.4.3,&nbsp;25e]<\/li>\n\n\n\n<li>Verify that header pipes, at minimum 36\u2011inch diameter, connected to manholes at each corner of the subsurface infiltration SMP are provided. Alternatively, smaller header pipes may be used if cleanouts are provided on the manifold\/header pipe junction for each distribution pipe. The cleanouts must be on alternating sides of the SMP. [Section&nbsp;4.4.3,&nbsp;25f]<\/li>\n<\/ol>\n\n\n\n<h4 class=\"wp-block-heading\">F.10.3 Subsurface infiltration material standards<\/h4>\n\n\n\n<ol class=\"wp-block-list keep-together\">\n<li>Verify that stone designed for stormwater storage, if proposed, is specified on the plans as being uniformly graded, crushed, clean-washed stone and that it is noted that PWD defines \u201cclean-washed\u201d as having less than 0.5% wash loss, by mass, when tested per the AASHTO T-11 wash loss test. AASHTO No.&nbsp;3 and No.&nbsp;57 stone can meet this specification. [Section&nbsp;4.4.4,&nbsp;3]<\/li>\n\n\n\n<li>Verify that sand, if proposed, is specified on the plans to be AASHTO&nbsp;M\u20116 or ASTM&nbsp;C\u201133 sand and to have a grain size of 0.02&nbsp;inches to 0.04&nbsp;inches. [Section&nbsp;4.4.4,&nbsp;4]<\/li>\n\n\n\n<li>Verify that storage pipe, if proposed, is specified on the plans as meeting the following specifications:\n<ol style=\"list-style-type:lower-alpha\" class=\"wp-block-list\">\n<li>Pipe used within the subsurface infiltration SMP must be continuously perforated and have a smooth interior with a minimum inner diameter of four&nbsp;inches. [Section&nbsp;4.4.4,&nbsp;5a]<\/li>\n\n\n\n<li>High-density polyethylene (HDPE) pipe, if proposed, must meet the specifications of AASHTO&nbsp;M252, Type&nbsp;S or AASHTO&nbsp;M294, Type&nbsp;S. [Section&nbsp;4.4.4,&nbsp;5b]<\/li>\n\n\n\n<li>Any pipe materials outside the SMP are to meet City Plumbing Code Standards. [Section&nbsp;4.4.4,&nbsp;5c]<\/li>\n<\/ol>\n<\/li>\n\n\n\n<li>Verify that geotextile, if proposed, is specified on the plans to consist of polypropylene fibers and to meet the following specifications (AASHTO Class&nbsp;1 or Class&nbsp;2 geotextile is recommended): [Section&nbsp;4.4.4,&nbsp;6]\n<ol style=\"list-style-type:lower-alpha\" class=\"wp-block-list\">\n<li>Grab Tensile Strength (ASTM-D4632): \u2265&nbsp;205&nbsp;lbs<\/li>\n\n\n\n<li>CBR Puncture Strength (ASTM-D6241): \u2265&nbsp;500&nbsp;lbs<\/li>\n\n\n\n<li>Flow Rate (ASTM-D4491): \u2265&nbsp;95&nbsp;gal\/min\/ft2<\/li>\n\n\n\n<li>UV Resistance after 500&nbsp;hrs (ASTM-D4355): \u2265&nbsp;70%<\/li>\n\n\n\n<li>Tear Resistance (ASTM-D4533): \u2265&nbsp;80&nbsp;lbs<\/li>\n\n\n\n<li>Heat-set or heat-calendared fabrics are not permitted.<\/li>\n<\/ol>\n<\/li>\n\n\n\n<li>Verify that the observation well is specified on the plans as meeting the following specifications: \n<ol class=\"wp-block-list\">\n<li>The observation well must consist of slotted plastic pipe with a minimum inner diameter of four&nbsp;inches and a solid cap at the surface. The slotted section of the well must consist of PVC slotted well screen with 0.01\u2011inch slot size and an attached perforated PVC cap at the bottom. [Section&nbsp;4.4.4,&nbsp;8a]<\/li>\n\n\n\n<li>The observation well\u2019s cover must be ductile iron in a gray iron frame. [Section&nbsp;4.4.4,&nbsp;8b]<\/li>\n\n\n\n<li>For an observation well located in an unpaved area, the well\u2019s concrete ring must be a minimum of six&nbsp;inches wider in any dimension than the cover frame, of equal depth as the cover frame itself, and poured atop a minimum of six&nbsp;inches of AASHTO #57 stone bedding. A frame conforming to these minimum dimensions may be circular or square. [Section&nbsp;4.4.4,&nbsp;8c]<\/li>\n<\/ol>\n<\/li>\n\n\n\n<li>Verify that cleanouts are made of material with a smooth interior having an inner diameter that is no less than six&nbsp;inches. If the connecting pipe is eight&nbsp;inches in diameter or larger, verify that the cleanout is eight&nbsp;inches in diameter. [Section&nbsp;4.4.4,&nbsp;9]<\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"<p>F.10.1 Subsurface infiltration plan standards F.10.2 Subsurface infiltration design standards F.10.3 Subsurface infiltration material standards<\/p>\n","protected":false},"author":3,"featured_media":0,"parent":898,"menu_order":10,"comment_status":"closed","ping_status":"closed","template":"page-manual.php","meta":{"custom_css":"","custom_js":"","dp_submitted":"0","dp_notify":"0","dp_created":"","version":"","effective":"","short-page-title":"","noindex":"","pwd_rlv_phrase_match":"f 10 subsurface infiltration | f 10 subsurface infiltration | f 10 1 subsurface infiltration plan standards | verify that the