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12-02-09 JWC Minutes JOINT WATER COMMISSION MINUTES Golden Valley - Crystal - New Hope Meeting of December 2, 2009 The Golden Valley - Crystal - New Hope Joint Water Commission meeting was called to order at 1 :30 pm, in the City of Golden Valley Council Conference Room. Commissioners Present Tom Burt, City Manager, Golden Valley Anne Norris, City Manager, Crystal Kirk McDonald, City Manager, New Hope Staff Present Sue Virnig, Finance Director, Golden Valley Bert Tracy, Public Works Maintenance Manager, Golden Valley Dave Lemke, Utilities Maintenance Supervisor, Golden Valley Paul Coone, Operations Manager, New Hope Bernie Weber, Utilities Maintenance Supervisor, New Hope Guy Johnson, Director of Public Works, New Hope Other Scott Harder, Environmental Financial Group (EFG) Brian Lemon, BARR Engineering Co. Minutes of October 7,2009 MOVED by McDonald, seconded by Norris and motion carried unanimously to approve the minutes of the October 7,2009 meeting. Upgrading of SCADA Computers at Crystal and New Hope Staff took quotes from Total Control Systems, Inc. for upgrading the SCADA computers for the cities of New Hope and Crystal. MOVED by Norris, seconded by McDonald and motion carried unanimously to proceed with the upgrading of SCADA Computers by Total Control in an amount not to exceed the approved quote of $3800 for Crystal and New Hope. Repairs to the Pum{l House Roof In Golden Valley Lemke said repairs need to be made to the pump house roof. The cost for the partial repairs was $827.00. The complete repair of the pump house roof is scheduled and budgeted for 2010. MOVED by McDonald, seconded by Norris and motion carried unanimously to proceed with partial repairs to the pump house roof in an amount not to exceed $827.00. Joint Water Commission Page 2 of 2 Barr Engineering Joint Water Commission Emergency Water Supply Technical Memorandum Brian Lemon from Barr Engineering was hired as a sub consultant to Environmental Financial Group Inc. to prepare a cost comparison between developing an emergency water supply plan using only existing wells where all but one of the wells are owned by General Mills and an option using only wells owned by the JWC. MOVED by Norris, seconded by McDonald and motion carried unanimously to receive the Barr Engineering Joint Water Commission Emergency Water Supply Technical Memorandum. Other Business Scott Harder will draft a letter to Minneapolis to reopen negotiations the current agreement with the Minneapolis Water Department will expire in 2013. Technical Advisory Committee (TAC) will get cost estimates in regards to an emergency water supply plan that would use wells that JWC will rehabilitate or purchased. Next Meeting The next meeting will be January 6, 2010. Adiournment The meeting was adjourned at 2:20 pm. Th~;:~h/ ATTEST: (l, Il/ / !.~~ Christine Columbus, Administrative Assistant BARR Technical Memorandum To: From: Subject: Date: Project: Joint Water Commission and Scott Harder, Environmental Financial Group, Inc Barr Engineering Co. Joint Water Commission Emergency Water Supply November 23,2009 23271009.00 Executive Summarv The purpose of this memo is to compare the costs of the Joint Water Commission (JWC) developing an emergency water supply using only existing wells (Option 1), to an option using only wells owned by the JWC (Option 2). In the option where only existing wells are considered all but one of the wells are owned by General Mills and all are more than 20 years old. New well locations identified in this memo have been selected for cost planning purposes only, and not as an actual well siting study. This memo is a follow up effort to the January 9, 2009 memo. Both that memo and this one were prepared by Barr Engineering Co. as a subconsultant to Environmental Financial Group Inc. The following assumptions were used in developing the cost comparison between the two options. · The New Hope Well appears in both options since it fits into either concept, IE it already exists and is owned by a JWC member community. · Construction costs for both options were based on portable chemical feed stations · New well connection costs were based on connection to a large diameter watermains, rather than the closest main, which would lower costs but might cause unacceptable pressure spikes. · New