The paper explores potentials for increasing residents' wellbeing in multi-family social housing (MSH) undergoing energy renovation. The renovation measures needed to reach national and global climate goals are often not financially feasible when viewed in isolation. Therefore, it is relevant to identify potentials for added value, which can justify more extensive measures. This paper is based on the hypothesis that every renovation project holds potentials for added value in terms of increased resident wellbeing. Further, that it is crucial to extend current understandings of wellbeing beyond single, quantitative wellbeing parameters in order to promote more holistic, long-term sustainable renovation solutions. The paper sheds light on potentials for increased resident wellbeing based on an analysis of residents’ experience and satisfaction with gestures in the existing built environment and comparing these findings to their perceived health. The analysis is based on data collected through a mixed-methods approach in three MSH areas facing extensive renovation. The findings demonstrate and exemplify that energy renovation measures may influence a number of interrelated physiological, mental and social wellbeing aspects across scales. As such, the paper contributes with new insights, which can help promote previously neglected aspects of resident wellbeing in future energy renovation design processes.
The Boston Residential Investigation on Green and Healthy Transitions (BRIGHT) Study is focused on quantifying the effects of redeveloping public housing developments into new buildings with improved energy performance and indoor environmental quality. This report presents an analysis of utility consumption and work order requests at Old Colony and Washington-Beech, two redeveloped housing sites in Boston, Massachusetts. We compare the consumption of electricity, natural gas, and water, as well as work order data, from 2012–2014 to development-wide baseline data from 2006–2009. We found that despite the higher number of electric appliances in the new apartments (e.g., air conditioning and ranges), electricity consumption decreased 46% in Old Colony and nearly 30% in Washington-Beech when compared to the baseline data. Natural gas used for space heating decreased by more than 70% at both sites; and water use decreased by nearly 56% at Old Colony and nearly 30% at Washington-Beech. Work order categories that directly influence the residents’ quality of life, such as pests, mold, windows and plumbing decreased by more than 50% in both renovated sites. In combination with previous documentation of health improvements in the redeveloped sites, these results provide further evidence of the magnitude of benefits from updating public housing infrastructure using green design principles.
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