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This document summarizes a literature review of existing street sweeping credit methods. Research revealed these categories and considerations to be integral in developing a crediting method: scheduling, equipment, debris measurement, and nutrient quantification. | This document summarizes a literature review of existing street sweeping credit methods. Research revealed these categories and considerations to be integral in developing a crediting method: scheduling, equipment, debris measurement, and nutrient quantification. | ||
− | Crediting methods vary by governing agency. Over 70% of state [https://stormwater.pca.state.mn.us/index.php?title=Stormwater_Program_for_Municipal_Separate_Storm_Sewer_Systems_(MS4) <span title="A municipal separate storm sewer system (MS4) is a means of transportation, individually or in a system, (e.g. roads with drainage systems, municipal streets, catch basins, curbs, gutters, ditches, man-made channels, storm drains, etc.) that are: owned or operated by a public entity (e.g. cities, townships, counties, military bases, hospitals, prison complexes, highway departments, universities, etc.) with jurisdiction over disposal of sewage, industrial wastes, stormwater, or other wastes. This includes special districts under State law (sewer, flood control, or drainage districts, etc.), an authorized Indian tribal organization, or a designated and approved management agency under section 208 of the Clean Water Act; designed or used for collecting or transporting stormwater; not a combined sewer; and not part of a publicly owned treatment works."> '''MS4'''</span> (Municipal Separate Storm Sewer System)] permitting agencies do not require or provide a nutrient or sediment reduction credit for street sweeping, regardless of whether there is an applicable [https://stormwater.pca.state.mn.us/index.php?title=Total_Maximum_Daily_Loads_(TMDLs) Total Maximum Daily Load] (TMDL). Generally, street sweeping is regarded as a [https://stormwater.pca.state.mn.us/index.php?title=MCM_6_Pollution_Prevention/Good_Housekeeping good housekeeping measure] and annual miles swept are tracked. Most street sweeping programs set schedules and prioritize streets based on traffic volume. Some programs attempt to measure the amount of debris removed by street sweeping. However, relatively few entities establish documented quantifiable crediting methods using research-based estimates of pollutant load removal. Of the roughly 30% of states and the District of Columbia that do have a street sweeping crediting program, half adhere to the | + | Crediting methods vary by governing agency. Over 70% of state [https://stormwater.pca.state.mn.us/index.php?title=Stormwater_Program_for_Municipal_Separate_Storm_Sewer_Systems_(MS4) <span title="A municipal separate storm sewer system (MS4) is a means of transportation, individually or in a system, (e.g. roads with drainage systems, municipal streets, catch basins, curbs, gutters, ditches, man-made channels, storm drains, etc.) that are: owned or operated by a public entity (e.g. cities, townships, counties, military bases, hospitals, prison complexes, highway departments, universities, etc.) with jurisdiction over disposal of sewage, industrial wastes, stormwater, or other wastes. This includes special districts under State law (sewer, flood control, or drainage districts, etc.), an authorized Indian tribal organization, or a designated and approved management agency under section 208 of the Clean Water Act; designed or used for collecting or transporting stormwater; not a combined sewer; and not part of a publicly owned treatment works."> '''MS4'''</span> (Municipal Separate Storm Sewer System)] permitting agencies do not require or provide a nutrient or sediment reduction credit for street sweeping, regardless of whether there is an applicable [https://stormwater.pca.state.mn.us/index.php?title=Total_Maximum_Daily_Loads_(TMDLs) Total Maximum Daily Load] (TMDL). Generally, street sweeping is regarded as a [https://stormwater.pca.state.mn.us/index.php?title=MCM_6_Pollution_Prevention/Good_Housekeeping good housekeeping measure] and annual miles swept are tracked. Most street sweeping programs set schedules and prioritize streets based on traffic volume. Some programs attempt to measure the amount of debris removed by street sweeping. However, relatively few entities establish documented quantifiable crediting methods using research-based estimates of pollutant load removal. Of the roughly 30% of states and the District of Columbia that do have a street sweeping crediting program, half adhere to the Chesapeake Bay TMDL crediting method. While California does not have consistent crediting programs throughout the state, individual permitted entities do have street sweeping crediting programs. |