wells were assumed to have a capacity of 2 million gallons per day (mgd) each (1,400- gallons per minute, gpm) which is considered a safe yield in the Prairie du Chein aquifer. However, one is shown at 2.8 mgd (1,950-gpm) to recognize that this is an emergency system. It is assumed one well could safely operate at this rate during an emergency scenario. · The adequacy of the distribution system in the vicinity of the existing wells, or proposed new wells has not been verified through modeling. · Preliminary well sites identified in this memo were suggested by the JWC technical advisory committee and are based upon readily available sites and should be investigated further before used as final well locations. To: Joint Water Commission and Scott Harder, Environmental Financial Group Inc. From: Barr Engineering Co. Subject: Joint Water Commission Emergency Water Supply Date: November 23, 2009 Project: 23271009.00 Page: 2 · The Honeywell site, which is Site 3 on Figure 1, is the assumed location for a future water treatment plant based on its availability, size, and location. From this study it can be concluded that: · JWC owned wells can meet emergency needs at a cost similar to using only existing wells. · It also results in newer wells that could be part of a future JWC water supply system. i The construction costs identified below provide important information when: reviewing potential future well locations. Other criteria, such as distribution system hydraulics,. ground water contamination, and future system flexibility are also important. Considering the importance of these criteria, we recommend consideration of conducting the following additional investigations: · Distribution system modeling of existing and future well sites · Revisit the previously completed well siting study to refine well spacing with a focus on potential groundwater contamination issues in the vicinity of proposed new wells. · If the Honeywell site is not available as a plant location then a water treatment plant siting study will be needed to determine other practical sites that could be psed for the construction of a future water treatment plant should the JWC choose such a direJtion. Option 1, Rehabilitated Existing Wells Well Cumulative Estimated Well Capacity Capacity, Construction Desi!:mation mad mad Cost, $ New Hope Well 1.4 1.4 $487,000 GMO Well No.3 1.7 3.1 $979,000 included GMO Well directly NO.4 1.7 4.8 above JFB Well No.2 1.7 6.5 $604,000 JFB Well No.3 1.7 8.2 $532,000 Estimated Construction Cost $2,602,000 Option 2, JWC Owned Wells Well Cumulative Estimated Well Capacity Capacity, Construction Desianation mad mQd Cost, $ New Hope Well 1.4 1.4 $487,000 3d 2 3.4 $702,000 3f 2 5.4 $702,000 3e 2.8 8.2 $708,000 Estimated Construction Cost $2,599,000 P:\Mpls\23 MN\27\232710091WC OM Emerency Water Supply\FinaIDeliverables\1WC Emergency Water Supply Memo dated 11-23- 2009 Final.doc To: From: Subject: Date: Project: Page: Joint Water Commission and Scott Harder, Environmental Financial Group Inc. Barr Engineering Co. Joint Water Commission Emergency Water Supply November 23. 2009 23271009.00 3 Backl!round In a memo prepared by Barr dated January 9, 2009 the JWC reviewed the option of utilizing existing wells in the cities of Golden Valley and New Hope to provide potable water to Commission residents and businesses during an emergency event. The wells considered included one owned by the City of New Hope and four owned by General Mills. For clarity this will be called Option 1. In Option 1 all of the wells considered are 20 or more years old and four are not under direct JWC control. The costs associated with Option I were still significant and all wells are located on the west side of town where most of the watermains are generally smaller. The JWC system is set up to deliver water from two large ground storage reservoirs located on the east side of town where watermains are larger. The JWC would now like to review an option where they would own all of the wells used for emergency supply and where most would be new wells. For clarity this will be called Option 2. Under Option 2 the New Hope well will be considered along with new wells constructed within the Joint Water Commission communities to provide the remainder of the potable water needed during an emergency event. The emergency event could be any event