The Climate Change Act 2008 requires a 34% cut in 1990 greenhouse gas emissions by 2020 and at least an 80% reduction in emissions by 2050. Residential and commercial buildings account for 25% and 18% of the UK's total CO2 emissions respectively and therefore have a significant role to play in a national decarbonisation strategy. As the UK has some of the oldest and least efficient buildings in Europe, there is substantial scope for improving the efficiency of energy end-use within UK buildings. However efforts to improve building energy efficiency, specifically the thermal efficiency of the building fabric, have to date focused primarily on the analysis and assessment of single properties. The slow uptake of insulation measures through the Green Deal and Energy Companies Obligation testifies to the difficulty of achieving these changes on a house-by-house basis. If the UK is to achieve its energy and climate policy targets, then a more ambitious whole-city approach to building energy improvements is needed. Technical innovations in remote sensing and infrared thermography mean that it is now possible to conduct building efficiency surveys at a mass scale. The challenge is how such data can be improved (for example moving from 2D plan imagery to 3D models of the built environment) and combined with systems analysis tools to inform effective retrofit strategies. The Urban Scale Building Energy Network will investigate this research challenge by bringing together five academic co-investigators with disciplinary expertise from across the building retrofit value chain from remote autonomous sensing to building physics, energy systems design, consumer behaviour and policy. Working with two experienced mentors from the fields of energy systems and building energy services, the co-investigators will undertake a series of activities in collaboration with project partners from industry and government to better understand the research challenge and develop roadmaps for future research. The activities include: - Two workshops and a series of bilateral meetings for the academic team to learn about each other's expertise and how it can be coordinated and brought to bear on the research challenge. The project mentors will play a crucial role here, helping the co-investigators to create personal development plans that will build both technical and non-technical skills for successful careers. - A workshop with over 20 representatives from government and industry to discuss previous experience and the perceived obstacles to more ambitious building energy retrofits. - An active online communications strategy incorporating a project website, YouTube videos, and a Twitter hashtag campaign in order to engage the general public and understand how households and commercial building occupants understand the challenge of transforming the UK's building stock. - A feasibility study to summarize the state of the art in new sensing technologies and analysis techniques for building thermal energy performance assessment and to identify major outstanding challenges for future research proposals. The proposed network will therefore facilitate collaboration between academics, industry, government and the general public to address a question of great national importance. The project outputs will help to create a wider understanding of the specific challenges facing the UK's aspirations for the transformation of its building stock as well as highlighting potentially fruitful avenues for research. The network therefore aspires to build upon this twelve-month programme of work and develop significant long-term research collaborations with benefits for academic knowledge, society and the wider economy.

The ESPRC Centre for Doctoral Training in Renewable Energy Northeast Universities Plus (ReNU+) is a transformative programme that will train a new generation of Doctoral Carbon Champions (DCCs) who are characterised by scientific and engineering excellence and capable of interdisciplinary systemic thinking to accelerate Net Zero. The outcome from ReNU+ will be that DCCs will meet critical needs in high-skill employment across industry, policy, education and government and convert key challenges in resilience and equity into economic opportunities for the United Kingdom. This will be achieved through a professionally accredited training programme in a thriving environment of research excellence led by Northumbria, Newcastle and Durham universities. The 2023-2035 energy landscape sets a compelling context for ReNU+ and in particular, the need for future leaders in this space in the United Kingdom. Locally generated renewable energy will provide the UK with increased energy security and critically important additions in electricity capacity to meet domestic and industrial demands. This is only one piece of the landscape however, which also includes sustainability (e.g. critical materials supply), resilience (e.g. climate change mitigation) and an equitable transition to Net Zero, which offers both economic and health benefits. The absorptive capacity for ReNU+ DCCs is partly evidenced by the forecast of 694,000 new UK jobs in the low carbon and renewable energy economy by 2030 (source: UK Local Government Association). The ReNU+ training programme has a core focus on developing key skills that facilitate understanding of and engagement with the wider Net Zero system including investment, regulation and end-user engagement. It will become a reference for high-skill training in Net Zero that redefines the role of scientists and engineers as critical catalysts for decarbonisation who deliver impact well beyond technology. ReNU+ identifies a critical link between equality, diversity and inclusivity and decarbonisation and includes key innovations to leverage this link. Consequently, DCCs will also develop societal and citizenship values as they become living examples of the future workforces to enable an equitable and sustainable transition to Net Zero. This approach has been validated by our partners who have co-designed and will co-deliver the ReNU+ training programme. This support includes national and local Government, multinational companies, small-to-medium enterprises and charity organisations.

