Example Measurement & Verification Plan for a Super espc project
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2008-doe-idiq-espc-example-measurement-and-verification-plan-espc-project
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6.1
Example M&V Plan for those two groups was met. For the closed office areas, the large variability in usage resulted in a C v greater than 0.5 and an initial precision of 24% with eleven samples. As a result, an additional eleven loggers were deployed in different closed office spaces for another three-week period in May 2003. With a total of 22 measurements, the achieved precision is less than 20% at 80% confidence as desired. Table 3-3: Usage Group Descriptions, monitoring Points and Results Usage Group Number of fixtures # Circuits (N) # Points (n) Demand savings, (kW) Annual op. hours Energy savings, kWh % of total C v Precision at 80% confidence Coincidence 1 – 4 p.m. 24 Hour - Exit 69 21 0 0.82 Est. 8,760 7,169 4% 24 Hour - Misc 30 9 5 1.78 8,760 15,598 8% 0.2 7.6% 72% Closed Office Areas 673 204 22 22.96 1,900 43,377 23% 0.65 16.8% 68% Common Office Areas 581 176 11 37.39 2,800 104,343 56% 0.43 16.1% 86% Conference Rooms 43 13 0 2.75 Est. 1,600 4,436 2% Halls and Common areas 131 37 0 1.56 Est. 3,000 4,633 2% Storage, comp. closets 218 66 0 5.57 Est. 1,200 6,850 4% Totals 1745 526 38 72.83 186,406 100% 79% The weighted peak coincidence factor is used to calculate the demand cost savings from the demand savings. The demand reduction listed in Table 3-3 is based on a reduction in the connected load. However, not all of this reduction will appear in the form of reduced demand charges on the utility bill. The coincidence factor for each usage group represents the fraction of fixtures operating when the building peak demand is set and therefore represents that usage group’s contribution to the demand reduction seen at the utility meter. Download 302.44 Kb. Do'stlaringiz bilan baham: 
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