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i <br /> Performance Laboratory Testing <br /> Full Stale Laboratory Test Results Full reports available at www.contechstormwater.com <br /> Laboratory testing was conducted on a full scale Vortechs model Technical Bulletin 1: Removal Efficiencies for Selected Particle <br /> 2000.The 150-µm curve demonstrates the results of tests Gradations <br /> using particles that passed through a 60-mesh sieve and were Technical Bulletin 2: Particle Distribution of Sediments and the <br /> retained on a 100-mesh sieve.The 50-pm curve is based on Effect on Heavy Metal Removal <br /> tests of particles passing through a 200-mesh sieve and retained <br /> on a 400-mesh sieve(38-/gym).A gradation with an average Technical Bulletin 3: Sizing for Net Annual Sediment Removal <br /> particle size(d50)of 80-pm, containing particles ranging from <br /> 38-500-pm in diameter was used to represent typical stormwater Technical Bulletin 3a: Determining Bypass Weir Elevation for Off- <br /> solids. (Table 1) Line Systems <br /> Particle Size Percentage of Technical Bulletin 4: Modeling Long Term Load Reduction:The <br /> Sample Rational Rainfall Method <br /> Distribution (um) Make-Up <br /> <63 42% Technical Bulletin 5: Oil Removal Efficiency <br /> 63 - 75 4% Field Monitoring <br /> 75 - 100 9% Following are brief summaries of the field tests completed to <br /> 100- 150 7% date. <br /> 150- 250 11% Full reports available at www.contechstormwater.com <br /> >250 27% <br /> Table 1: Particle gradation of typical urban runoff used for DeLorme Mapping Company <br /> efficiency curve Yarmouth, ME <br /> CONTECH Stormwater Solutions <br /> As shown,the Vortechs system maintains positive total Prior to this premier field test of the Vortechs system,CONTECH <br /> suspended solids (TSS), defined by the tested gradations, removal developed an extensive body of laboratory data to document <br /> efficiencies over the full range of operating rates.This allows total suspended solids(TSS) removal efficiency. CONTECH <br /> the system to effectively treat all runoff from large, infrequent performed this field study in order to compare the performance <br /> design storms, as well as runoff from more frequent low-intensity predicted using laboratory data to the performance of a correctly <br /> storms. sized system in the field. <br /> 100% _�-,.- ----------___--______________________ -_________ The study site was the headquarters of DeLorme Mapping <br /> in Yarmouth, Maine. The building, driveway, parking lot and <br /> 60% -------- ---------- <br /> ___1=-' -------- --'-•-: ancillary facilities were constructed in 1996. A Vortechs model <br /> 11000 was installed to treat runoff from the 300-space,4-acre <br /> (1.62-ha) parking lot. <br /> 60% ____________________ __--------------___________________ <br /> W <br /> E40°/, _____________`'_—--___ __-______ Testing Period May 1999 to Dec 1999 <br /> :. # of Storms Sampled 20 <br /> 20% ...--------------------------...........__---.....--..........-.-.-._ _._...............-_ _ <br /> .. _ p <br /> Mean Influent Concentration 328-mg/L <br /> 0% <br /> 0(0) 10(7) 20 114) 30(20) 40(27) 50(34) 60(41) 70(46) 80(54) 90(61) 100(68) Mean Effluent Concentration 60-mg/L <br /> Operating Rate gpiriffe(Us!m') <br /> 50-micron • — - -typical gradation • . .150--n Removal Efficiency 82% <br /> Figure 1:Vortechs model 2000 Removal Efficiencies <br /> The main purpose of the DeLorme study was to verify that the <br /> Typical Vortechs systems are designed to treat peak flows from sizing methodology developed from our full-scale laboratory <br /> testing was valid and an accurate means of predicting field <br /> 1.6-cfs(45-Us) up to 30-cfs (850-Us) online without the need performance. The results of the study confirmed our sizing <br /> for bypass. However, external bypasses can be configured to methodology. <br /> convey peak flows around the system if treatment capacity is <br /> exceeded.The system can also be configured to direct low flows Village Marine Drainage <br /> from the last chamber of the system to polishing treatment Lake George, NY <br /> when more stringent water quality standards are imposed. In all <br /> configurations, high removal efficiencies are achieved during the New York State Department of Environmental <br /> lower intensity storms, which constitute the majority of annual Conservation, Division of Water <br /> rainfall volume. The New York State DEC used funds obtained in a Section 319 <br /> grant to initiate a study of the effectiveness of the Vortechs <br /> Full report available at www.contechstormwater.com. system to remove sediment and other pollutants transported <br /> 4 <br />