While MS4 permits require varying degrees of quantitative and qualitative documentation on street sweeping activities, this literature review focuses on documenting permitting entities that have an established pollutant reduction crediting methodology. These programs typically require documentation, at a minimum, of the length or area of street swept or a measurement of the materials collected with reductions calculated from established pollutant concentrations or <span title="Pollutant removal efficiency, usually represented by a percentage, specifically refers to the pollutant reduction from implementation of a stormwater control practice"> '''reduction efficiency'''</span> or individual load reductions based on permittee-specific data. | While MS4 permits require varying degrees of quantitative and qualitative documentation on street sweeping activities, this literature review focuses on documenting permitting entities that have an established pollutant reduction crediting methodology. These programs typically require documentation, at a minimum, of the length or area of street swept or a measurement of the materials collected with reductions calculated from established pollutant concentrations or <span title="Pollutant removal efficiency, usually represented by a percentage, specifically refers to the pollutant reduction from implementation of a stormwater control practice"> '''reduction efficiency'''</span> or individual load reductions based on permittee-specific data. | ||
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Crediting methods vary widely across programs. Some rely on weight conversions of wet or dry material to an estimated reduction of total nitrogen, total phosphorus, or total suspended sediment. Other programs credit based on lane miles swept. Some programs use advanced modeling and provide a wide array of options based on equipment used, number of times swept, and seasonal breaks. The following table provides a summary of the crediting methods identified, followed by a more in-depth discussion of each method. | Crediting methods vary widely across programs. Some rely on weight conversions of wet or dry material to an estimated reduction of total nitrogen, total phosphorus, or total suspended sediment. Other programs credit based on lane miles swept. Some programs use advanced modeling and provide a wide array of options based on equipment used, number of times swept, and seasonal breaks. The following table provides a summary of the crediting methods identified, followed by a more in-depth discussion of each method. | ||
− | For Minnesota, the goal is to provide a mass-based approach, backed by research-based empirical relationships, for the crediting program. This approach is the most defensible as it involves direct measurement. Examples that use a similar approach include [https:// | + | For Minnesota, the goal is to provide a mass-based approach, backed by research-based empirical relationships, for the crediting program. This approach is the most defensible as it involves direct measurement. Examples that use a similar approach include [https://www.chesapeakebay.net/what/publications/street-sweeping-and-storm-drain-cleaning-expert-panel-report Chesapeake Bay], [https://floridadep.gov/water/stormwater/documents/street-sweeping-guidance Florida], Washington Ecology, and potentially North Carolina (in progress). |
{{:Crediting methods summary}} | {{:Crediting methods summary}} | ||
===Chesapeake Bay Watershed ([https://chesapeakestormwater.net/bmp-resources/urban-street-sweeping/ Chesapeake Bay Program], U.S. EPA)=== | ===Chesapeake Bay Watershed ([https://chesapeakestormwater.net/bmp-resources/urban-street-sweeping/ Chesapeake Bay Program], U.S. EPA)=== | ||
− | [[File:Chesapeake expert panel.jpg|300px|thumb|alt=icon for Chesapeake Bay expert panel|<font size=3>[ | + | [[File:Chesapeake expert panel.jpg|300px|thumb|alt=icon for Chesapeake Bay expert panel|<font size=3>[https://www.chesapeakebay.net/what/publications/street-sweeping-and-storm-drain-cleaning-expert-panel-report Chesapeake Bay Expert Panel report]</font size>]] |
*'''Crediting Method''': Reduction efficiency based on acres swept | *'''Crediting Method''': Reduction efficiency based on acres swept | ||
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:As an alternative to the crediting described above, a credible model of the watershed that can reflect street sweeping with continuous simulations reflecting buildup and washoff of P and/or N using long-term rainfall data can be used to determine TN and TP removal credits. This alternative is only applicable to New Hampshire ([https://www.epa.gov/npdes-permits/new-hampshire-small-ms4-general-permit 2017 USEPA 2017a]). | :As an alternative to the crediting described above, a credible model of the watershed that can reflect street sweeping with continuous simulations reflecting buildup and washoff of P and/or N using long-term rainfall data can be used to determine TN and TP removal credits. This alternative is only applicable to New Hampshire ([https://www.epa.gov/npdes-permits/new-hampshire-small-ms4-general-permit 2017 USEPA 2017a]). | ||