The global energy sector is facing considerable pressure arising from climate change, depletion of fossil fuels and geopolitical issues around the location of remaining fossil fuel reserves. Energy networks are vitally important enablers for the UK energy sector and therefore UK industry and society. Energy networks exist primarily to exploit and facilitate temporal and spatial diversity in energy production and use and to exploit economies of scale where they exist. The pursuit of Net Zero presents many complex interconnected challenges which reach beyond the UK and have huge relevance internationally. These challenges vary considerably from region to region due to historical, geographic, political, economic and cultural reasons. As technology and society changes so do these challenges, and therefore the planning, design and operation of energy networks needs to be revisited and optimised. Electricity systems are facing technical issues of bi-directional power flows, increasing long-distance power flows and a growing contribution from fluctuating and low inertia generation sources. Gas systems require significant innovation to remain relevant in a low carbon future. Heat networks have little energy demand market share, although they have been successfully installed in other northern European countries. Other energy vectors such as Hydrogen or bio-methane show great promise but as yet have no significant share of the market. Faced with these pressures, the modernisation of energy networks technology, processes and governance is a necessity if they are to be fit for the future. Good progress has been made in de-carbonisation in some areas but this has not been fast enough, widespread enough across vectors or sectors and not enough of the innovation is being deployed at scale. Effort is required to accelerate the development, scale up the deployment and increase the impact delivered.

The global energy sector is facing considerable pressure arising from climate change, depletion of fossil fuels and geopolitical issues around the location of remaining fossil fuel reserves. Energy networks are vitally important enablers for the UK energy sector and therefore UK industry and society. Energy networks exist primarily to exploit and facilitate temporal and spatial diversity in energy production and use and to exploit economies of scale where they exist. The pursuit of Net Zero presents many complex interconnected challenges which reach beyond the UK and have huge relevance internationally. These challenges vary considerably from region to region due to historical, geographic, political, economic and cultural reasons. As technology and society changes so do these challenges, and therefore the planning, design and operation of energy networks needs to be revisited and optimised. Electricity systems are facing technical issues of bi-directional power flows, increasing long-distance power flows and a growing contribution from fluctuating and low inertia generation sources. Gas systems require significant innovation to remain relevant in a low carbon future. Heat networks have little energy demand market share, although they have been successfully installed in other northern European countries. Other energy vectors such as Hydrogen or bio-methane show great promise but as yet have no significant share of the market. Faced with these pressures, the modernisation of energy networks technology, processes and governance is a necessity if they are to be fit for the future. Good progress has been made in de-carbonisation in some areas but this has not been fast enough, widespread enough across vectors or sectors and not enough of the innovation is being deployed at scale. Effort is required to accelerate the development, scale up the deployment and increase the impact delivered.

The vision for the EDI+ network is to acknowledge and address key challenges and equip a cohort of researchers and their organisations to make lasting changes towards a diverse, equitable, inclusive and accessible research community. This will have impact beyond the academy and set a precedent, offering the means to tailor EDI action among the diverse organisations participating in energy research. It garners the best of scientific and social science evidence and critical approaches from the humanities to put EDI challenges in appropriate perspectives and make them available for action. It is action-oriented and based on an effective Theory of Change Model that considers: -> the desired outcomes (aims) for the network (An energy research community that is equal, inclusive and diverse) -> the evidence-informed assumptions for achieving the outcomes (such as findings from the Inclusion Matters programme) -> the activities that, based on the assumptions, should be implemented to achieve the aims (prioritising time, training and support for action) Evidence suggests that key barriers to effective change in EDI can be condensed to be: - Lack of Time to develop deep, evidence-based understanding of local issues - Lack of Access to the power structures required to enact change - