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City of South Bend, IN — Department of Public Works , L V ER EGY <br />GESC: Central Fire Station & MLK Dream Center Solar PV <br />Measurement and Verification <br />PERSONNEL AND ORGANIZATION <br />What sets Veregy apart from our competitors is our 24/7 central energy plant that monitors our energy <br />projects. Veregy has arrays across the country and our central energy plant operates 24/7/365 for the <br />sole purpose of ensuring each system performs as expected. If a problem should arise, Veregy has the <br />resources, knowledge, and equipment to know where the problem is and how to fix it promptly. We use <br />state-of-the-art hardware to gather, transmit, and make available timely system performance data to you <br />and to our dedicated team of performance engineers and expert service technicians, thereby ensuring <br />fast, reliable, and effective response to any field issues. With our monitoring services, system downtime <br />will be limited should any problems arise. <br />The Veregy team member who will take the lead responsibility for this activity will be Scope Development <br />Engineer Scott Brown, a Certified Measurement and Verification Professional (CMVP), will oversee this <br />part of the project as well. The remainder of the performance assurance team is comprised of Matt Powell <br />(Central Monitoring Plant) and Pat Yazel and his preventative maintenance team. All performance <br />assurance team members are in-house personnel. <br />The performance assurance team will work with City of South Bend's staff to anticipate energy related <br />budget impacts of any future changes in operations resulting from added equipment, space, or activities <br />such as night classes or athletic activities. Our performance assurance team will work closely with the <br />City to make certain Veregy meets our long-term obligations. <br />BASELINE METHODOLOGY <br />The Baseline Methodology for this project utilizes the 12 months of utility bills and rates given to us by <br />your staff. After the initial energy baseline creation and during the ongoing performance management of <br />the project, it may become necessary to adjust the energy baseline for factors or unique changes in the <br />building's use, baseline utility or for non -controllable variables. Common adjustments are made for items <br />such as actual weather conditions and major changes outside of the energy baseline parameters. <br />MEASUREMENT AND VERIFICATION PROTOCOL <br />The Federal Energy Management Program (FEMP) of the U.S. Department of Energy and its <br />Measurement and Verification Guidelines for Federal Energy Projects classify measurement and <br />verification approaches as Option A, B, C, and D. The FEMP Guideline is based on the International <br />Performance Measurement and Verification Protocol (IPMVP). <br />OPTION A <br />Option A applies to HVAC and LED Lighting improvements. <br />Verification techniques determine savings by measuring the performance of a system before and after a <br />retrofit, either through physical measurement or use of the manufacturer data and multiplying the <br />difference by an agreed -upon or stipulated factor, such as hours of operation. <br />OPTION B <br />Option B applies to Photovoltaic installations (Solar). <br />Verification techniques are designed for projects where long-term continuous measurement of <br />performance is desired. Metering is conducted on an individual system level, and the measured <br />performance is compared with a baseline to determine the savings. <br />Page 113 <br />