− | *'''Tracking and Reporting''': Beginning 6 years after the permit effective date, permittees subject to phosphorus TMDL WLAs must include non-structural control measures implemented during the year, along with the associated phosphorus reduction in their annual reports (USEPA 2017a). More generally, annual reports must include the number of miles cleaned and the volume or mass of material removed ([https://www.epa.gov/npdes-permits/new-hampshire-small-ms4-general-permit 2017 USEPA 2017c]). EPA Region 1 developed the BMP Accounting & Tracking Tool (BATT) for New Hampshire and Massachusetts permittees, which provides watershed based nutrient accounting, tracking and reporting requirements in the MS4 permit ( | + | *'''Tracking and Reporting''': Beginning 6 years after the permit effective date, permittees subject to phosphorus TMDL WLAs must include non-structural control measures implemented during the year, along with the associated phosphorus reduction in their annual reports (USEPA 2017a). More generally, annual reports must include the number of miles cleaned and the volume or mass of material removed ([https://www.epa.gov/npdes-permits/new-hampshire-small-ms4-general-permit 2017 USEPA 2017c]). EPA Region 1 developed the BMP Accounting & Tracking Tool (BATT) for New Hampshire and Massachusetts permittees, which provides watershed based nutrient accounting, tracking and reporting requirements in the MS4 permit (USEPA, 2016). BATT is a spreadsheet tool that calculates the load reductions from BMPs implemented by the permittees, including street sweeping, catch basin cleaning and organic waste/leaf litter collection. It also generates reports of implementation activities and the associated nutrient load reductions to assist in annual reporting requirements and demonstrate compliance with the permit and/or TMDL requirements (USEPA 2016). |
*'''Additional Information''': Catch basin cleaning credit is available based multiplying the impervious drainage area times the same nutrient load export rates for impervious land uses used for street sweeping times the catch basin cleaning reduction factors of 0.02 for phosphorus and 0.06 for nitrogen. Like the street sweeping reduction factors, these are unitless factors applied to the impervious area loading rates to yield a reduction in pounds per year. There is also an enhanced organic waste and leaf litter collection program credit. This credit is based on gathering and removing all landscaping wastes, organic debris, and leaf litter from impervious roadways and parking lots at least once a week from September 1 to December 1. The credit is based on the impervious acres times the nutrient load export rate for the impervious land use times 0.05. This credit may be achieved through street sweeping and both credits may be counted if the sweeping meets the requirements of both the enhanced street sweeping program and the collection program (USEPA 2017a). This may effectively result in double counting of credits; however, it is explicitly allowed under the MS4 permit. | *'''Additional Information''': Catch basin cleaning credit is available based multiplying the impervious drainage area times the same nutrient load export rates for impervious land uses used for street sweeping times the catch basin cleaning reduction factors of 0.02 for phosphorus and 0.06 for nitrogen. Like the street sweeping reduction factors, these are unitless factors applied to the impervious area loading rates to yield a reduction in pounds per year. There is also an enhanced organic waste and leaf litter collection program credit. This credit is based on gathering and removing all landscaping wastes, organic debris, and leaf litter from impervious roadways and parking lots at least once a week from September 1 to December 1. The credit is based on the impervious acres times the nutrient load export rate for the impervious land use times 0.05. This credit may be achieved through street sweeping and both credits may be counted if the sweeping meets the requirements of both the enhanced street sweeping program and the collection program (USEPA 2017a). This may effectively result in double counting of credits; however, it is explicitly allowed under the MS4 permit. | ||
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*'''Crediting Method''': Aggregate efficiency for suite of non-structural practices | *'''Crediting Method''': Aggregate efficiency for suite of non-structural practices | ||
*'''Applicability''': Orange County and MS4 co-permittees in the South Orange County Watershed Management Area | *'''Applicability''': Orange County and MS4 co-permittees in the South Orange County Watershed Management Area | ||
− | *'''Details''': The non-structural (programmatic) strategies in the South Orange County Water Quality Improvement Plan (WQIP) are based on Jurisdictional Runoff Management Plan (JRMP) requirements in the MS4 permit ( | + | *'''Details''': The non-structural (programmatic) strategies in the South Orange County Water Quality Improvement Plan (WQIP) are based on Jurisdictional Runoff Management Plan (JRMP) requirements in the MS4 permit (The County of Orange et al., 2017). The JRMPs are required to detail jurisdictional programs to prohibit non-stormwater discharges to the MS4, reduce pollutants in stormwater, and protect beneficial uses of receiving waters. Non-structural practices include street sweeping, trash cleanup, good landscaping practices, commercial and industrial good housekeeping, pet waste control, etc. None of these practices are modeled for the WQIP. To account for the associated load reduction from these practices, a 10% load reduction from the baseline loads of each pollutant of concern is included in the quantification of reductions based on best professional judgement and earlier studies (The County of Orange et al. 2017). The 10% reduction applies to all programmatic practices in aggregate. There is not a specific load reduction associated with street sweeping as a stand alone practice. The reduction efficiencies apply to bacteria. |
