|
A A
<br />Tyler Hadacek PE
<br />Project Engineer: Planning Study—Treatment/Process Mechanical
<br />Nine years of experience Pasadena. California
<br />Tyler is a process engineer with nine years of experience in water, wastewater, and water reuse treatment;
<br />covering projects from master planning through conceptual design, final design, permitting, and construction
<br />support. He also has experience performing water quality studies and analysis, and stormwater monitoring.
<br />Currently Tyler serves as a project engineer on drinking water, stormwater, wastewater, water recycling, and
<br />water reuse studies, planning, and treatment design. His experience includes environmental remediation
<br />treatment of metals, hydrocarbons, and other trace contaminants —both conventional and advanced treatment
<br />plant design for water and wastewater, treatment plant rehabilitation and expansion, unit process retrofits, and
<br />wellhead treatment systems. He has been extensively involved in many recent integrated water resources and
<br />water reuse projects for planning and design of water treatment facilities to leverage available water resources
<br />for beneficial use of water utilities, stakeholders, and the environment. His work includes the Santa Monica
<br />Sustainable Water Infrastructure project that will utilize treatment of stormwater, wastewater, and groundwater to
<br />supplement imported water supplies for use in the environment as well as future potable water. Tyler has
<br />worked on treatment facilities that range from small well -head applications to full-scale 500 MGD plants.
<br />L41rLq_,Ydl:I
<br />MS, Environmental Engineering, University of
<br />California at Los Angeles, Los Angeles, California
<br />BS, Civil and Environmental Engineering, University
<br />of California at Los Angeles, California
<br />REGISTRATIONS
<br />Registered Civil Engineer #84298, California
<br />PROJECT EXPERIENCE
<br />On -Call Consulting Services for PFAS Treatment
<br />Systems Design I OCWD I Santa Ana, California
<br />Process Mechanical Engineer
<br />Tyler Is responsible for the process, hydraulics, and
<br />process -mechanical coordination for all wellhead
<br />treatment designs for PFAS with ion exchange. He
<br />has been involved in preliminary design, final design,
<br />bid phase support, and engineering services during
<br />construction. This ongoing assignment includes four
<br />distinct sites each with separate design and
<br />construction packages. The scope also includes
<br />hydraulic analysis of the wells and the City reservoir
<br />and distribution system, design of booster pumps,
<br />and upgrades of their onsite hypochlorite generation
<br />and feed systems where applicable. One wellsite is in
<br />construction, and treatment for the other three sites
<br />are in design.
<br />San Fernando Basin Groundwater Remediation
<br />LADWP I Los Angeles, California I Project Engineer
<br />Tyler served as process engineer and design
<br />coordinator for the progressive design -build project of
<br />two new groundwater treatment facilities of 38 MGD
<br />and 25 MGD. He assisted with coordinating the
<br />process design for pretreatment solids removal. LV-
<br />AOP treatment with hydrogen peroxide, granular
<br />activated carbon (GAC) adsorption, and modifications
<br />to the choramination and flounce chemical feed
<br />systems. Tyler also oversaw the value engineering
<br />design proposals and evaluations on the project.
<br />Graves Reservoir and Wellhead Water
<br />Treatment Design I City of South Pasadena
<br />South Pasadena, California I Process Engineer
<br />Tyler was the process engineer for an 800-GPM
<br />wellhead treatment design to remove nitrate,
<br />perchlorate, carbon tetrachloride, and
<br />tetrachloroethylene from the groundwater to be used
<br />as a drinking water source. The design utilized GAC,
<br />nitrate -selective ion exchange, and on -site chlorine
<br />generation for treatment. The ion exchange treatment
<br />uses a bypass and blend arrangement to minimize
<br />the flow through the ion exchange reactors and
<br />reduce costs. It also incorporates on -site resin
<br />regeneration and brine minimization technologies to
<br />reduce costs of resin and brine disposal. Process
<br />screening and life -cycle cost evaluation were
<br />performed as part of preliminary design for the
<br />nitrate treatment process selection, resulting In
<br />brine -minimizing. ion exchange technologies.
<br />TCP Impact and Solutions Study I West Valley Water
<br />District (District) I Rialto, California I Project Engineer
<br />Tyler is responsible for this study which includes
<br />alternatives analysis, preliminary process design,
<br />hydraulics, water quality review, and construction cost
<br />estimation. The study evaluated two District wells with
<br />1,2,3 TCP contamination, impacts to the District's
<br />water supply,. and alternative solutions to bring the
<br />wells back online.. including blending and treatment.
<br />City of Santa Ana On Call Engineering Design Services for PEAS Treatment Systems RFP N0. 22-133 A
<br />
|