which would interrupt or reduce the amount of water currently provided from the City of Minneapolis. During a previous review of potential "emergency" scenarios it was recognized that they could fit into two general categories of source water need. The two categories included a 6.0 mgd source water need and a 9.5 mgd source water need. Previously, while reviewing the potential of using existing wells, it was recognized that the total output of viable existing wells is approximately 8.2 mgd. Therefore, to better compare the use of existing wells versus the use of wells owned by the JWC, we will focus on the viability and cost associated of an 8.2 mgd source water need. While cost estimates for Option 2 will focus on the 8.2 mgd water source need, general information, such as number of wells needed to supply the amount of water in the other two categories of source water need identified above, will also be included in this report. P:\Mpls\23 MN\27\2327 1009 JWC GM Emerency Water Supply\FinalDeliverables\JWC Emergency Water Supply Memo dated 11-23- 2009 Final.doc To: From: Subject: Date: Project: Page: Joint Water Commission and Scott Harder, Environmental Financial Group Inc. Barr Engineering Co. Joint Water Commission Emergency Water Supply November 23, 2009 23271009.00 4 Type and Number of Wells Production wells in the vicinity of the Joint Water Commission are predominately Jordan or Prairie du Chien/Jordan wells. These wells predominate due to the quality and quantity of water that can be reliably obtained from these aquifers. In addition, the depth of construction to reach this water source is not excessive. Based on the history of these types of wells in this area, we will focus on providing new Prairie du Chien/Jordan wells to meet the emergency source water needs of the JWC for the operating scenarios previously described. Prairie du Chien/Jordan wells have been known to produce in excess of 2,OOO-gpm. However, as well capacities increase so do velocities of the water entering the wells, the risk of sand production, and the risk of open hole collapse in the Jordan sandstone formation. To protect the stability of Jordan wells, long term capacities are generally planned in the range of 1,200 to 1,400-gpm. At flow rates of 1,400-gpm and below, velocities generally do not damage the wells or result in excessive maintenance. However, portions of the Prairie du Chein formation can be very productive since it is a fractured limestone. If productive fractures are encountered safe yields can be quite high. For shorter durations associated with emergency use it would not be out of the question to approach 2,OOO-gpm. Such yields cannot be guaranteed and would need to be verified on a well by well basis following carefully monitored pumping tests. Long term supply at these rates may not be sustainable, but for short term emergency use they are reasonable to assume for one of the wells. Based on these limitations each scenario in Option 2 will assume the New Hope well at I,OOO-gpm (1.4 mgd) and one new well with a variable capacity of up to 1,950-gpm (2.8 mgd). All other wells will be assumed to have a capacity of 1,400-gpm (2 mgd). Based on the flow scenarios described in the previous section, and the range of well capacities just described, we anticipate the following number of new wells for each source water need scenario: Flow Scenario Source Water Need Water from New Wells* Number of New Wells One 6mgd 4.6 mgd 2 Two 8.2 mgd 6.8 mgd 3 Three 9.5 mgd 8.1 mgd 4 *This is the amount needed after subtracting out the New Hope well from the source water need. P:\Mpls\23 MN\27\2327I 009 JWC OM Emerency Water Supply\FinalDeliverables\JWC Emergency Water Supply Memo dated 11-23- 2009 Final.doc To: From: Subject: Date: Project: Page: Joint Water Commission and Scott Harder, Environmental Financial Group Inc. Barr Engineering Co. Joint Water Commission Emergency Water Supply November 23, 2009 23271009.00 5 Well Spaciol! A good rule of thumb with Praire du Chien/Jordan wells is to maintain a 1,500 foot separation to minimize the potential for well interference. Due to common limitations of available land for a well field and piping construction costs to tie a well field together, these distances are often reduced. Reducing the distances between wells will result in additional well interference that