:Part of the WQIP Monitoring and Assessment Program is to move to a modeling framework that includes non-structural practices, including street sweeping, to allow for the optimization of BMP opportunities (The County of Orange et al. 2017). A report of findings is expected in 2019 but is not yet available. | :Part of the WQIP Monitoring and Assessment Program is to move to a modeling framework that includes non-structural practices, including street sweeping, to allow for the optimization of BMP opportunities (The County of Orange et al. 2017). A report of findings is expected in 2019 but is not yet available. | ||
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North Carolina Department of Environmental Quality is also in the process of developing a street sweeping and catch basin cleaning credit. The credit is only intended to apply to existing development requiring nutrient reductions to meet applicable nutrient strategies ([https://files.nc.gov/ncdeq/Water%20Quality/Planning/NPU/Nutrient%20Scientific%20Advisory%20Board/2018.09.25-Combined-Street-and-Storm-Drain-Cleaning-FINAL.docx NCDEQ, 2018]). It will not be applicable as credit towards nutrient reduction requirements related to new development. The streets must have a curb and gutter system. The street sweeping and catch basin credit is determined by applying conversion factors to the weight of freshly collected material (wet), as determined by direct measurement of the average weight of the contents of a collection vehicle. The conversion factors are 0.023 lb TN/lb of debris and 0.002 lb TP/lb of debris, respectively. These are derived from gross solids measurements in catch basins throughout coastal and Piedmont North Carolina. Dry weight is not used in this method. Custom conversion factors based on laboratory analysis may also be used, but consultation with the NC Department of Environmental Quality, Division of Water Resources is required. The product of the weight of material collected and the conversion factors is the mass of nitrogen and phosphorus removed. To receive credit, the entity will submit to North Carolina Division of Water Resources an estimate of annual weight collected at baseline, weight of material collected in reporting year, difference between baseline and reporting year weights, nutrient credit calculation, type of collection vehicle and the average weigh of contents of a full truck. The credit specifically does not include credit for fall street-side leaf pickup. | North Carolina Department of Environmental Quality is also in the process of developing a street sweeping and catch basin cleaning credit. The credit is only intended to apply to existing development requiring nutrient reductions to meet applicable nutrient strategies ([https://files.nc.gov/ncdeq/Water%20Quality/Planning/NPU/Nutrient%20Scientific%20Advisory%20Board/2018.09.25-Combined-Street-and-Storm-Drain-Cleaning-FINAL.docx NCDEQ, 2018]). It will not be applicable as credit towards nutrient reduction requirements related to new development. The streets must have a curb and gutter system. The street sweeping and catch basin credit is determined by applying conversion factors to the weight of freshly collected material (wet), as determined by direct measurement of the average weight of the contents of a collection vehicle. The conversion factors are 0.023 lb TN/lb of debris and 0.002 lb TP/lb of debris, respectively. These are derived from gross solids measurements in catch basins throughout coastal and Piedmont North Carolina. Dry weight is not used in this method. Custom conversion factors based on laboratory analysis may also be used, but consultation with the NC Department of Environmental Quality, Division of Water Resources is required. The product of the weight of material collected and the conversion factors is the mass of nitrogen and phosphorus removed. To receive credit, the entity will submit to North Carolina Division of Water Resources an estimate of annual weight collected at baseline, weight of material collected in reporting year, difference between baseline and reporting year weights, nutrient credit calculation, type of collection vehicle and the average weigh of contents of a full truck. The credit specifically does not include credit for fall street-side leaf pickup. | ||
− | A final crediting method was presented to the North Carolina Nutrient Scientific Advisory Board in 2018; however, the Board determined that more work needs to be done to determine whether it is feasible to determine a baseline for this practice ( | + | A final crediting method was presented to the North Carolina Nutrient Scientific Advisory Board in 2018; however, the Board determined that more work needs to be done to determine whether it is feasible to determine a baseline for this practice (NSAB, 2018). |
==References== | ==References== | ||
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*Milwaukee County. 2017. MS4 Annual Report as part of Menomonee River Watershed-Based MS4 Permit. [https://www.village.germantown.wi.us/DocumentCenter/View/99/MenomoneeRiverWBP?bidId= WPDES Permit No. WI-S065404-1]. | *Milwaukee County. 2017. MS4 Annual Report as part of Menomonee River Watershed-Based MS4 Permit. [https://www.village.germantown.wi.us/DocumentCenter/View/99/MenomoneeRiverWBP?bidId= WPDES Permit No. WI-S065404-1]. | ||
