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Dan A. Calanacli <br />PE <br />Senior Professional Engineer <br />9 <br />Mr. Cazanacli has a strong background in geomorphology, water resources, and geotechnical <br />engineering. His work often combines theoretical analysis with computer modeling. Dan's <br />expertise also includes geotechnical design, site inspection and drainage plan reviews. He <br />EDUCATION <br />provides specialized design and guidance in three key areas: computer modeling, slope <br />Master of Science <br />stabilizations and stormwater quality design. Dan brings a variety of engineering and <br />Water Resources Engineering <br />hydraulic analysis software experience, including HEC-RAS, CHECK-RAS, HEC-2, XP-SWMM, <br />University of Minnesota <br />GMS, HydroCAD, P8, AutoCAD, LPILE, UTEXAS, and PONDNET. <br />Master of Science <br />EXPERIENCE <br />Geomorphology <br />University of Illinois <br />County Road C Reconstruction, Storm Sewer Design, Roseville — Ramsey County Minn. <br />Chicago <br />Water resources engineer. Dan completed storm sewer design for 1.5 miles of roadway <br />based on Mn/DOT State-Aid guidelines. Additionally, he designed four stormwater treatment <br />Engineer Diploma <br />ponds and analyzed routing along roadside ditches to minimize runoff rates and maximize <br />University of Bucharest <br />stormwater treatment. <br />Bucharest, Romania <br />REGISTRATIONS/ <br />Comprehensive Drainage Study— Northeast Burnsville, Minn. <br />CERTIFICATIONS <br />Dan analyzed the performance of north Burnsville's entire drainage system using XP-SWMM <br />Professional Engineer in <br />software. He also identified areas likely to experience flood damage and proposed solutions <br />Minnesota <br />for storm sewer system improvements. <br />Infiltration Basin Study (University of Minnesota-St. Paul) — St. Paul, Minn. <br />Dan was the lead modeler and design engineer on the "Sheep Pasture Diversion" study. The <br />study consisted of a storm sewer diversion line and an infiltration basin intended to decrease <br />runoff to an important wetland (Sarita) and improve overall stormwater quality. An XP-SWMM <br />model was used to determine optimum balance between maximizing diverted volume and <br />keeping peak water levels reasonably low. <br />Dark L. Lobermeier PE <br />Principal <br />Mark's project experience includes nearly 30 years of watershed management, <br />comprehensive stormwater management planning, storm sewer system analysis, detention <br />basin design, open channel design, hydraulic and hydrologic studies, flood routing and <br />EDUCATION <br />protection, commercial and residential site development, wetland management and <br />Bachelor of Science <br />ordinance preparation. He has given presentations that include water resources design and <br />Civil Engineering <br />planning and wetland management topics at local and national levels. <br />University of Wisconsin <br />Platteville <br />EXPERIENCE <br />CONTINUING EDUCATION <br />Selected Comprehensive Stormwater Management Plans — Cities of Burnsville, Plymouth <br />Planning, Implementing <br />and Roseville. Minnesota and River Falls, Wisconsin. <br />and Financing Stormwater <br />Management Programs <br />Surface Water Management Utility Establishment — Municipalities. <br />University of Wisconsin <br />Mark has personally assisted 19 communities in analyzing and implementing stormwater utilities <br />including fee calculations, public information programs and ordinance development/evaluation. <br />System Development Changes <br />for Water, Wastewater and <br />American Legion Park Water Quality Pond — Roseville, Minn. <br />Stormwater Facilities <br />Retrofit of existing mono-culture wetland with wildlife dugout-style excavation to trap <br />Georgia Institute of Technology <br />sediment and nutrients prior to discharge into Lake Owasso. This project included XP-SWMM <br />modeling of loadings and P8 modeling to evaluate removals. <br />SHORT ELLIOTT HENDRICKSON INC. 22 <br />