plans include an appropriate sequence of construction that is specific to the construction of the subsurface infiltration smp refer to section 4 4 5 for guidance section 2 3 1 | to avoid soil disturbance and compaction during construction verify that the infiltration area is proposed to be clearly marked before any site work begins section 4 4 5 1 | verify that the plans include an appropriate cross sectional detail for the subsurface infiltration smp section 2 3 1 | f 10 2 subsurface infiltration design standards | verify that the smp drains within the acceptable 72 hour period after the 24 hour storm event section 4 4 3 1 | verify that the loading ratio of dcia to the horizontal footprint of the subsurface infiltration smp does not exceed 10 1 section 4 4 3 2 | verify that positive overflow is provided for large storm events up to and including the 100 year 24 hour storm event or if the project is exempt from flood control the ten year 24 hour storm section 4 4 3 3 | verify that overflow structures and pipes are designed to convey at least the ten year 24 hour storm event section 4 4 3 3 | verify that the distance between subsurface infiltration basins and any adjacent private property line is at least ten feet this includes partially lined basins it is acceptable for smps to be located directly adjacent to the public right of way row unless a deed restriction is put in place extending at least ten feet from the perimeter of the infiltrating smp section 4 4 3 4 | verify that the distance between subsurface infiltration basins and any building or retaining wall is at least ten feet this includes partially lined basins the following requirements and exceptions apply section 4 4 3 5 | for existing and proposed buildings with basements the setback is measured from the basement wall | for existing buildings without basements and existing retaining walls the setback is measured from the foundation and may be waived if a signed and sealed geotechnical analysis is submitted that evaluates the impacts of infiltration and excavation on the existing foundation and determines it to be feasible | for proposed buildings without basements and proposed retaining walls the setback is measured from the foundation and may be waived if the foundation is proposed to be designed with the basins proximity in mind | verify that the invert elevation of the subsurface infiltration smp is at least two feet above any poorly infiltrating soils seasonal high groundwater table bedrock or any other limiting zone section 4 4 3 6b | for hydrologic modeling verify that the design infiltration rate is applied to the horizontal surface area smp footprint not the wetted area section 4 4 3 6c | verify that the soils underlying the subsurface infiltration smp are determined to be infiltration feasible if infiltration feasibility is unknown and determination is deferred until construction the applicant must submit two complete designs e g plans calculations online technical worksheet etc for both infiltrating and non infiltrating scenarios to be fully reviewed a pcsmp conditional approval will be issued and the approval letter will feature both plan sets following infiltration testing only the applicable designs plan set will be included on the pcsmp approval letter section 4 4 3 6d | verify that any soils with test infiltration rates in excess of ten inches per hour are proposed to receive soil amendments section 4 4 3 6e | if the infiltration smp is used as a temporary sediment basin during construction verify that the invert elevation of the infiltration smp is a minimum of three feet below the bottom elevation of the pre basin conversion sediment basin section 4 4 3 6f | verify that any infiltrating smp within the zone of influence of any nearby sewers or sewer laterals is installed with an impervious liner the zone of influence is defined by the area within a 1 1 h v slope line from the outer edge of a sewer or sewer lateral section 4 4 3 6g | verify that pretreatment is provided for all runoff entering the subsurface infiltration smp including pretreatment of runoff from all inlets at a minimum this can be achieved through the use of sumps and traps for inlets sump boxes with traps downstream of trench drains and filter strips for overland flow section 4 4 3 8 | verify that the storage area provides static storage for the water quality volume wqv between the bottom elevation of the subsurface infiltration smp and the elevation of the lowest outlet including storage voids storage or distribution pipes alone are not sufficient in providing static storage a minimum of at least three inches of forced storage via an outlet control