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Home My WebLink About2010-10-05; Municipal Water District; 724; MAERKLE PRESSURE CONTROL HYDROELECTRIC FACILITYCARLSBAD MUNICIPAL WATER DISTRICT - AGENDA BIL AB# ?24 MTG. 10/05/10 DEPT. UTIL ACCEPT TECHNICAL MEMORANDUM FOR THE MAERKLE RESERVOIR PRESSURE CONTROL HYDROELECTRIC FACILITY PROJECT NO 5025 DEPT. DIRECTOR CITY ATTORNEY (Q^^* CITY MANAGER I iL_-- RECOMMENDED ACTION: Adopt Resolution No. 1404 accepting Technical Memorandum for the Maerkle Reservoir Pressure Control Hydroelectric Facility, Project No. 5025. ITEM EXPLANATION: A pressure control hydroelectric facility (PCHF) generates electrical power by capturing some of the energy in high-pressure water using a pump connected to an induction motor. The high-pressure water is fed through the pump in the opposite direction to that of a pump to spin the induction motor. The induction motor then becomes a generator and produces electrical power. Near the easterly city limits of Carlsbad approximately one mile north of Faraday Avenue an existing pressure reducing station reduces high-pressure water through a series of valves and discharges the water to the 10 million gallon (MG) Maerkle Tank and 200 MG Maerkle Dam (see Exhibit 1 for location). In February 2009 a Feasibility Study was completed by Energistics, Inc. indicating that a PCHF constructed in parallel to the existing pressure reducing station could potentially generate electrical power with a payback period of nine years. Based on this information, on April 14, 2009 the Board adopted Resolution No. 1350 authorizing further investigation of constructing a PCHF at this location. On September 22, 2009, the Board adopted Resolution No. 1376, appropriating $2,000,000 and approving a professional engineering services agreement with Carollo Engineers for preliminary design, preparing plans and specifications, construction support, and startup services of a PCHF adjacent to Maerkle Tank. Carollo Engineers completed the first task, a Technical Memorandum, dated April 2010, presenting detailed information on the alternatives available for the PCHF. The Technical Memorandum indicated that based on the flow rate range occurring throughout the year, and pressure available, a reverse turbine pump or an emerging technology using a reverse rotary lobe pump would be the best application for the PCHF because of lower construction cost, small footprint, and ease of operation. Reverse Turbine Pump - An analysis of sixteen reverse turbine pump alternatives shows Alternative No. 4a has the shortest payback period based on the parameters shown in Table 1. Table 1 - Recommendation for Reverse Turbine Pump, Alternative No. 4a for PCHF Description Flow rate Pressure Maximum Power Produced Annual Electricity Production Project Cost Annual Revenue 20-year Net Present Value Net Present Value Payback Period Parameter 6.75 cubic feet per second (cfs) 134 pounds per square inch (psi) 135 kilowatts (kW) 832,812 kW-hrs based on 6,158 hours of operation annually $1,205,000 (includes $1,120,000 project + $85,000 miscl.) $80,442 for first year of operation @ $0.0966/kW-hr $1,588,720 using SDG&E Schedule RES-BCT Tariff 8.1 years using SDG&E Schedule RES-BCT Tariff DEPARTMENT CONTACT: William Plummer, (760) 602-2768, biH.plummer@carlsbadca.gov FOR CITY CLERKS USE ONLY BOARD ACTION: APPROVED fi&. CONTINUED TO DATE SPECIFIC D DENIED °D CONTINUED TO DATE UNKNOWN D CONTINUED D RETURNED TO STAFF D WITHDRAWN D OTHER-SEE MINUTES D AMENDED D Page 2 Reverse Rotary Lobe Pump - An emerging technology from a Norwegian company called Zeropex uses a rotary lobe pump connected to an induction motor to generate power. This type of pump was listed as Alternative No. 17 and 17a in the economic analysis. A rotary lobe pump combined with variable frequency drive, and a software program reduces pressure over the entire flow range, essentially acting as a pressure reducing or sustaining valve to maintain a set pressure upstream or downstream of the pump. For the proposed PCHF an additional 15 psi of water pressure could potentially be captured compared to the reverse turbine pump. The estimated project cost was higher, at $1,510,000, but the 20-year net present value increased to $2,623,566 resulting in the shortest payback period of 7.3 years using the RES-BCT tariff (Alternative No. 17a). In 2009, Zeropex installed their first unit in Norway. Their first installation in the United States is now taking place in Grand Rapids, Michigan with startup planned to occur in the fall of 2010. The San Diego County Water Authority is also investigating this equipment to replace