Abstract
Introduction: This paper introduces a framework to assess householders’ interaction with grid-connected photovoltaic (PV) systems in domestic buildings, in an attempt to research the question To what extent the engagement of occupants in energy demand management practices is relevant for the operational CO 2 emissions reductions in dwellings with on-grid PV systems? The focus is placed on identifying the engagement with low-carbon operation practices and its relevance for final CO2 emissions from electricity consumption. Specifically, PV electricity Self-consumption and energy conservation practices are studied. To this extent, the research builds on i) the energy services approach and ii) the social practices approach to domestic energy demand. The context of owner-occupied houses which have been retrofitted with PV installations in South Wales, UK is taken as an example. Methods: After a brief conceptual review on domestic energy demand, a mixed-methods framework for the study of householders’ engagement with low-carbon energy demand practices is presented, comprising three key aspects: a) the conditions for the practices to occur, b) frequency with which householders enact the practices, and c) the estimation of final operational CO2 emissions performance. Results: As part of ongoing research work, a framework to study households’ engagement with low-carbon energy demand practices in buildings with grid-connected PV technology is proposed; focusing on the obtention of a socio-technical lecture to complement other sources of in-use assessment data. Conclusions: Besides single case-studies, the framework has potential applications in recognising and grouping households’ engagement profiles. In this way, it is suggested that the framework might facilitate the analysis when extensive assessments are needed; such as in public policy evaluation or demand response studies. Grant Support: This work is funded by CONICYT PFCHA/DOCTORADO BECAS CHILE/2018 - 72180375.
Highlights
This paper introduces a framework to assess householders' interaction with gridconnected photovoltaic (PV) systems in domestic buildings, in an attempt to research the question To what extent the engagement of occupants in energy demand management practices is relevant for the operational CO2 emissions reductions in dwellings with on-grid PV systems? The focus is placed on identifying the engagement with low-carbon operation practices and its relevance for final CO2 emissions from electricity consumption
To what extent is the engagement of occupants relevant to the operational carbon emissions reductions in dwellings with on-grid photovoltaic (PV) systems? This study aims to contribute to the conceptual and methodological debate underpinning the response of this question
Through a short literature review, this paper has addressed the main strategies towards the decarbonisation of domestic buildings and has identified those that apparently remain as the most relevant in the context of prosumer dwellings with PV energy systems
Summary
This paper introduces a framework to assess householders' interaction with gridconnected photovoltaic (PV) systems in domestic buildings, in an attempt to research the question To what extent the engagement of occupants in energy demand management practices is relevant for the operational CO2 emissions reductions in dwellings with on-grid PV systems? The focus is placed on identifying the engagement with low-carbon operation practices and its relevance for final CO2 emissions from electricity consumption. This decade of experience represents a major learning opportunity for developing countries and those which are starting to implement policies one of the questions that the research community has raised during this period, and currently remain as an open debate is the uncertain role of householders for the maximisation of PV systems' outcomes, in terms of reducing CO2 emissions [4,5,6,7,8,9] The paper addresses this problem through the development of a socio-technical framework for the study of householders' engagement. 'Increase substantially the share of renewable energy in the global energy mix' [10]
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