increases the cost to deliver each gallon of source water due to additional well drawdown which translates into a greater pump horsepower to pull the water to the surface. We would recommend that well separation distances should never be less than 1,000 feet. Greater well spacing will cost more but in the end will result in a more sustainable well field that will not be subject to dramatic draw downs during prolonged drought and excessive pumping. Proposed Well Sites Fi ve general areas around the JWC were considered for potential well fields and are shown on Figure 1. The locations were recommended during previous studies performed for the JWc. The ground elevation of the five sites varies by approximately 55 feet from roughly 845 feet to 900 feet. The top of bedrock elevation at each of the five sites varies by roughly 20 feet from approximately 630 feet to 650 feet in elevation. The potentiometric water surface of the Prairie du Chien/Jordan aquifer at each of the sites varies from an elevation of approximately 825 feet to 850 feet. Total well depth at most sites will be approximately 600 feet. Based on these rather small variations in ground surface and pertinent subsurface geology and hydrogeology, the variation in individual well costs will be insignificant. The location of the wells with respect to the distribution system will have a much greater impact on site selection. Another factor considered was the potential location of a future water treatment plant should the JWC ever elect to supply and treat its own water rather than purchase it form Minneapolis. After discussions with the technical advisory committee our effort focused generally around Site 3. There are very few tracts of land centrally located on the east side of the JWC that are large enough to be considered for a future treatment plant. This is one of the few that could be used for a plant and is currently considered available. New well sites considered during this effort will take into account costs associated with piping to this location and resulted in developing a grouping of new wells in an area reasonably close to Site 3. If this site does not remain available for a treatment plant an P:\Mpls\23 MN\27\23271009 JWC GM Emerency Water Supply\FinalDeliverables\JWC Emergency W~ter Supply Memo dated 11-23- 2009 Pinal.doc To: From: Subject: Date: Project: Page: Joint Water Commission and Scott Harder, Environmental Financial Group Inc. Barr Engineering Co. Joint Water Commission Emergency Water Supply November 23, 2009 23271009.00 6 additional study would be needed to select a new site for a potential plant. Potential well sites have been identified near proposed Site 3. These sites have been identified as a potential well field to serve a future water treatment plant which could be located at Site 3. These potential well sites are identified as Site 3a through 3g and are shown in Figure 2. Potential Contamination at Proposed Well Sites Figure I and Figure 2 indicate the location of potential contamination in relation to each of the proposed well sites. There is potential contamination in close proximity to each of the proposed well sites shown on Figure I and well locations shown on Figure 2. It is beyond the scope of this effort to determine how severe the contamination is at any of the locations shown on either figure. Before any final well or treatment plant sites are selected a more detailed investigation into the severity of contamination throughout the JWC will need to be undertaken. Such an investigation should be undertaken in conjunction with revisiting the previous well siting studies to determine the effects of adding individual wells, or a well field, upon any identified contamination. Such a study was not included in the original scope of this project. Site Rankin!! A number of factors can be utilized to prioritize potential well sites. The following criteria have been utilized to develop a ranking system for the potential well sites: · Depth and configuration of a well · Distance and complexity to tie into existing large diameter water main · Distance and complexity to discharge into existing water reservoirs · Location with respect to city wide large diameter water main network · Location with respect to city wide large diameter main between existing water reservoirs · Number of major road and railroad