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<br /> STANDARD FORM 330 (REV.8/2016) PAGE 24
<br />
<br />E. RESUMES OF KEY PERSONNEL PROPOSED FOR THIS CONTRACT
<br />(Complete one Section E for each key person.)
<br />12. NAME Patrick Shearer, PE 13. ROLE IN THIS CONTRACT Senior Engineer / Key Personnel 14. YEARS EXPERIENCE
<br />a. TOTAL 12 b. WITH CURRENT FIRM 4
<br />15. FIRM NAME AND LOCATION (City and State) E Sciences, Incorporated, Fort Lauderdale, Florida
<br />16. EDUCATION (DEGREE AND SPECIALIZATION) B.S., Civil Engineering – Environmental Option; Natural Resources and Environmental Science / Integrated Stream and Stormwater Wetland Design in Urban Settings Class
<br />17. CURRENT PROFESSIONAL REGISTRATION (STATE AND DISCIPLINE) Florida Professional Engineer; License No. 79596
<br />18. OTHER PROFESSIONAL QUALIFICATIONS (Publications, Organizations, Training, Awards, etc.) FDEP qualified Stormwater Management Inspector #34890; American Society of Civil Engineers - Member, August 2003 – Present; ASCE Environmental and Water Resources Institute (EWRI), Miami-Dade Branch, Board of Directors, since 2016; American Water Resources Association, Member since 2017
<br /> 19. RELEVANT PROJECTS
<br />a.
<br />(1) TITLE AND LOCATION (City and State) Melbourne Central Indian River Lagoon Water Quality Improvement Project
<br />Study, City of Melbourne, Brevard County, Florida
<br />(2) YEAR COMPLETED
<br />PROFESSIONAL SERVICES
<br />2013 – 2017
<br />CONSTRUCTION (If applicable)
<br />N/A
<br />(3) BRIEF DESCRIPTION (Brief scope, size, cost, etc.) AND SPECIFIC ROLE Check if project performed with current firm
<br />Mr. Shearer was the lead engineer responsible for project management for a study focused on identifying and evaluating water
<br />quality stormwater retrofit projects to address the Central Indian River Lagoon (CIRL) BMAP and develop a comprehensive
<br />watershed management plan for the CIRL basin within the City. He managed the project team to evaluate 20+ potential
<br />watershed retrofit projects to improve water quality. Mr. Shearer and the team developed conceptual stormwater retrofit plans for
<br />each project location. Additionally, he and the project team evaluated the function and effectiveness of existing stormwater
<br />structural and non-structural controls to make recommendations for improvements to water quality. Pollutant load reduction
<br />modeling and calculations were performed for each proposed project location, and planning level cost estimates were
<br />developed. The projects were ranked and prioritized based on several factors, including their cost effectiveness in pollutant load
<br />reduction, feasibility, and maintenance considerations. Stormwater projects included wet and dry pond retrofits, nutrient
<br />separating baffle boxes, vegetated filter strips, ditch and canal retrofits, off-line wet retention, algal turf scrubbers, bio-swales,
<br />biosorption activated media (BAM), regenerative stormwater conveyance channels, living shorelines and oyster restoration. The
<br />deliverable report summarizes the evaluation of these stormwater retrofits, prioritizes projects with respect to cost-effectiveness,
<br />and will assist the City in making future stormwater retrofits to address the CIRL BMAP. Project Budget/Fees: $59,880
<br />
<br />b.
<br />(1) TITLE AND LOCATION (City and State) Autumn Woods Stormwater Quality Retrofit CEI Services,
<br />City of Melbourne, Brevard County, Florida
<br />(2) YEAR COMPLETED
<br />PROFESSIONAL SERVICES
<br />2017
<br />CONSTRUCTION (If applicable)
<br />N/A
<br />(3) BRIEF DESCRIPTION (Brief scope, size, cost, etc.) AND SPECIFIC ROLE Check if project performed with current firm
<br />Mr. Shearer was the engineer of record responsible for construction oversight services for stormwater retrofit improvements
<br />including the construction of the Autumn Woods wet detention pond. The pond was sited in a location that intersected an
<br />untreated stormwater conveyance system to the Eau Gallie River and restored treatment to areas which, prior to the project,
<br />were served by a dysfunctional treatment system. E Sciences developed construction plans and specifications, an engineer’s
<br />cost estimate, obtained regulatory approvals, and secured all necessary permits from the St. Johns Water Management District
<br />and USACE for work within and impacts to Waters of the United States. The project site, which lies within the North Indian River
<br />Lagoon portion of the City’s Municipal Separate Storm Sewer System (MS4), improved water quality treatment by reducing the
<br />stormwater pollutants for the drainage basin by 315 lb/yr of Total Nitrogen and 135 lb/yr of Total Phosphorus. Mr. Shearer was
<br />responsible for CEI services for this project that involved site observation inspections during various stages of construction,
<br />inspection documentation, addressing requests for information, review and approval of shop drawings, evaluation of deviations
<br />from approved plans, review and approval of pay applications, construction completion certification, and development and
<br />submittal of Record Drawings. E Sciences provided grant support services to the City for this project which included assistance
<br />with, preparation of, submittal, and award for a FY2015 Section 319 Grant for the project for $518,750 (~60% of total
<br />construction cost). Construction of this project was completed in July 2017. Project Budget/Fees: $12,197
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