existing hydroelectric generators. In addition, the staff at the California Public Utilities Commission (CPUC) is investigating this technology, and in October 2010, proposes to submit for CPUC approval, grant funding for six units at four different private water companies in California. Project Schedule - The project schedule requires completing several major tasks as follows. The first task is to select and pre-order the power generation equipment based on using a reverse turbine pump or reverse rotary lobe pump. Plans and specifications are then prepared, based on the selected equipment. After plans and specifications are completed (6 months), the hydroelectric facility will need to obtain a license from the Federal Energy Regulatory Commission (FERC). The shortest process for a FERC license is to obtain a "Conduit Exemption", which requires the PCHF to meet three conditions including connecting to a conduit (pipeline) that was originally constructed for a non-hydropower use, ownership of the land by CMWD for the proposed powerhouse, and installing the power generation facility before the final point of discharge. Assuming the use of a "Conduit Exemption", the FERC process will take 8 to 10 months. Finally, project bidding and award will need to take place (3 months) followed by construction (6 to 8 months). The SDG&E RES-BCT tariff can be pursued after the bid is awarded for construction. Recommendation - The Technical Memorandum recommends proceeding with the final design of the project. The final design first involves staff, in consultation with Carollo Engineers, selecting the type of hydroelectric generator equipment (i.e. reverse turbine pump or reverse rotary lobe pump) that best meets the project goals and requirements. When the hydroelectric generator is selected, plans and specifications for construction of the PCHF will be prepared, followed by obtaining a FERC license. Finally, staff will be returning to the Board for their consideration to approve advertising the PCHF project to receive bids for construction. The Technical Memorandum - Pressure Control Hydroelectric Facility at Maerkle Reservoir by Carollo Engineers dated April 2010 is available for review at the City Clerk's office. ENVIRONMENTAL IMPACT: The consideration and approval of a project alternative is statutorily exempt from the requirements of the California Environmental Quality Act (CEQA) in accordance with State CEQA guidelines Section 15262 - Feasibility and Planning Studies. The PCHF project will be subject to CEQA upon final design and all applicable CEQA documents will be processed and filed prior to adoption of the project's plan and advertisement for construction. FISCAL IMPACT: SDG&E Tariff - As shown in Table 1 above, SDG&E's RES-BCT (Local Government Renewable Energy Self-Generation Bill Credit Transfer) tariff results in the shortest payback period estimated at 8.1 years for the Reverse Turbine Pump and 7.3 years for the Reverse Rotary Lobe Pump. This tariff allows renewable energy producers to generate electricity at one meter location and use the credit at another owned meter location, commonly referred to as wheeling. Therefore, CMWD would be Page 3 allowed to use the excess electricity generated at the PCHF as a credit on their electricity bill at another location. In addition, any Renewable Energy Credits generated would be owned by CMWD. The RES-BCT Tariff was recently approved by the CPUC on July 6, 2010 in accordance with CPUC Resolution E-4283. To receive the tariff, the CMWD must submit "Generation Bill Credit Transfer Allocation Request Form" (form 142-0546) with up to a maximum of 50 credit meter accounts, at least 60 days prior to the regularly scheduled meter reading date. The RES-BCT tariff is available on first- come first-served basis, until the combined rated generating capacity within SDG&E's service territory reaches SDG&E's share of 8.1% of the statewide 250 mega-watts limitation. WaterSMART Grant - In March 2010, the Federal Department of the Interior, Bureau of Reclamation (BUREC) announced they were requesting applications for their FY 2010 WaterSMART (Sustain and Manage America's Resources for Tomorrow) grant totaling $12.8 million. The grant amount to any agency was capped and grant awards were based on a competitive selection process. An application for a $300,000 grant for the PCHF project was authorized by the Board on April 27, 2010 by Resolution No. 1396. The BUREC received 197 grant applications. In a letter dated July 28, 2010 from the BUREC, the CMWD was notified that the PCHF project was not selected to receive a grant. Future fiscal year