device is recommended in order to give the statically stored volume time to infiltrate section 4 4 3 11 | verify that the maximum storage volume statically stored within the subsurface infiltration smp without supporting documentation defined below is the runoff volume from the one year 24 hour storm event section 4 4 3 12 | verify that the maximum storage volume statically stored within the subsurface infiltration smp with supporting documentation is the runoff volume from the ten year 24 hour storm event requirements for supporting documentation include a letter signed and sealed by both the geotechnical and design engineer indicating that the proposed design is recommended with the following components acknowledged and considered the designer is encouraged to contact pwd for further guidance when pursuing this design section 4 4 3 13 | a summary of the long term impacts to the neighboring properties including but not limited to subsidence change in basement moisture water and structural damage | the location of the groundwater table | references to other projects that have successfully infiltrated more than the one year 24 hour storm event and | rigorous pretreatment to promote longevity of the infiltration smp | verify that when smps are used in series the storage areas for all smps provide cumulative static storage for the wqv section 4 4 3 14 | verify that void space provided by linear chamber systems plastic grids or other related structures is as specified by the manufacturer and noted in supporting documentation section 4 4 3 16 | verify that pipe vault grid and chamber storage areas are adequately bedded with stone to prevent settling or subsidence section 4 4 3 17a | verify that bedding thickness is not less than six inches section 4 4 3 17b | verify that foundations footers are provided as warranted by system loading geotechnical conditions and manufacturers recommendations foundation designs must be performed by an appropriate design professional section 4 4 3 17d | verify that the storage design accounts for potential loading from vehicles as appropriate based on expected maximum active loading including consideration for emergency vehicles section 4 4 3 18 | verify that the porosity values used for storage volume calculations are as follows section 4 4 3 19 | soil media 0 20 | sand 0 30 | stone 0 40 | verify that the stone storage layer if proposed is separated from soil media by a geotextile or pea gravel filter to prevent sand silt and sediment from entering the system section 4 4 3 20 | verify that stone storage systems have a level bottom or use a terraced system if installed along a slope section 4 4 3 21 | verify that an adequate number of appropriately placed cleanouts manholes access panels and other access features are provided to allow unobstructed and safe access to the subsurface infiltration smp for routine maintenance and inspection of inflow outflow underdrains and storage systems section 4 4 3 23 | verify that observation wells are provided for smps that include stone storage and that they meet the following requirements | the observation well must be placed at the invert of the stone bed section 4 4 3 24a | the observation well must be located near the center of the stone bed system to monitor the level and duration of water stored within the smp drain down time a minimum of six inches of clearance must be provided between the edge of the observation wells concrete ring or frame and any nearby site features curbing tree pits sidewalk edge etc plan view dimensioning for the proposed location of the observation well relative to the boundaries of the smp it lies within must be provided on the plans section 4 4 3 24b | adequate inspection and maintenance access to the observation well must be provided section 4 4 3 24c | an observation well located in a paved area must be outfitted with a cover and frame the cover plate must be installed flush with the surrounding surface at finished grade and grading should drain away from the observation well wherever possible the solid section of the observation well must extend into the cover frame enough such that a bentonite cement seal can be placed around the well within the frame and a solid slip on cap can be fitted onto the pipe end section 4 4 3 24d | an observation well located in an unpaved area must have a concrete ring or frame poured for support with three lengths of rebar evenly spaced around the ring and three inches from its outer edge the observation well should be located outside of the ponding area of any surface smps if due to space limitations an observation well must be placed in the ponding area of