*North Carolina Department of Environmental Quality (NCDEQ). 2018. [https://files.nc.gov/ncdeq/Water%20Quality/Planning/NPU/Nutrient%20Scientific%20Advisory%20Board/2018.09.25-Combined-Street-and-Storm-Drain-Cleaning-FINAL.docx Design Specifications and Nutrient Accounting for Street & Storm Drain Cleaning]. | *North Carolina Department of Environmental Quality (NCDEQ). 2018. [https://files.nc.gov/ncdeq/Water%20Quality/Planning/NPU/Nutrient%20Scientific%20Advisory%20Board/2018.09.25-Combined-Street-and-Storm-Drain-Cleaning-FINAL.docx Design Specifications and Nutrient Accounting for Street & Storm Drain Cleaning]. | ||
− | *Nutrient Scientific Advisory Board. 2018. | + | *Nutrient Scientific Advisory Board. 2018. Meeting Summary – October 5, 2018. |
*Schueler, T, E. Giese, J. Hanson, D. Wood. 2016. [https://www.chesapeakebay.net/what/publications/street_sweeping_and_storm_drain_cleaning_expert_panel_report Recommendations of the expert panel to define removal rates for street and storm drain cleaning practices]. | *Schueler, T, E. Giese, J. Hanson, D. Wood. 2016. [https://www.chesapeakebay.net/what/publications/street_sweeping_and_storm_drain_cleaning_expert_panel_report Recommendations of the expert panel to define removal rates for street and storm drain cleaning practices]. | ||
*Seattle Public Utilities (SPU). 2009. [https://www.wastormwatercenter.org/files/library/seattle-street-sweeping-pilot-study-monitoring.pdf Seattle Street Sweeping Pilot Study: Monitoring Report]. Herrera Environmental Consultants. | *Seattle Public Utilities (SPU). 2009. [https://www.wastormwatercenter.org/files/library/seattle-street-sweeping-pilot-study-monitoring.pdf Seattle Street Sweeping Pilot Study: Monitoring Report]. Herrera Environmental Consultants. | ||
− | *Seattle Public Utilities (SPU). 2017. [https://www. | + | *Seattle Public Utilities (SPU). 2017. [https://www.herrerainc.com/publications/seattle-street-sweeping-pilot-study-monitoring-report/ Attachment 84: Effectiveness Study Interim Results and Status Report]. NPDES Phase I Municipal Stormwater Permit. |
− | *The County of Orange, Orange County Flood Control District and Cities of Aliso Viejo, Dana Point, Laguna Beach, Laguna Hills, Laguna Niguel, Laguna Woods, Lake Forest, Mission Viejo, Rancho Santa Margarita, San Clemente, and San Juan Capistrano. 2017. [https://www. | + | *The County of Orange, Orange County Flood Control District and Cities of Aliso Viejo, Dana Point, Laguna Beach, Laguna Hills, Laguna Niguel, Laguna Woods, Lake Forest, Mission Viejo, Rancho Santa Margarita, San Clemente, and San Juan Capistrano. 2017. [https://www.southocwqip.org/ South Orange County Watershed Management Area Water Quality Improvement Plan]. Submitted to the San Diego Regional Water Quality Control Board. |
− | *U.S. Environmental Protection Agency (USEPA). 2016. [https://www3.epa.gov/region1/npdes/stormwater/ | + | *U.S. Environmental Protection Agency (USEPA). 2016. [https://www3.epa.gov/region1/npdes/stormwater/tools/tsd-batt.pdf BATT: BMP Accounting & Tracking Tool Small MS4 Permit Technical Support Document]. |
*U.S. Environmental Protection Agency (USEPA). 2017a. [https://www.epa.gov/npdes-permits/new-hampshire-small-ms4-general-permit 2017 New Hampshire Small MS4 General Permit], Appendix F Requirements of Approved Total Maximum Daily Loads. | *U.S. Environmental Protection Agency (USEPA). 2017a. [https://www.epa.gov/npdes-permits/new-hampshire-small-ms4-general-permit 2017 New Hampshire Small MS4 General Permit], Appendix F Requirements of Approved Total Maximum Daily Loads. | ||
*U.S. Environmental Protection Agency (USEPA). 2017b. [https://www.epa.gov/npdes-permits/new-hampshire-small-ms4-general-permit 2017 New Hampshire Small MS4 General Permit], Appendix H Requirements Related to Discharges to Certain Water Quality Limited Waterbodies. | *U.S. Environmental Protection Agency (USEPA). 2017b. [https://www.epa.gov/npdes-permits/new-hampshire-small-ms4-general-permit 2017 New Hampshire Small MS4 General Permit], Appendix H Requirements Related to Discharges to Certain Water Quality Limited Waterbodies. | ||
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*Vermont Agency of Natural Resources. 2019. [https://dec.vermont.gov/water-investment/watershed-planning/tactical-basin-planning Progress Report on River Basin Water Quality Management Planning (Tactical Basin Planning)] During 2018, 10 VSA 1253(d). Submitted to the House Committee on Agriculture, Natural Resources, Fish and Wildlife and Senate Committee on Agriculture, Natural Resources and Energy. Submitted by the Vermont Agency of Natural Resources Department of Environmental Conservation Watershed Management Division. | *Vermont Agency of Natural Resources. 2019. [https://dec.vermont.gov/water-investment/watershed-planning/tactical-basin-planning Progress Report on River Basin Water Quality Management Planning (Tactical Basin Planning)] During 2018, 10 VSA 1253(d). Submitted to the House Committee on Agriculture, Natural Resources, Fish and Wildlife and Senate Committee on Agriculture, Natural Resources and Energy. Submitted by the Vermont Agency of Natural Resources Department of Environmental Conservation Watershed Management Division. | ||
