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Paul Mitchell, PE I ADS Environmental Services <br />Flow Monitoring <br />Paul Mitchell has over 31 years of technical and engineering experience <br />0 with an emphasis in wastewater collection systems, municipal waste, <br />2Qo and environmental assessment/site remediation. He currently <br />serv <br />es as <br />Senior Region Engineer and Project Manager. His background includes <br />REGISTRATION <br />work with long-term flow monitoring services for model verification; <br />Professional Engineer/ <br />capacity studies for siphons, pump stations, and critical sewer segments; <br />CA #049435 <br />infiltration and inflow (1/1) analysis and prioritization studies; sewer system <br />evaluation surveys such as physical inspections and smoke testing; as <br />EDUCATION <br />well as technical reporting and presentation. <br />1991/MS/Program <br />Project Experience <br />Core Courses, Civil/ <br />Environmental <br />Maywood Sewer Modeling, City of Maywood, CA: As as subconsultant <br />Engineering/California <br />to Psomas, ADS provided flow monitoring at four locations for 14 days in <br />State University, <br />the City of Maywood to support Psomas' development of a hydraulic model <br />Long Beach <br />of the entire City. One location was to develop a flow factor for residential <br />1986/BS/Chemical <br />population and dwelling units, as well as a typical diurnal curve. The other <br />Engineering/California <br />three locations were for calibration of the main tributary sewer areas. <br />State Polytechnic <br />East Bay Municipal Utility District, Wet Weather Sewer Flow <br />University, Pomona <br />Monitoring Study, Oakland, CA: Senior Project Manager having <br />primary responsibility for running this 109-meter, nine -rain gauge, three- <br />year project to identify basins with substantial III issues. Responsibilities <br />for the project included cost control, ensuring deliverables were met, and <br />oversight of all Feld and data analysis activities. Also prepared the final <br />data report that was included as a deliverable to Cal EPA. <br />Numerous Sewer Flow Monitoring Studies, City of San Jose, CA: <br />Senior Project Manager for 52 sanitary flow monitoring sites and 16 rain <br />gauges on a continuous basis and providing daily updates of flow and <br />hydraulic performance via wireless telemetry to a web -based data delivery <br />platform called FlowviewTm. Weekly service summaries and monthly <br />uptime performance metrics are provided along with monthly data analysis <br />and finalization/certification of data. Deliverables also include seasonal flow <br />metering (up to 100 meters at a time) and Rainfall Dependent Infiltration <br />and Inflow (RDII) performance reports that provide trend analysis of dry <br />and wet weather performance. Additions of up to 85 storm system flow <br />monitoring locations and nine more temporary rain gauging stations will <br />enable the City to get a better handle on their storm system model. <br />Wet Weather Sewer Flow Monitoring Study, City of Los Angeles, <br />CA: Senior Project Manager for this two-year comprehensive sewer <br />system performance evaluation for the City of Los Angeles. This included <br />deployment of 93 wireless flow monitors in lines ranging in size from <br />12-inch to 99-inch, flow and map verification, capacity evaluation, and <br />preparing a web -based master database of flow data and capacity <br />performance data. Rainfall Dependent Infiltration and Inflow (RDII) <br />performance evaluations were conducted in metered tributary zones <br />using Slicer software to assist in the preparation and calibration of their <br />wet weather performance model. <br />PSOMAS RFP No. 19.100 I _ - �; i City of Santa Ana <br />