crossings necessary to connect individual wells to existing large diameter water mains · Depth to static water level · Distance from potential future water treatment plant site (Site 3) · Ability to place a number of wells in the same general location (well field concept) · Location with respect to known contaminants P:\Mpls\23 MN\27\2327 1 009 JWC OM Emerency Water Supply\FinaIDeliverables\JWC Emergency Water Supply Memo dated 11-23- 2009 Final.doc To: From: Subject: Date: Project: Page: Joint Water Commission and Scott Harder, Environmental Financial Group Inc. Barr Engineering Co. Joint Water Commission Emergency Water Supply November 23, 2009 23271009.00 7 A number of potential well sites have been identified by the JWC technical advisory committee on and near Site 3, which is also the site that has been identified as a potential ~ite for a future water treatment facility. Based on the criteria identified previously in this memo, the well sites near Site 3 have been generally ranked and are shown below: Criteria Site 3a Site 3b Site 3c Site 3d Site 3e Site 3f Site 3g Proximity to Contamination 7 7 7 7 7 7 7 Proximity to Reservoir 7 7 7 7 7 7 7 Proximity to Large 4 4 4 2 I 2 3 Diameter Water Main Proximity to Potential I I 2 3 4 5 5 Future WTP Site Table Key: I = The Most Advantageous 7 = The Least Advantageous Based on the available information, and on the analysis completed to date, the potential well sites are ranked for direct connection to the existing distribution system, and for connection to a potential future water treatment plant located at Site 3, the site where proposed wells 3a and 3b are located. These rankings are indicated directly below and are listed from most desirable location down to least desirable location: Connection to Distribution System Well 3e Well 3d We1l3f We1l3g Well 3c Well 3a Well 3b Connection to Potential Future Water Treatment Plant Well 3a Well 3b Well 3c Well 3d Well 3e Well 3f We1l3g As previously noted the depth and configuration of all the wells is very similar as is the depth to the static water level. Potential contamination exists relatively close to all well sites, and therefore will not be a useful tool in prioritizing well sites until a more thorough review of the contaminated sites and hydrogeology is completed for the area. P:\Mpls\23 MN\27\2327I 009 JWC GM Emerency Water Supply\FinalDeliverables\JWC Emergency Water Supply Memo dated 11-23- 2009 Final.doc To: Joint Water Commission and Scott Harder, Environmental Financial Group Inc. From: Barr Engineering Co. Subject: Joint Water Commission Emergency Water Supply Date: November 23, 2009 Project: 23271009.00 Page: 8 Construction Costs The construction cost of a single Prairie du Chien/Jordan well utilizing a submersible well pump with pitless adapter and portable chemical feed equipment is approximately $630,000. The construction cost of a single Prairie du Chien/J ordan well utilizing a vertical turbine well pump housed in a small well house without chemical feed equipment is approximately $780,000. The construction cost of a single Praire du Chien/J ordan well utilizing a vertical turbine well pump housed in a full well house with chemical feed equipment is approximately $1,000,000. Table No. 1 provides a breakdown of these anticipated construction costs. The construction cost of connecting each well directly to the existing distribution system is detailed in Table No.2, and summarized directly below: Well Well 3a Well 3c Well 3d Well 3e Well 3f Cost to Connect to Distribution System $ 113,000 $ 295,000 $ 72,000 $ 78,000 $ 72,000 The costs to connect the New Hope well to the distribution system are included in the previous memo and are not displayed separately here. Also note that distribution system modeling has not been completed as part of this study. The adequacy of the assumed well connection locations used in preparation of this opinion of probable construction costs must be confirmed through distribution system modeling. The construction cost of connecting each well to a future water treatment plant located at the well 3a and 3b site is detailed in Table No.3, and summarized directly below: Well We1l3a Well 3b Well 3c Well 3d Well3e Well 3f Well 3 g Cost to Connect to Future Water Treatment Plant $ 50,000 $ 50,000 $ 223,000 $ 292,000 $ 873,000 $ 521,000 $ 313,000 P:\Mpls\23 