Abstract
To improve the energy efficiencies of building cooling systems, manufacturers are increasingly utilizing variable speed drive (VSD) motors in system components, e.g. compressors and condensers. While these technologies can provide significant energy savings, these benefits are only realized if these components operate as intended and under proper control. Undetected faults can foil efficiency gains. As such, it’s imperative to monitor cooling system performance to both identify faulty conditions and to properly inform building or multi-building models used for predictive control and energy management. This paper presents nonintrusive load monitoring (NILM) based “mapping” techniques for tracking the performance of a building’s central air conditioning from smart electrical meter or energy monitor data. Using a multivariate linear model, a first mapping disaggregates the air conditioner’s power draw from that of the total building by exploiting the correlations between the building’s line-current harmonics and the power consumption of the air conditioner’s VSD motors. A second mapping then estimates the air conditioner’s heat rejection performance using as inputs the estimated power draw of the first mapping, the building’s zonal temperature, and the outside environmental temperature. The usefulness of these mapping techniques are demonstrated using data collected from a research facility building on the Masdar City Campus of Khalifa University. The mapping techniques combine to provide accurate estimates of the building’s air conditioning performance when operating under normal conditions. These estimates could thus be used as feedback in building energy management controllers and can provide a performance baseline for detection of air conditioner underperformance.
Highlights
In developed countries, energy expenditures in buildings represent 20-40% of the total primary energy use [1]–[3]
This paper presents techniques using data from NILMcapable energy monitors to accurately estimate the operation of cooling systems featuring variable speed drive (VSD) components
Results from these experiments exhibit accurate estimation of the heat rejected by the cooling system to the outdoor environment, a critical input for urban climate modeling. These results show the potential for these mapping techniques to provide “continuous commissioning” of the cooling system
Summary
Energy expenditures in buildings represent 20-40% of the total primary energy use [1]–[3]. This paper presents techniques using data from NILMcapable energy monitors to accurately estimate the operation of cooling systems featuring VSD components These techniques exploit the correlations between line-current harmonics and VSD motor power consumption. Experimental results presented in this paper are based on data collected using recently developed noncontact, NILMcapable energy monitors [26]–[30] installed in the general service subpanel of a facility on the Khalifa University of Science and Technology campus in Abu Dhabi, UAE This building is cooled by a Toshiba MMY-MAP1204T8 air conditioner with dual three-phase VSD compressors, a singlephase VSD condenser fan, and a chilled water indoor heat exchanger. This particular fault was observed during testing, and the estimated heat rejection during the fault is compared against the measured heat rejection to illustrate this point
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
