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More specifically for this proposal the City is seeking submittal of qualifications for two options. Design and construction support services for: <br />OF11011 A: WATER RESOI_IRC)Ez, <br />• Rehabilitation of a 30 year old water well <br />* 150D LF of domestic water design (12" PVC) <br />+ 600 LF of sewer design (15" Material TDD) with arterial street <br />PRELIMINARY ANALYSIS: <br />1. SewerMateriek Many factors should be considered when determining the best material for sewer construction. These include: <br />» Corrosion » Weight <br />» Abrasion » Imperviousness <br />» Strength » Cost <br />» Durability » Hydraulic Efficiency <br />Of the many materials available each offers a set of unique advantages and disadvantages, For a 15" pipe, the material most <br />commonly used In local cities under an arterial roadway would be vitrified clay pipe (VCP). It performs well in typical urban loading <br />conditions and maintenance departments are well prepared to work with It. Our experience would have us assume VCP will be high on <br />the list of options. <br />2. The City has determined that the existing water well performance dropped by 35%. This percent Is above the 25% rule of thumb that <br />would indicate It's time for rehabilitation. The RFP mentions that the water well Is a sand producer but does not Indicate if the sand <br />production has Increased. It is our assumption that the City has concluded that the sand production rate is within an acceptable range <br />and that the information is meant to determine that the aquifer type is "Sandstone' The most prevalent water well problems for this <br />type of aquifer would be: <br />FISSURE PLUGGING - CASING FAILURE - SAND PRODUCTION - CORROSION <br />The anticipated maintenance frequency for a sandstone aquifer would average 8 years. If the well has dropped 35% over 15 years this <br />is within the anticipated limits and sand production has not increased, casing failure is unlikely. It is also our assumption that surface <br />equipment has been evaluated and that the well was constructed with corrosion in mind. This leaves plugging as the likely cause for <br />loss of productionl We anticipate that further evaluation will lead to the following rehabilitation methods: <br />A. Aqua Freed CO2 Injection; Effective at removing mineral incrustation, biological fouling, and physical plugging. Provides extensive <br />geological penetration, it is 100% green, and environmentally sound with no adverse chemical waste stream. <br />R. Chemical and Acid Cleaning: Used in Conjunction with pumping and surging it is effective at dissolving minerals and impacting biological <br />activity and physical plugging of sands. The chemical solution is tailored specifically for the plugging problem. It offers limited geological <br />formation penetration and produces a waste stream of spent chemicals that most be neutralized and disposed of properly. <br />OPTION i3: fJENFRFII..EIVi31tVELRIN(t {p"IITLR THAN vvuER RESOURCES} <br />• Conceptual street widening and rehabilitation including parkway improvements <br />• New bike lane <br />• Intersections are complete <br />PRELIMINARY ANALYSIS - <br />1. E cluslons <br />» Traffic signals and median design <br />» Traffic Report <br />» Right -of -Way Services <br />2. Assumptions <br />» Water, sewer, and dry utilities will be protected in place <br />» Storm drain will require retrofit to new curb and gutter alignment <br />» Must meet water quality requirements <br />HUITT-ADHARS <br />» Manholes and valves will be adjusted to grade <br />» Street lights and Illumination design required <br />» Sound wall required <br />City of Santa Ana Civil Engineering Services: RFP 17-083 6 <br />