MN\27\23271009 JWC GM Emerency Water Supply\FinaIDeliverables\JWC Emergency Water Supply Memo dated 11-23- 2009 Final.doc To: From: Subject: Date: Project: Page: Joint Water Commission and Scoll Harder, Environmental Financial Group Inc. Barr Engineering Co. Joint Water Commission Emergency Water Supply November 23, 2009 23271009.00 9 Please note that seven wells have been indicated for potential connection to a future water treatment plant. The seven wells may have a capacity of approximately 12 mgd to provide raw water to a future water treatment plant. The costs of connecting the New Hope well to a water plant at Site 3 are not shown here because of the distance. Pipe costs alone would exceed $1.3 million. Adding restoration would significantly increase that cost. Because of this the New Hope well would truly be only an emergency supply well even in a future scenario where a water treatment plant was constructed. Many cities own similar wells that become orphaned when a water treatment plant is constructed too far away to make connection feasible. These wells often remain in their system as emergency back up wells. This is not necessarily a negative since the cost of using that existing asset is relatively low and it provides additional flexibility and security. The construction cost of connecting a future water treatment plant located at the Well 3a and 3b site to the large diameter north south distribution main is approximately $1,408,000. The breakdown of this cost is shown in Table No.4. Distribution system modeling is needed to confirm the need and/or adequacy of the northern and southern routes utilized for this opinion of probable construction cost. P:\Mpls\23 MN\27\2327 1009 JWC OM Emerency Water Supply\FinalDeliverablesVWC Emergency Water Supply Memo dated 11-23- 2009 Final.doc To: From: Subject: Date: Project: Page: Joint Water Commission and Scott Harder, Environmental Financial Group Inc. Barr Engineering Co. Joint Water Commission Emergency Water Supply November 23, 2009 23271009.00 10 Conclusions and Recommendations The main objective of this study was to compare the costs of using only existing wells to supply the JWC during an emergency to that of developing an emergency supply only from wells owned by the JWc. From this study it can be concluded that: · JWC owned wells can meet emergency needs at a cost similar to using only existing wells. · It also results in newer wells that could be part of a future JWC water supply system. · The New Hope well can be used in either an existing wells only or a JWC owned scenario but may never be connected to a future water treatment plant given its location so far from the larger watermains on the east side of the JWC. · Additional study is needed to refine specific well sites and investigate potential contamination. The construction costs identified in this memo provide important information when reviewing potential future well locations. Other criteria, such as distribution system hydraulics, ground water contamination, and future system flexibility are also important. Considering the importance of these criteria, we recommend consideration of conducting the following additional investigations: · Distribution system modeling of existing and future well sites · Revisit the previously completed well siting study if specific sites are considered in order to refine well spacing with respect to potential groundwater contamination issues in the vicinity of proposed new wells. · If the Honeywell site cannot be used for a future water treatment plant then perform a water treatment plant siting study to determine several practical sites that could be used for the construction of a future watertreatment plant. Such a study would be valuable even if the JWC plans to continue to purchase water from Minneapolis for many years. The reason is that any new wells constructed as part of a JWC owned emergency water supply system should still be sited in such a way that at some point in the future they could be routed to a water treatment plant located at a reasonable site. P:\Mpls\23 MN\27\23271009 JWC OM Emerency Water Supply\FinalDeliverablesUWC Emergency Water Supply Memo dated 11-23- 2009 Final.doc Table No.1 Construction of 1,200 - 1,400 gpm Praire du Chien/Jordan Well Joint Water Commission (Crystal, Golden Valley, New Hope) 23-Nov-09 Submersible