Abstract
Challenges of energy security, low carbon transitions, and electricity network constraints have led to a shift to new, efficient technologies for household energy services. Studies of such technological innovations usually focus on consumer information and changes in behaviour to realise their full potential. We suggest that regarding such technologies in existing energy provision systems opens up questions concerning how and why such interventions are delivered. We argue that we must understand the ways by which energy systems are co-constituted through the habits and expectations of households, their technologies and appliances, alongside arrangements associated with large-scale socio-technical infrastructures. Drawing on research with air-source-to-water heat pumps (ASWHP), installed as part of a large trans-disciplinary, utility-led research and demonstration project in the north of England, we investigate how energy services provision and everyday practice shapes new technologies uptake, and how such technologies mediate and reconfigure relations between users, providers and infrastructure networks. While the installation of ASWHP has led to role differentiation through which energy services are provided, the space for new forms of co-provision to emerge is limited by existing commitments to delivering energy services. Simultaneously, new forms of interdependency emerge between users, providers and intermediaries through sites of installation, instruction, repair and feedback. We find that although new technologies do lead to the rearrangement of practices, this is often disrupted by obduracy in the conventions and habits around domestic heating and hot water practices that have been established in relation to existing systems of provision. Rather being simply a matter of increasing levels of knowledge in order to ensure that such technologies are adopted effi ciently and effectively, our paper demonstrates how systemic arrangements of energy provision and everyday practice are co-implicated in socio-technical innovation by changing the nature of energy supply and use.
Highlights
The United Kingdom, alongside other European countries has set ambitious longterm CO2 reduction and renewable energy targets, which have become key drivers in shaping energy policy
The preceding analysis raises several key points for understanding how novel low carbon thermal technologies become integrated into households everyday life, and implications for changing practices, and systems of provision
From installation and study of household practices for a short period after, this study makes visible various practices of integrating technology as part of everyday life, providing insight into the details of installation and use. It reveals the constellation of different actors and diverse interests required to make air-source-to-water heat pumps (ASWHP) effective. This perspective is critical for the UK where housing and energy are separately organised and structured, without integrated policy contexts that exist in other locations where heat pumps are widely adopted
Summary
The United Kingdom, alongside other European countries has set ambitious longterm CO2 reduction and renewable energy targets, which have become key drivers in shaping energy policy. Increasing renewable sources of energy is a key element of the UK strategy. Future projections of carbon emission savings rely on widespread uptake of a range of low carbon energy sources (DECC, 2013) including small scale, low and zero carbon micro-generation heat technologies (HM Government, 2009; EST, 2007). Heat pumps are a key technology for delivering lowcarbon heating (DECC, 2011; Spiers et al, 2010). European Union policy encourages the wider uptake of heat pumps by including them in a list of renewable technologies designed to meet national obligations to increase the percentage of heat generated from renewable sources (EU, 2009). For the UK this entails a shift away from dependence on ubiquitous gas powered domestic central heating to technologies powered by new forms of low carbon electricity. Current understanding of how novel low carbon thermal technologies become integrated into homes is limited (Wrapson & DevineWright, 2014)
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