*Washington Ecology (Ecology). 2019. [https://ecology.wa.gov/Regulations-Permits/Permits-certifications/Stormwater-general-permits/Municipal-stormwater-general-permits/Western-Washington-Phase-II-Municipal-Stormwater Western Washington Phase I/Phase II Municipal Stormwater Permit] – Draft, Appendix 2 – Total Maximum Daily Load (TMDL) Requirements. | *Washington Ecology (Ecology). 2019. [https://ecology.wa.gov/Regulations-Permits/Permits-certifications/Stormwater-general-permits/Municipal-stormwater-general-permits/Western-Washington-Phase-II-Municipal-Stormwater Western Washington Phase I/Phase II Municipal Stormwater Permit] – Draft, Appendix 2 – Total Maximum Daily Load (TMDL) Requirements. | ||
− | *Wisconsin Department of Natural Resources (WDNR). (2018). [https://dnr. | + | *Wisconsin Department of Natural Resources (WDNR). (2018). [https://dnr.wisconsin.gov/sites/default/files/topic/Stormwater/draft/PN_Draft_Revised_Leaf_Management_Credit_07-22-2020.pdf Interim Municipal Phosphorus Reduction Credit for Leaf Management Programs]. 2018. Bureau of Watershed Management Program Guidance. Publication number EGAD 3800-2018-1. |
*Wood Environment & Infrastructure Solutions, Inc. (Wood). 2019. [http://www.projectcleanwater.org/download/san-dieguito-sdr-water-quality-improvement-plan-wqip/ Los Peñasquitos Watershed Management Area Water Quality Improvement Plan 2017-2018 Annual Report]. Submitted by County of San Diego, City of San Diego, City of Del Mar and City of Poway. Prepared by Wood Environment & Infrastructure Solutions, Inc. with DMax. | *Wood Environment & Infrastructure Solutions, Inc. (Wood). 2019. [http://www.projectcleanwater.org/download/san-dieguito-sdr-water-quality-improvement-plan-wqip/ Los Peñasquitos Watershed Management Area Water Quality Improvement Plan 2017-2018 Annual Report]. Submitted by County of San Diego, City of San Diego, City of Del Mar and City of Poway. Prepared by Wood Environment & Infrastructure Solutions, Inc. with DMax. | ||
To see this page as a Word document File:Street sweeping lit review.docx
This document summarizes a literature review of existing street sweeping credit methods. Research revealed these categories and considerations to be integral in developing a crediting method: scheduling, equipment, debris measurement, and nutrient quantification.
Crediting methods vary by governing agency. Over 70% of state MS4 (Municipal Separate Storm Sewer System) permitting agencies do not require or provide a nutrient or sediment reduction credit for street sweeping, regardless of whether there is an applicable Total Maximum Daily Load (TMDL). Generally, street sweeping is regarded as a good housekeeping measure and annual miles swept are tracked. Most street sweeping programs set schedules and prioritize streets based on traffic volume. Some programs attempt to measure the amount of debris removed by street sweeping. However, relatively few entities establish documented quantifiable crediting methods using research-based estimates of pollutant load removal. Of the roughly 30% of states and the District of Columbia that do have a street sweeping crediting program, half adhere to the Chesapeake Bay TMDL crediting method. While California does not have consistent crediting programs throughout the state, individual permitted entities do have street sweeping crediting programs.
While MS4 permits require varying degrees of quantitative and qualitative documentation on street sweeping activities, this literature review focuses on documenting permitting entities that have an established pollutant reduction crediting methodology. These programs typically require documentation, at a minimum, of the length or area of street swept or a measurement of the materials collected with reductions calculated from established pollutant concentrations or reduction efficiency or individual load reductions based on permittee-specific data.
In addition to resources provided by the University of Minnesota, we reviewed state and local stormwater/MS4 websites, EPA’s regional MS4 websites and performed general Google searches to identify street sweeping crediting programs. Federal, state and local websites were reviewed to identify the requirements of the relevant MS4 permits, with particular attention paid to TMDL-specific permit requirements. If specific street sweeping requirements were not evident in the state permitting pages, local MS4 permits and annual reports were identified and reviewed to determine the types of street sweeping information reported. The general Google review was conducted using the following search terms or a combination of terms coupled with specific state names.
Once results were located using search terms, we reviewed document references to locate additional sources.
When a street sweeping crediting program was identified, we attempted to locate the following information.
All street sweeping crediting programs that were identified are included in the following section.
Crediting methods vary widely across programs. Some rely on weight conversions of wet or dry material to an estimated reduction of total nitrogen, total phosphorus, or total suspended sediment. Other programs credit based on lane miles swept. Some programs use advanced modeling and provide a wide array of options based on equipment used, number of times swept, and seasonal breaks. The following table provides a summary of the crediting methods identified, followed by a more in-depth discussion of each method.