Well With Portable Chemical Feed Construction Cost Estimated DescriDtion Quantitv Units Unit Price Extension Mobilization/Demobilization 1 LS $30,000 $30,000 Furnish Drill and Drive 30 inch Dia. Outer Casing 40 LF $365 $14,600 Advancing 29.25 Inch Borehole 110 LF $220 $24,200 Furnish and Install 24 Inch Dia. Middle Casing 160 LF $105 $16,800 Advancing 23.25 Inch Borehole in Bedrock 240 LF $100 $24,000 Furnish and Install 18 Inch Dia. Inner Casing 400 LF $90 $36,000 Advancing 17.25 Inch Borehole in Bedrock 190 LF $80 $15,200 Removal of Excessive Cuttings From Site 500 CY $13 $6,500 Furnish and Install Neat Cement Grout 560 LF $40 $22,400 Plumbness and Alignment Test 1 Ea $350 $350 Furnish Development Equipment 1 Ea $2,500 $2,500 Install and Remove Development Equipment 1 Ea $4,500 $4,500 Operate Development Equipment 130 Hours $330 $42,900 Furnish, Install, Detonate Explosives 200 Lbs $20 $4,000 Remove Fill From Well 500 CY $85 $42,500 Furnish Test Pumping Equipment 1 Ea $1,500 $1,500 Install and Remove Test Pumping Equipment 1 Ea $4,800 $4,800 Operate Test Pumping Equipment 30 Hours $165 $4,950 Televise Well 1 Ea $1,350 $1,350 Well Disinfectiion 1 Ea $125 $125 Submersible Pump/Motor/Drop Pipe 1 Ea $65,000 $65,000 Pitless Adapter 1 Ea $30,000 $30,000 Furnish and Install Water Level Indicator 1 Ea $3,600 $3,600 Flow Meas,fChem. Feed MH and App. 1 Ea $18,000 $18,000 Flow Meter 1 Ea $6,000 $6,000 Air Release MH and Appurtenances 1 Ea $18,000 $18,000 12 inch DIP 50 LF $95 $4,750 12 inch Gate Valves 1 Ea $3,000 $3,000 12 inch Fittings 6 Ea $1,500 $9,000 6 inch DIP 10 LF $60 $600 6 inch Gate Valves 1 Ea $1,200 $1,200 Fire Hydrant 1 Ea $3,500 $3,500 Disinfection and Sampling 1 Ea $4,000 $4,000 Chemical Feed System and Enclosure 1 Ea $15,000 $15,000 Small Electrical-Chem Feed Hut 1 LS $2,000 $2,000 Large Electrical-well 1 LS $95,000 $95,000 3 Phase Electrical Service to Well 1 LS $15,000 $15,000 Standby Power 0 ea $250,000 $0 SCADA Update 1 LS $12,000 $12,000 Drive/Parking Area 1 LS $15,000 $15,000 Site Restoration 1 LS $10,000 $10,000 Total Submersible Well With Portable Chemical Feed Systems and No Standby Power $629,825 Additional Cost for Non-Chemical Well House With Vertical Turbine Pump $150,000 Additional Cost for Chemical Well House With Vertical Turbine Pump $370,000 Additional Cost for Standby Power $250,000 Kev Lump Sum LS Linear Feet LF Cubic Yards CY Each Ea Hours Hours Pounds Lbs Table No.2 Joint Water Commission Emergency Water Supply Well Connection Costs 23-Nov-09 Description Quantitv Units Unit Cost Subtotal Well 3e 12 inch DIP 125 ft $ 95 $ 11,875 12 inch gate valve 1 ea $ 3,000 $ 3,000 12 inch fittings 4 ea $ 1,500 $ 6,000 18 inch gate valve 2 ea $ 12,000 $ 24,000 18 inch fittings 0 ea $ 4,500 $ Tee cut in-live 1 ea $ 12,000 $ 12,000 Road Crossings 0 Is $ Water Crossings 0 Is $ Disinfection and Sampling 1 Is $ 1,000 $ 1,000 Restoration 1 Is $ 20,000 $ 20,000 Total Well 3e Distribution System Connect $ 71,875 Description Quantitv Units Unit Cost Subtotal Well 3d 24 inch DIP 125 ft $ 195 $ 24,375 24 inch gate valve 1 ea $ 20,000 $ 20,000 24 inch fittings 4 ea $ 8,500 $ 34,000 16 inch gate valve 2 ea $ 9,000 $ 18,000 16 inch fittings 0 ea $ 2,500 $ Tee cut in-live 1 ea $ 12,000 $ 12,000 Road Crossings 0 Is $ Water Crossings 0 Is $ Disinfection and Sampling 1 Is $ 1,000 $ 1,000 Restoration 1 Is $ 20,000 $ 20,000 Total Well 3d Distribution System Connect $ 129,375 Well 3f 12 inch DIP 125 ft $ 95 $ 11,875 12 inch gate valve 1 ea $ 3,000 $ 3,000 12 inch fittings 4 ea $ 1,500 $ 6,000 16 inch gate valve 2 ea $ 9,000 $ 18,000 16 inch fittings 0 ea $ 2,500 $ Tee cut in-live 1 ea $ 12,000 $ 12,000 Road Crossings 0 Is $ Water Crossings 0 Is $ Disinfection and Sampling 1 Is $ 1,000 $ 1,000 Restoration 1 Is $ 20,000 $ 20,000 Total Well 3f Distribution System Connect $ 71,875 Well 3c (to Well 3d) 12 inch HDPE 1100 ft $ 75 $ 82,500 12 inch gate valve 1 ea $ 3,000 $ 3,000 12 inch fittings 4 ea $ 1,500 $ 6,000 16 inch HDPE 1900 ft $ 95 $ 180,500 16 inch gate valve 1 ea $ 9,000 $ 9,000 16 inch fittings 2 ea $ 2,500 $ 5,000 Road Crossings 0 Is $ Water Crossings 0 Is $ Tee cut in-live 0 ea $ 12,000 $ Disinfection and Sampling 1 ea $ 1,000 $ 1,000 Restoration 1 Is $ 8,000 $ 8,000 Total Well 3c Distribution System Connect $ 295,000 Description Quantity Units Unit Cost Subtotal Well 3a (to well 3c