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BMP Details Excerpts from the Alabama Handbook for Erosion Control, Sediment Control and ... PDF

136 Pages·2013·9.59 MB·English
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Construction Best Management Practices Plan (CBMPP) Blue Collar Country, LLC – Blue Collar - Foley October 21, 2013 TTL Project No. 600212022 Attachments Appendix G – BMP Details Excerpts from the Alabama Handbook for Erosion Control, Sediment Control and Stormwater Management on Construction Sites and Urban Areas U.S. Environmental Protection Agency BMP Fact Sheets Manufacturer Installation Instructions Gopher Tortoise Exclusion Fence Layout Alternative M:\Projects\2012\600212\022 - CDM Smith Confidential BCD FoleyAlabama\ADEM NOI-CBMPP\BCD - CBMPP REV 2 - sgr.docx Buffer Zone (BZ) Installation and Maintenance of Best Management Practice Buffer Zone (BZ) Practice Description A buffer zone is a strip of plants adjacent to land-disturbing sites or bordering streams, lakes, and wetlands which provides streambank stability, reduces scour erosion, reduces storm runoff velocities and filters sediment in stormwater. This practice applies on construction sites and other disturbed areas that can support vegetation and can be particularly effective on floodplains, next to wetlands, along stream banks and on steep, unstable slopes. Typical Components of the Practice  Preservation and Protection of Existing Vegetation  Site Preparation  Soil Amendments (lime and fertilizer)  Planting Desired Vegetation  Mulching Installation (Preservation) Prior to start of construction, buffer zones should be designed by a qualified design professional. Plans and specifications should be referred to by field personnel throughout the installation process. March 2009 191 Chapter 3 Preserve vegetation on designated areas shown in plan. In the absence of a plan, maintain a buffer of existing vegetation with a minimum width for shoreline or stream bank protection of at least 35 feet. Local ordinances may require a wider buffer. Narrower buffer zones may be sufficient on steep slopes that are narrower than 35 feet. Installation (Plantings) Prior to start of construction, buffer zones should be designed by a qualified design professional. Plans and specifications should be referred to by field personnel throughout the installation process. Site Preparation Install planned measures such as silt fences and diversions before grading and seedbed preparation. In the absence of a plan and before grading and seedbed preparation, install other necessary measures which may include silt fences and diversions. Clear area of clods, rocks, etc. that would interfere with seedbed preparation; smooth the area before the soil amendments are applied and firm the soil after the soil amendments are applied. Soil Amendments (lime and fertilizer) Apply lime and fertilizer according to the plan or by soil test recommendations. In the absence of a plan or soil test recommendations, apply agricultural limestone at the rate of 2 tons per acre (90 lbs per ft2.) and 10-10-10 fertilizer at the rate of 1000 lbs per acre (25 lbs per 1000 ft2.). Apply ground agricultural limestone unless a soil test shows pH of 6.0 or greater. Incorporate amendments to a depth of 4” to 6” with a disk or chisel plow. Planting Desired Vegetation Plant desired vegetation according to the design plan. In the absence of a plan use installation guidelines for Permanent Seeding, Tree Planting on Disturbed Areas, Shrub, Vine and Groundcover Planting. Mulching Spread mulch according to guidelines in the Mulching practice. Common Problems Consult with qualified design professional if any of the following occur:  Soil compaction can prevent adequate plant growth. Compaction should be addressed during site preparation. 192 March 2009 Installation and Maintenance of Best Management Practice  Design specifications for plants (variety, seeding/planting dates) and mulch cannot be met; substitutions may be required. Unapproved substitutions could lead to failure. Problems that require remedial actions:  Erosion, washout and poor plant establishment – repair eroded surface, reseed, reapply mulch and anchor.  Mulch is lost to wind or stormwater runoff – reapply mulch and anchor. Maintenance Replant trees, grass, shrubs or vines where needed to maintain adequate cover for erosion control. Maintain grass plantings with periodic applications of fertilizer and mowing. March 2009 193 Concrete Wash (CW) EPA - Stormwater Menu of BMPs National Pollutant Discharge Elimination System (NPDES) Recent Additions | Contact Us | Print Version Search NPDES: EPA Home > OW Home > OWM Home > NPDES Home > Stormwater > Menu of BMPs Menu of BMPs Home Search BMPs Filter by Minimum Browse Fact Search All of the words Measure GO Sheets Help BMP Background All Public Education & Outreach on Stormwater Impacts Concrete Washout Public Involvement/ Participation Minimum Measure: Construction Site Stormwater Runoff Control Illicit Discharge Subcategory: Good Houskeeping/Materials Management Detection & Elimination Construction Site Description Stormwater Runoff Concrete washouts are used to contain concrete and liquids Control when the chutes of concrete mixers and hoppers of concrete pumps are rinsed out after delivery. The washout facilities Post-Construction consolidate solids for easier disposal and prevent runoff of Stormwater liquids. The wash water is alkaline and contains high levels of Management in New chromium, which can leach into the ground and contaminate Development & groundwater. It can also migrate to a storm drain, which can Redevelopment increase the pH of area waters and harm aquatic life. Solids that are improperly disposed of can clog storm drain pipes Pollution and cause flooding. Installing