For Minnesota, the goal is to provide a mass-based approach, backed by research-based empirical relationships, for the crediting program. This approach is the most defensible as it involves direct measurement. Examples that use a similar approach include Chesapeake Bay, Florida, Washington Ecology, and potentially North Carolina (in progress).
Crediting methods summary. To access documents for each method, see the reference list at this link.
Link to this table
Location | Crediting method | Pollutants |
---|---|---|
Chesapeake Bay Watershed (entities subject to Bay TMDL requirements) |
|
TN, TP, TSS |
Florida | Mass load reduction | TN, TP |
EPA Region 1 (New Hampshire and Massachusetts MS4 permittees) | Mass load reduction with efficiency factors | TN (NH only), TP |
Massachusetts – stormwater requirements (not linked to MS4 permit) | Reduction efficiency - % | TSS |
Wisconsin |
|
|
Washington Ecology – MS4 permittees with TMDL | Mass load reduction, effective developed acres reduction | TP, sediment |
County and City of San Diego and MS4 Co-permittees | Performance-based compliance | Cu, Zn, Pb, TKN, TP |
Orange County and MS4 Co-permittees | Reduction efficiency - % | Bacteria, sediment |
City of Santa Cruz, California | Modeled load reduction | Sediment |
Vermont (Under development) |
|
TP |
North Carolina (Under development) | Mass load reduction | TN, TP |
Summary of Chesapeake Bay Program street sweeping crediting.
Link to this table
Pollutant Reductions Associated with Different Street Cleaning Practices (SCP) | |||||
---|---|---|---|---|---|
Practice # | Description | Approx passes per year1 | TSS Removal (%)2 | TN Removal (%)2 | TP Removal (%)2 |
SCP-1 | AST- 2 PW | 100 | 21 | 4 | 10 |
SCP-2 | AST- 1 PW | 50 | 16 | 3 | 8 |
SCP-3 | AST- 1 P2W | 25 | 11 | 2 | 5 |
SCP-4 | AST- 1 P4W | 10 | 6 | 1 | 3 |
SCP-5 | AST- 1 P8W | 6 | 4 | 0.7 | 2 |
SCP-6 | AST- 1 P12W | 4 | 2 | 0 | 1 |
SCP-7 | AST- S1 or S2 | 15 | 7 | 1 | 4 |
SCP-8 | AST- S3 or S4 | 20 | 10 | 2 | 5 |
SCP-9 | MBT- 2PW | 100 | 0.7 | 0 | 0 |
SCP-10 | MBT- 1 PW | 50 | 0.5 | 0 | 0 |
SCP-11 | MBT- 1 P4W | 10 | 0.1 | 0 | 0 |
1Depending on the length of the winter shutdown, the number of passes/yr may be 10 to 15% lower than shown.
2% removal represents the proportion of the impervious surface unit area load removed
Table abbreviations: AST: Advanced Sweeping Technology ; MBT: Mechanical Broom Technology ; 2PW: 2 passes per week; 1PW: 1 pass every week; 1P2W: 1 pass every 2 weeks; 1P4W: 1 pass every 4 weeks; 1P8W: 1 pass every 8 weeks; 1P12W: 1 pass every 12 weeks
In 2011, an earlier Chesapeake Bay Program expert panel developed two street sweeping crediting methods – mass loading and qualifying lane miles. In 2016, the Chesapeake Bay Program expert panel suggested immediately phasing out both methods of calculating street sweeping credits; however, they are briefly summarized here for completeness.
The impervious calculation was 5,280 feet times 10 feet per lane in width divided by 43,560 acre/ft2. Impervious acres were multiplied by pre-sweeping annual nutrient load using the Rational Method (also called the Simple Method) unit loads: 2.0 lbs/impervious acre/year TP and 15.4 lbs/impervious acre/year TN. The pre-sweep baseline loads were multiplied by pickup factors based on sweeper technology, as shown in the table below. The pickup factors represent percent reductions from the baseline loads.
Technology | TSS (% reduced) | TP (% reduced) | TN (% reduced) |
---|---|---|---|
Mechanical | 10 | 4 | 4 |
Regenerative/Vacuum | 25 | 6 | 5 |
Tracking and Reporting: Reporting required either the impervious acres swept or annual dry solids mass collected. Practice verification was not required during the time this credit was used (Schueler 2016).
