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<br />and <br /> <br />8. <br /> <br />develop curves which relate percent <br /> <br /> <br />estimates for residential structures on <br /> <br /> <br />the depth and velocity of the flow. <br /> <br />damage <br />fans to <br /> <br />1.4 Recort Content and Orqaniz~tion <br /> <br />This final report discusses all aspects of the study, but <br />focuses specifically on the physical model studies and <br />analysis of management tool effectiveness. The project <br />Study Plan, submitted in October, 1980, presented a detailed <br />discussion of the tasks which were to be accomplished and <br />the expected end products. The State-of-the-Art Report, <br />submitted in December, 1980, provided a detailed review of <br />historical flooding on fans, key characteristics of fans. <br />case studies of communities which have experiericed fan <br />flooding, and e~isting applications of floodplain <br />management tools. <br /> <br />Part I of this report presents the study findings and <br />conclusions and includes an executive summary. Discussion <br />of alluvial fan characteristics, flood dynamics, flood <br />hazards, management tool effectiveness. flood plain <br />management, damage risk on fans, and management tool impacts <br />are provided. Part II provides documentation of physical <br />model design, contruction, and operation, as well as <br />documentation of experimental results. The techniques used <br />to develop impact matrices and damage curves are also <br />discussed. <br /> <br />13 <br /> <br />