appropriations to the WaterSMART grant program are planned, and staff will monitor this program for future grant opportunities. Economic Analysis - Each alternative was evaluated by a net present value (NPV) analysis, which is the current worth (net gain or loss in today's dollars) of a series of future revenues and expenditures (i.e. construction cost, operation and maintenance expenses, and revenues). The NPV analysis for the PCHF used a discount rate of 4.5 percent and a 20-year life cycle. Of the seventeen alternatives investigated, two alternatives are currently being considered: Alternative No. 4a - This alternative uses the reverse turbine pump technology with a design flow rate of 6.7 cfs. The estimated NPV is $1,588,000 resulting in a payback period of 8.1 years using the SDG&E Schedule RES-BCT tariff. Alternative No. 17a - This alternative considers an emerging technology from Zeropex, which uses a reverse rotary lobe pump. The estimated NPV is $2,624,000 resulting in a payback period of 7.3 years using the SDG&E Schedule RES-BCT tariff. Project Cost - Table 2 below presents a preliminary project cost estimate using the construction cost obtained from the Technical Memorandum prepared by Carollo Engineers. Once the design of the project is complete and final cost estimates are developed, the project costs may be adjusted accordingly. Funding for the project is appropriated in the Fiscal Year 2010/2011 Capital Improvement Program in the amount of $2,000,000 from the Water Replacement Fund. Sufficient funds are available for the completion of the project design and construction. The preliminary estimated annual operating and maintenance budget for the facility is not established at this time, but a factor of 0.01 $/kW-hr was used in the economic analysis to account for the expense. Because of the technical nature of the power generating equipment and its control system, the actual operation and maintenance work will need to be performed by a private company engaged in this type of work and will be budgeted based on an "Ongoing Service Agreement". The estimated annual operation and maintenance expense will be determined during the final design phase. Revenue for the first year of operation is estimated at $80,442/year based on an annual operation of 6,158 hours. Page 4 TABLE 2 PROJECT COST BUDGET FOR PRESSURE CONTROL HYDROELECTRIC FACILITY, PROJECT NO. 5025 DESCRIPTION PRELIMINARY AND FINAL DESIGN. ENVIRONMENTAL. & PERMITS Preliminary Design, Environmental Documentation (Carollo Engineers) Final Design, Plans and Specifications (Carollo Engineers) Construction Support and Miscellaneous Services (Carollo Engineers) Subtotal CONSTRUCTION Estimated Capital Cost from Technical Memorandum Construction Management & Inspection, Miscellaneous Items, staff support Subtotal TOTAL PROJECT COST CURRENT APPROPRIATION ADDITIONAL APPROPRIATION REQUIRED ESTIMATED COSTS $161,000 171,000 93,000 $425,000 $680,000 100,000 $780,000 $1,205,000 $2,000,000 $-0- The current financial status of the PCHF project is shown in Table 3 below. TABLE 3 - CURRENT EXPENDITURES FOR PRESSURE CONTROL HYDROELECTRIC FACILITY, PROJECT NO. 5025 TASK DESCRIPTION Staff Consultant Construction TOTAL CURRENT YEAR APPROPRIATION $100,000 425,000 1,475,000 $2,000,000 CURRENT FISCAL YEAR EXPENDITURES/ ENCUMBRANCES $16,003 76,635 0 $92,638 REMAINING BALANCES $83,997 348,365 1,475,000 $1,907,362 EXHIBITS: 1. 2. 3. 4. 5. Location Map Site Plan Building Layout Types of Hydroelectric Generators for PCHF Resolution No.1404 to Accept the Technical Memorandum dated April 2010 for the Pressure Control Hydroelectric Facility, Project No. 5025. LOCATION MAP PROPOSED SITE NOT TO SCALE PROJECT NAME PRESSURE REDUCING HYDROELECTRIC FACILITY ATMAERKLE RESERVOIR PROJECT NUMBER 5025 EXHIBIT 1 DRAWN BY: SCOTT EVANS, CARLSBAD ENGINEERING DEPT. 8/18/10 C: \UTlUTIES OEPARTUENT\DESIGN DIVISION\PLUUUER\5025.DWG EXISTING PRESSURE REDUCING STATION EXISTING 10MG MAERKLE TANK PROPOSED HYDROELECTRIC BUILDING PCHF S f£ PLAN EXH B 2 12" EMERGENCY OVERFLOW 12"0 HYDRAULICALLY ACTUATED TURBINE INLET BFV Figure No. 9 TURBINE BUILDING LAYOUT PRESSURE CONTROL HYDROELECTRIC FACILITY AT MAERKLE RESERVOIR CARLSBAD MUNICIPAL WATER DISTRICT -V' Wanton With Water ~ REVERSE TURBINE PUMP GENERATOR REVERSE ROTARY LOBE PUMP GENERATOR TYPES OF HYDROELECTRIC GENERATORS FOR PCHF - FIGURE 4 1 RESOLUTION NO. 1404 2 A RESOLUTION OF THE BOARD OF DIRECTORS OF 3 CARLSBAD MUNICIPAL WATER DISTRICT, CALIFORNIA, TO ACCEPT TECHNICAL MEMORANDUM, DATED APRIL 2010 4 FOR THE PRESSURE CONTROL HYDROELECTRIC FACILITY AT MAERKLE RESERVOIR, PROJECT NO. 5025 5" 6 7 8 15 16 17 18 