a surface smp the concrete ring and well cover must extend three inches above the smps maximum ponding depth section 4 4 3 24e | the observation well must include a slotted section within the storage layer of the smp the top of the slotted well section must extend to a minimum of six inches below the top of the smp storage layer and the slotted section must extend down the entire depth of the smp section 4 4 3 24f | verify that access features are provided for any subsurface infiltration smp that is not comprised of a stone storage bed section 4 4 3 25a | verify that a sufficient number of access points in the smp are provided to efficiently inspect and maintain the infiltration area section 4 4 3 25b | for cast in place vault systems verify that access features consist of manholes or grated access panels or doors grated access panels are preferred to maintain airflow section 4 4 3 25c | for grid storage or other manufactured systems verify that the manufacturers recommendations are followed section 4 4 3 25d | verify that ladder access is proposed for vaults greater than four feet in height section 4 4 3 25e | verify that header pipes at minimum 36 inch diameter connected to manholes at each corner of the subsurface infiltration smp are provided alternatively smaller header pipes may be used if cleanouts are provided on the manifold header pipe junction for each distribution pipe the cleanouts must be on alternating sides of the smp section 4 4 3 25f | f 10 3 subsurface infiltration material standards | verify that stone designed for stormwater storage if proposed is specified on the plans as being uniformly graded crushed clean washed stone and that it is noted that pwd defines clean washed as having less than 0 5 wash loss by mass when tested per the aashto t 11 wash loss test aashto no 3 and no 57 stone can meet this specification section 4 4 4 3 | verify that sand if proposed is specified on the plans to be aashto m 6 or astm c 33 sand and to have a grain size of 0 02 inches to 0 04 inches section 4 4 4 4 | verify that storage pipe if proposed is specified on the plans as meeting the following specifications | pipe used within the subsurface infiltration smp must be continuously perforated and have a smooth interior with a minimum inner diameter of four inches section 4 4 4 5a | high density polyethylene hdpe pipe if proposed must meet the specifications of aashto m252 type s or aashto m294 type s section 4 4 4 5b | any pipe materials outside the smp are to meet city plumbing code standards section 4 4 4 5c | verify that geotextile if proposed is specified on the plans to consist of polypropylene fibers and to meet the following specifications aashto class 1 or class 2 geotextile is recommended section 4 4 4 6 | grab tensile strength astm d4632 205 lbs | cbr puncture strength astm d6241 500 lbs | flow rate astm d4491 95 gal min ft2 | uv resistance after 500 hrs astm d4355 70 | tear resistance astm d4533 80 lbs | heat set or heat calendared fabrics are not permitted | verify that the observation well is specified on the plans as meeting the following specifications | the observation well must consist of slotted plastic pipe with a minimum inner diameter of four inches and a solid cap at the surface the slotted section of the well must consist of pvc slotted well screen with 0 01 inch slot size and an attached perforated pvc cap at the bottom section 4 4 4 8a | the observation wells cover must be ductile iron in a gray iron frame section 4 4 4 8b | for an observation well located in an unpaved area the wells concrete ring must be a minimum of six inches wider in any dimension than the cover frame of equal depth as the cover frame itself and poured atop a minimum of six inches of aashto 57 stone bedding a frame conforming to these minimum dimensions may be circular or square section 4 4 4 8c | verify that cleanouts are made of material with a smooth interior having an inner diameter that is no less than six inches if the connecting pipe is eight inches in diameter or larger verify that the cleanout is eight inches in diameter section 4 4 4 9","pwd_rlv_wordcount":"2095","page_language":""},"section":[],"class_list":["post-280","page","type-page","status-publish","hentry","wpautop"],"acf":[],"parsely":{"version":"1.1.0","canonical_url":"https:\/\/phila.gov\/development\/stormwater-plan-review\/manual\/appendices\/f-design-guidance-checklists\/f-10-subsurface-infiltration\/","smart_links":{"inbound":0,"outbound":0},"traffic_boost_suggestions_count":0,"meta":{"@context":"https:\/\/schema.org","@type":"WebPage","headline":"F.10 Subsurface 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