Crediting Method: Mass loading method Details: This method credited nutrient and sediment reductions based on the annual wet mass of debris in pounds and required determining the hopper capacity of the sweeper, weighing the street solids collected and developing a relationship between street solid mass in tons and hopper capacity. Records were to be kept by each MS4 on the annual mass of street solids collected from qualifying streets (those swept at least 26 times/year). This mass was multiplied by 0.7 to convert to dry mass, then multiplied by 0.0025 pounds of dry weight to calculate total nitrogen, 0.001 pounds of dry weight to calculate total phosphorus, and 0.3 pounds of dry weight to calculate total suspended solids. This correction factor between dry mass solids and TSS is to remove particles larger than 250 microns, which are too large to be considered TSS. The TSS factor is based on particle size data from SPU 2009 and Law et al. 2008 (in Schueler et al 2016) showing that only 20-30% for street sweeping solids are less than 250 microns. Tracking and Reporting: Pounds collected were reported to the Chesapeake Bay Program through the states’ annual submissions; however, the Chesapeake Bay Program did not provide verification procedures.
Region 1 nutrient reduction efficiency factors for sweeping impervious areas (USEPA 2017a).
Link to this table
Frequency | Sweeper technology | Phosphorus reduction factor | Nitrogen reduction factor |
---|---|---|---|
2/year (spring and fall) | Mechanical Broom | 0.01 | 0.01 |
2/year (spring and fall) | Vacuum Assisted | 0.02 | 0.02 |
2/year (spring and fall) | High-efficiency Regenerative Air-Vacuum | 0.02 | 0.02 |
Monthly | Mechanical Broom | 0.03 | 0.03 |
Monthly | Vacuum assisted | 0.04 | 0.04 |
Monthly | High-efficiency Regenerative Air-Vacuum | 0.08 | 0.08 |
Weekly | Mechanical broom | 0.05 | 0.06 |
Weekly | Vacuum assisted | 0.08 | 0.07 |
Weekly | High-efficiency Regenerative Air-Vacuum | 0.10 | 0.10 |
Massachusetts TSS removal credit for street sweeping in new/redevelopment (MassDEP 2008b).
Link to this table
TSS Removal Rate (%) | High Efficiency Vacuum Sweeper – Frequency of Sweeping | Regenerative Air Sweeper – Frequency of Sweeping | Mechanical Sweeper (Rotary Broom) |
---|---|---|---|
10 | Monthly Average, with sweeping scheduled primarily in spring and fall | Every 2 Weeks Average, with sweeping scheduled primarily in spring and fall | Weekly Average, with sweeping scheduled primarily in spring and fall |
5 | Quarterly Average, with sweeping scheduled primarily in spring and fall | Quarterly Average, with sweeping scheduled primarily in spring and fall | Monthly Average, with sweeping scheduled primarily in spring and fall |
0 | Less than above | Less than above | Less than above |
Vermont is in the process of developing a phosphorus street sweeping credit to address nutrient TMDLs for municipalities that will be regulated under the Vermont Clean Water Act. An interim credit will be developed based on the BATT model from EPA Region 1 and other crediting methods, including the New Hampshire MS4 permit and the Chesapeake Bay Program Expert Panel report (Vermont Agency of Natural Resources 2019). A permanent credit will be developed based on “phosphorus source area delineations of municipal streets using real time materials sampling of sediment and nutrients, forest cover measurements, forest tree species, seasonal deposition of organic materials from trees, street sweeping efficiencies and street cleaning frequencies” (Vermont Agency of Natural Resources, 2019). Additional information on the program was not available.
North Carolina Department of Environmental Quality is also in the process of developing a street sweeping and catch basin cleaning credit. The credit is only intended to apply to existing development requiring nutrient reductions to meet applicable nutrient strategies (NCDEQ, 2018). It will not be applicable as credit towards nutrient reduction requirements related to new development. The streets must have a curb and gutter system. The street sweeping and catch basin credit is determined by applying conversion factors to the weight of freshly collected material (wet), as determined by direct measurement of the average weight of the contents of a collection vehicle. The conversion factors are 0.023 lb TN/lb of debris and 0.002 lb TP/lb of debris, respectively. These are derived from gross solids measurements in catch basins throughout coastal and Piedmont North Carolina. Dry weight is not used in this method. Custom conversion factors based on laboratory analysis may also be used, but consultation with the NC Department of Environmental Quality, Division of Water Resources is required. The product of the weight of material collected and the conversion factors is the mass of nitrogen and phosphorus removed. To receive credit, the entity will submit to North Carolina Division of Water Resources an estimate of annual weight collected at baseline, weight of material collected in reporting year, difference between baseline and reporting year weights, nutrient credit calculation, type of collection vehicle and the average weigh of contents of a full truck. The credit specifically does not include credit for fall street-side leaf pickup.
A final crediting method was presented to the North Carolina Nutrient Scientific Advisory Board in 2018; however, the Board determined that more work needs to be done to determine whether it is feasible to determine a baseline for this practice (NSAB, 2018).
This page was last edited on 31 January 2023, at 00:00.