WHEREAS, a Technical Memorandum was prepared by Corollo Engineers for the Pressure Control Hydroelectric Facility (PCHF) at Maerkle Reservoir dated April 2010; and WHEREAS, the Technical Memorandum recommends proceeding with final design based on selecting the hydroelectric generator that best meets the goals and requirements of the project using either a reverse turbine pump, or a reverse rotary lobe pump, with a total estimated project cost of approximately $1,205,000; and 11 WHEREAS, on September 22, 2009, by Resolution No. 1376, the Board approved an 12 appropriation in the amount of $2,000,000 for the Pressure Control Hydroelectric Facility at 13 Maerkle Reservoir, Project No. 5025, and 14 WHEREAS, funding for the project is included in the Fiscal Year 2010/2011 capital improvement program, and sufficient funds are available for the completion of the project design and construction; and WHEREAS, staff will prepare plans and specifications for the PCHF based on a final selection of the hydroelectric equipment, obtain a license from the Federal Energy Regulatory Commission, and return to the Board for their consideration to authorize advertising to receive bids 20 19 for construction of the PCHF NOW, THEREFORE, BE IT RESOLVED by the Board of the Carlsbad Municipal Water 21 District, California, as follows: 22 1. That the above recitations are true and correct. 23 2. That the Board accepts the Technical Memorandum dated April 2010, prepared 24 by Carollo Engineers, for the Pressure Control Hydroelectric Facility at Maerkle 25 Reservoir, which is available for review at the City Clerk's office. 26 3. Proceed to final design and return to Board for approval of plans and 27 specifications and further processing. 28 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 PASSED, APPROVED AND ADOPTED at a Special Meeting of the Board of Directors of the Carlsbad Municipal Water District of the City of Carlsbad on the 5th day of October 2010, by the following vote to wit: AYES: Board Members Lewis, Kulchin, Hall, Packard and Blackburn. NOES: None. ABSENT: None. ATTEST: Pressure Control Hydroelectric Facility at Maerkle Reservoir Technical Memorandum October 5, 2010 Background •February 2009 –Feasibility Study by Energistics –Location: SDCWA TAP No. 3 to Maerkle Reservoir –Type of Generator: Reverse Turbine Pump –Potential Power: 350 kW –Payback Period: 9 years •April 2009 -Presentation to Board •September 2009 –Carollo Engineers Agreement •April 2010 -Technical Memorandum Primary Objectives of Technical Memorandum •Estimate PCHF feasibility from engineering & financial standpoint •Use report for preliminary design Types of Turbine Generators Pelton Francis Kaplan Propeller Technical Memorandum Recommendation •Reverse Turbine Pump hydroelectric –Alt. 16 •Optimum flow: 6.75 cfs •Operational Flow Range: 6 cfs to 7 cfs –Existing PR Station required for all other flow rates •Design Pressure: 134 psi •Power Produced: 135 kW •Annual Revenue, 1st Year: $80,442 @ 9¢/kW-hr •20 Year Net Present Value: $1.6 million •Payback Period: 8.1 years using “RES-BCT“ Tariff Project Location Project Site Looking Northwest Pressure Reducing Station 10 MG Tank Hydroelectric Building Layout Reverse Turbine Pump Generator Generator Inflow Pipe Reverse Turbine Pump Outlet Pipe Turbine Pump Showing Reverse Flow Flow In Reverse Turbine Pump Animation Technical Memorandum PCHF Option Reverse Rotary Lobe Pump by Zeropex Flow Range: 1 cfs to 10.6 cfs Benefit: Acts like a pressure reducing valve Design Pressure: 150psi Power Produced: 163 kW Annual Revenue, 1st Year : $131,000 @ 9¢/kW-hr 20 Year Net Present value: $2.6 million Payback Period: 7.3 years using “RES-BCT“ Tariff Rotary Lobe Pump Generator PUMP GENERATOR Rotary Lobe Pump Animation SDG&E Tariff Recommended Tariff: RES-BCT (approved July 2010 by CPUC) “Generation Credit” allowed up to 50 meters Carlsbad keeps Renewable Energy Credits (producers of “green” power can sell REC’s estimated at 2¢/kW-Hr) Application: First Come -First Served Project Cost Estimate Description Estimated Cost Technical Memorandum & CEQA $161,000 Plans &Specifications $171,000 Construction Cost $680,000 Construction Management & Inspec.$100,000 Construction Support & Startup $ 93,000 Total Project Cost $1,205,000 Current Appropriation $2,000,000 Project Schedule Pre-Select Hydroelectric Generator –3 months Plans, Specifications & CEQA –6 months FERC License –8 to 10 months Bidding/Award –3 months Construction & SDG&E –6 to 8 months Begin Operation –January 2013 Recommendations •Accept PCHF Technical Memorandum •Proceed to Final Design Questions? Flow through Rotary Lobe Pump