and 3d) 12 inch HDPE 900 ft $ 75 $ 67,500 12 inch gate valve 1 ea $ 3,000 $ 3,000 12 inch fittings 4 ea $ 1,500 $ 6,000 16 inch gate valve 1 ea $ 9,000 $ 9,000 16 inch fittings 2 ea $ 2,500 $ 5,000 Road Crossings 1 Is $ 15,000 $ 15,000 Water Crossings 0 Is $ Tee cut in-live 0 ea $ 12,000 $ Disinfection and Sampling 1 ea $ 1,000 $ 1,000 Restoration 1 Is $ 6,000 $ 6,000 Total Well 3a Distribution System Connect $ 112,500 Table No.3 Joint Water Commission WTP Raw Water Supply Well Connection Costs 23-Nov-09 DescriDtion Quantitv Units Unit Cost Subtotal Well 3a 12 inch DIP 400 ft $ 95 $ 38,000 12 inch gate valve 1 ea $ 3,000 $ 3,000 12 inch fittings 4 ea $ 1,500 ! 6,000 18 inch gate valve 0 ea $ 12,000 18 inch fittings 0 ea $ 4,500 Tee cut in-live 0 ea $ 12,000 Road Crossings 0 ea Water Crossings 0 ea $ Disinfection and Sampling 1 Is $ 500 $ 500 Restoration 1 Is $ 2,000 $ 2,000 Total Well 3a $ 49,500 Well 3b 12 inch DIP 400 ft $ 95 $ 38,000 12 inch gate valve 1 ea $ 3,000 $ 3,000 12 inch fittings 4 ea $ 1,500 $ 6,000 18 inch gate valve 0 ea $ 12,000 $ 18 inch fittings 0 ea $ 4,500 $ Tee cut in-live 0 ea $ 12,000 $ Road Crossings 0 Is $ Water Crossings 0 Is $ Disinfection and Sampling 1 Is $ 500 1 500 Restoration 1 Is $ 2,000 2,000 Total Well 3b $ 49,500 Description Quantitv Units Unit Cost Subtotal Well 3c 12 inch HDPE 2400 ft $ 75 $ 180,000 12 inch gate valve 2 ea $ 3,000 $ 6,000 12 inch fittings 10 ea $ 1,500 $ 15,000 16 inch gate valve 0 ea $ 9,000 $ 16 inch fittings 0 ea $ 2,500 $ Tee cut in-live 0 ea $ 12,000 $ Road Crossings 1 Is $ 15,000 $ 15,000 Water Crossings 0 Is $ Disinfection and Sampling 1 Is $ 1,000 $ 1,000 Restoration 1 Is $ 6,000 $ 6,000 Total Well 3c $ 223,000 Well 3d 12 inch HDPE 3200 ft $ 75 $ 240,000 12 inch gate valve 4 ea $ 3,000 $ 12,000 12 inch fittings 12 ea $ 1,500 $ 18,000 16 inch gate valve 0 ea $ 9,000 $ 16 inch fittings 0 ea $ 2,500 $ Tee cut in-live 0 ea $ 12,000 $ Road Crossings 1 Is $ 15,000 $ 15,000 Water Crossings 0 Is $ Disinfection and Sampling 1 Is $ 1,000 $ 1,000 Restoration 1 Is $ 6,000 $ 6,000 Total Well 3d $ 292,000 Well 3e 24 inch HDPE 3000 ft $ 195 $ 585,000 24 inch gate valve 2 ea $ 20,000 $ 40,000 24 inch fittings 12 ea $ 8,500 $ 102,000 16 inch HDPE 0 ft $ 95 $ 16 inch gate valve 0 ea $ 9,000 $ 16 inch fittings 0 ea $ 2,500 $ Road Crossings 1 Is $ 50,000 $ 50,000 Track Crossings 1 Is $ 85,000 ~ 85,000 Tee cut in-live 0 ea $ 12,000 ~ Disinfection and Sampling 1 ea $ 1,000 $ 1,000 Restoration 1 Is $ 10,000 $ 10,000 Total Well 3e $ 873,000 DescriDtion Quantitv Units Unit Cost Subtotal Well 3f (to Well 3e discharRe DiDinR) 12 inch HDPE 2100 ft $ 75 $ 157,500 12 inch gate valve 3 ea $ 3,000 $ 9,000 12 inch fittings 8 ea $ 1,500 $ 12,000 16 inch HDPE 1300 ft $ 95 $ 123,500 16 inch gate valve 2 ea $ 9,000 $ 18,000 16 inch fittings 12 ea $ 2,500 $ 30,000 Road Crossings 2 Is $ 50,000 $ 100,000 Water Crossings 0 Is $ Tee cut in-live 0 ea $ 12,000 $ Disinfection and Sampling 1 ea $ 1,000 $ 1,000 Restoration 1 Is $ 70,000 $ 70,000 Total Well 3f $ 521,000 Well 3R (to Well 3f discharRe DiDinR) 12 inch HDPE 2100 ft $ 75 $ 157,500 12 inch gate valve 8 ea $ 3,000 $ 24,000 12 inch fittings 20 ea $ 1,500 $ 30,000 16 inch gate valve 0 ea $ 9,000 $ 16 inch fittings 0 ea $ 2,500 $ Road Crossings 1 Is $ 15,000 $ 15,000 Water Crossings 1 Is $ 15,000 $ 15,000 Tee cut in-live 0 ea $ 12,000 $ Disinfection and Sampling 1 ea $ 1,000 $ 1,000 Restoration 1 Is $ 70,000 $ 70,000 Total Well 3g $ 312,500 Table No.4 Joint Water Commission WTP Connection to Distribution System 23-Nov-09 DescriDtion Quantitv Units Unit Price Extension North Connection 24 inch HOPE 3300 ft $ 165 $ 544,500 24 inch Gate Valves 4 ea $ 20,000 $ 80,000 24 inch Fittings 8 ea $ 8,500 $ 68,000 Road Crossings 1 Is $ 50,000 $ 50,000 Water Crossings 0 Is $ $ Tee cut in-live 1 ea $ 12,000 $ 12,000 Disinfection and Sampling 1 ea $ 1,000 $ 1,000 Restoration 1 Is $ 25,000 $ 25,000 Total North Connection $ 780,500 South Connection 24 inch HOPE 2900 ft $ 165 $ 478,500 24 inch Gate Valves 3 ea $ 20,000 $ 60,000 24 inch Fittings 6 ea $ 8,500 $ 51,000 Road Crossings 0 Is $ $ Water Crossings 0 Is $ $ Tee cut in-live 1 ea $ 12,000 $ 12,000 Disinfection and Sampling 1 ea $ 1,000 $ 1,000 Restoration 1 Is $ 25,000 $ 25,000 Total South Connection $ 627,500 ~ u: ::;; ll. 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