Abstract
Building energy efficiency is strongly linked to the operations and control systems, together with the integrated performance of passive and active systems. In new high quality buildings in particular, where these two latter aspects have been already implemented at the design stage, users’ perspective, obtained through post-occupancy assessment, has to be considered to reduce whole energy requirement during service life. This research presents an innovative and low-cost methodology to reduce buildings’ energy requirements through post-occupancy assessment and optimization of energy operations using effective users’ attitudes and requirements as feedback. As a meaningful example, the proposed method is applied to a multipurpose building located in New York City, NY, USA, where real occupancy conditions are assessed. The effectiveness of the method is tested through dynamic simulations using a numerical model of the case study, calibrated through real monitoring data collected on the building. Results show that, for the chosen case study, the method provides optimized building energy operations which allow a reduction of primary energy requirements for HVAC, lighting, room-electricity, and auxiliary supply by about 21%. This paper shows that the proposed strategy represents an effective way to reduce buildings’ energy waste, in particular in those complex and high-efficiency buildings that are not performing as well as expected during the concept-design-commissioning stage, in particular due to the lack of feedback after the building handover.
Highlights
The reduction of energy use in the built environment through optimizing building energy efficiency is a strategic research challenge [1], in particular after the Fourth Assessment Report of the IPCC [2]. This international report comprises three working groups that deal with the scientific basis of global warming (Working Group I), its consequences (Working Group II), and options for slowing the trend (Working Group III)
This latter section deals with the global potential of building energy efficiency for mitigating global warming phenomenon
Choice of the appropriate building to achieve interesting through post-occupancy evaluation for energy savings [29]; Analysis of the building design documents to evaluate architectural and technological properties (i.e., HVAC, lighting, heat water production, equipments data); Energy modeling and year-round dynamic simulation of the building base-case scenario (Scenario 0); In-field analysis campaign: indoor environmental measurements, occupants’ surveys and interviews following the approach in [23]; Whole building model calibration and validation through monthly electricity bills; Data analysis and elaboration of the optimization strategy through post-occupancy experimental assessment; Dynamic simulation of the optimized scenatio (Scenario 1): year-round simulation of the case study model after the implementation of the proposed strategy; Analysis of results
Summary
The reduction of energy use in the built environment through optimizing building energy efficiency is a strategic research challenge [1], in particular after the Fourth Assessment Report of the IPCC [2]. This international report comprises three working groups that deal with the scientific basis of global warming (Working Group I), its consequences (Working Group II), and options for slowing the trend (Working Group III). About Vertical Campus, indoors: Overall, how would you rate the VC indoor environment?
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