concrete washout facilities not Prevention/Good only prevents pollution but also is a matter of good An example of a prefabricated Housekeeping for housekeeping at your construction site. concrete washout container Municipal Operations This fact sheet describes the different types of concrete washout facilities that can be used at your Measurable Goals site and outlines how they should be sited, designed, and maintained. Stormwater Home Types of Concrete Washout Facilities Prefabricated washout containers A growing number of companies offer sturdy, prefabricated concrete washout containers that are delivered to the site. Some services provide the containers alone without providing maintenance and disposal of materials, while other companies offer complete service that includes delivery of containers and regular pickups of solid and liquid waste materials. The prefabricated containers resist damage and protect well against spills and leaks, and the full-service option relieves the site superintendent of the burden of disposing of An example of a self-installed materials. To prevent leaks on the jobsite, ensure that concrete washout structure prefabricated washout containers are watertight. Additionally, some companies offer prefabricated washout containers with ramps to accommodate concrete pump trucks. http://cfpub.epa.gov/npdes/stormwater/menuofbmps/index.cfm?action=browse&Rbutton=detail&bmp=117[1/29/2010 2:24:17 PM] EPA - Stormwater Menu of BMPs When selecting a company to handle concrete waste, ensure that they are properly disposing of all materials, and give preference to companies that recycle collected materials. Self-installed concrete washouts You can also build your own concrete washout facility, although self-installed structures are much less reliable than prefabricated containers and are prone to leaks. There are many design options for the washout, but they are preferably built below-grade to prevent breaches and reduce the likelihood of runoff. Above-grade structures can also be used if they are sized and constructed correctly and are diligently maintained. One of the most common problems with self-installed concrete washout facilities is that they can leak or be breached as a result of constant use, so you should take care to use quality materials and inspect the facilities on a daily basis. You should size your washouts to handle solids, wash water, and rainfall to prevent overflow. Concrete Washout Systems, Inc., (2006) estimates that 7 gallons of wash water are used to wash one truck chute and 50 gallons are used to wash out the hopper of a concrete pump truck. For larger sites, a below-grade washout should be at least 10 feet wide and sized to contain all liquid and solid waste you expect to generate in between cleanout periods (CASQA, 2003). Washouts at smaller sites, such as a single-family residential lot, should be sized to accommodate the expected load and can be smaller than 10 feet wide. Include a minimum 12-inch freeboard in the sizing calculations. Line the pit with plastic sheeting of at least 10-mil thickness that has no holes or tears to prevent leaching of liquids into the ground (CASQA, 2003). Concrete wash water should never be placed in a pit that is connected to the storm drain system or that drains to nearby waterways. At larger sites, build an above-grade washout at least 10 feet wide by 10 feet long and size it to contain all liquid and solid waste you expect to generate in between cleanout periods. Washouts at smaller sites can be smaller according to the expected capacity needed. Include a 4-inch freeboard in the sizing calculations (CASQA, 2003). You can make the structures from staked straw bales or sandbags double- or triple-lined with plastic sheeting of at least 10-mil thickness that has no holes or tears. Siting According to CASQA (2003), you should not place concrete washout facilities within 50 feet of storm drains, open ditches, or waterbodies. You should place them in a location that allows convenient access for concrete trucks, preferably near the area where the concrete is being poured. Appropriate gravel or rock should cover paths to concrete washout facilities if the facilities are located on undeveloped property. These areas should be far enough away from other construction traffic to reduce the likelihood of accidental damage and spills. The number of facilities you install should depend on the expected demand for storage capacity. On large sites with extensive concrete work, washouts should be placed in multiple locations for ease of use by concrete truck drivers. Operation Inspection Check all concrete washout facilities daily to determine if they have been filled to 75 percent capacity, which is when materials need to be removed. Both above- and below- ground self- installed washouts should be inspected daily to ensure that plastic linings are intact and sidewalls have not been damaged by construction activities. Prefabricated washout containers should be inspected daily as well to ensure the container is not leaking or nearing 75 percent capacity. Inspectors should also note whether the facilities are being used regularly; if drivers have washed out their chutes or hoppers in other locations, you may need to provide more education, install additional signage, or place additional washouts in more convenient locations. Material Removal Concrete washouts are designed to to promote evaporation where feasible. However, if stored liquids have not evaporated and the washout is nearing capacity, vacuum and dispose of them in an approved manner - check with the local sanitary sewer authority to determine if there are special http://cfpub.epa.gov/npdes/stormwater/menuofbmps/index.cfm?action=browse&Rbutton=detail&bmp=117[1/29/2010 2:24:17 PM] EPA - Stormwater Menu