Description

This paper investigates the independent impact of several different existing building commissioning (EBCx) measures on peak electric demand, to helpunderstand measures to prioritize based on peak demand savings along with the usually-assessed energy consumption savings. The investigation involvesdeveloping separate EnergyPlus™ models for each EBCx measure, and comparing the peak electric demand generated by each model with a baselinemodel. The pre-EBCx and post-EBCx models are based on a community college campus which underwent an EBCx project between 2014 and 2015,resulting in an average of 34% savings in energy consumption and peak demand. The total peak demand reduction determined from the individualEBCx measures was only 26% compared to the measured reduction of 34%. Applying an outside air temperature reset schedule to AHUs’ supply airtemperature (SAT) setpoints reduced peak demand by an average of 16.7%, mainly due to the reduction of unnecessary cooling and reheating, especiallyin winter. The optimization of AHU control schedules, which minimized the unnecessary operation of some units during peak hours produced peakdemand savings of 6%, while the optimization of space temperature setpoints contributed another 3%. While other measures impact electric demandduring non-peak hours, none produced peak electric demand reduction greater than 1%. Other measures did not generate peak demand savings while stillgenerating energy consumption savings, mainly for the reason of not having an impact during peak hours.

Product Details

Published:

2022

Number of Pages:

10

Units of Measure:

Dual

File Size:

1 file , 1.9 MB

Product Code(s):

D-TO-22-C057

Note:

This product is unavailable in Russia, Belarus