of BMPs disposal requirements for concrete wash water. Remove liquids or cover the structures before predicted rainstorms to prevent overflows. Companies that offer prefabricated and watertight washout containers generally offer a vacuum service to remove the liquid material. You can remove hardened solids whole or you can break them up first depending on the type of equipment available at your site. You can then reuse the solids onsite or haul them away for recycling - crushed concrete makes excellent aggregate for roadbeds and other building applications. Check with your local recycling agency to identify opportunities for concrete recycling. When you remove materials from the concrete washout, build a new structure or, if the previous structure is still intact, inspect the structure for signs of weakening or damage and make any necessary repairs. Line the structure with new plastic that is free of holes or tears and replace signage if necessary. It is very important that new plastic is used after every cleaning because pumps and concrete removal equipment can damage the existing liner. Education for Concrete Subcontractors An important factor that dictates the success of concrete washout facilities is whether or not concrete truck drivers use concrete washouts. You need to make them aware of the presence of these facilities. Your site superintendent can educate concrete subcontractors, post signage indicating the location and designated use of these areas, and provide careful oversight to inspect for evidence of improper dumping of concrete waste and wash water. Include requirements in contracts with concrete delivery companies that drivers must use designated concrete washout facilities. Resources CASQA Concrete Waste Management Fact Sheet in the California BMP Handbook: Construction: [http://www.cabmphandbooks.com/Construction.asp [PDF - 127 KB - 7 pp] ]. References California Stormwater Quality Association (CASQA). 2003. Stormwater Best Management Practice Handbook: Construction. [http://www.cabmphandbooks.com/Construction.asp ]. Accessed May 8, 2006. Concrete Washout Systems, Inc. 2006. Industry Problems: Facts and Figures. [http://www.concretewashout.com/ pages/industry_problems/concrete_washout_facts_figures/ ]. Accessed May 10, 2006. Office of Water | Office of Wastewater Management | Disclaimer | Search EPA EPA Home | Privacy and Security Notice | Contact Us Last updated on June 01, 2006 URL:http://cfpub.epa.gov/npdes/stormwater/menuofbmps/index.cfm http://cfpub.epa.gov/npdes/stormwater/menuofbmps/index.cfm?action=browse&Rbutton=detail&bmp=117[1/29/2010 2:24:17 PM] Concrete Washout Area Best Management Practice from Ecology’s Water Quality Program Reminder: The Construction Stormwater General Permit does not allow operators to discharge concrete wash water to waterways, storm drains or groundwater. Operators must manage and contain this water to prevent spills, leaks or discharges. Description: Concrete wash water is generated from washing out ready-mix trucks, drums and pumps; it also includes the water from rinsing off chutes, equipment, and concrete truck exteriors. Concrete wash water is toxic to fish and aquatic life and can contaminate drinking water supplies. Improper disposal can clog storm drain pipes and cause flooding. Operators must prevent concrete wash water from entering waterways, storm drains and groundwater. If possible, all concrete waste and wash water should be returned with each concrete truck for disposal at the concrete batch plant. If this is not possible, operators can install an on-site concrete washout area. This best management practice can prevent water pollution and comply with state and federal laws. Education for Concrete Contractors: The success of your on-site concrete washout area depends on whether or not concrete truck drivers use your designated concrete washout areas. Bring attention to the designated washout area with signs, and provide careful oversight to prevent improper dumping of concrete wash water. Operators should ensure that concrete contracts include requirements that concrete truck drivers use designated concrete washout areas. Types of Concrete Washout Areas Prefabricated washout containers: A growing number of companies offer sturdy, prefabricated concrete washout containers that are delivered to the site. Some services provide the containers alone without providing maintenance and disposal of materials, while other companies offer complete service that includes delivery of containers and regular pickups of solid and liquid waste materials. The prefabricated containers resist damage and protect against spills and leaks. Full-service option relieves the site superintendent of the burden of disposing of materials. Some companies offer prefabricated washout containers with ramps to accommodate concrete pump trucks. Self-installed concrete washouts: You can also build your own concrete washout facility - although self-installed structures are much less reliable than prefabricated containers and are prone to leaks. • Below-grade washouts will prevent breaches and reduce the likelihood of spills and contaminated stormwater runoff. • Above-grade washouts must be carefully sized, inspected and maintained to prevent leaks and spills. Sizing Self-Installed Concrete Washout Areas Refer to Ecology BMP C154 for detailed design standards. You must size your washouts to handle solids, wash water, and rainfall to prevent overflow.

Description:
Handbook for Erosion Control,. Sediment Control and Stormwater Management on Construction Sites and limestone unless a soil test shows pH of 6.0 or greater. Incorporate DeKalb County, GA. Practice (from Pennsylvania Erosion and Sediment Pollution Control Manual, March, 2000).
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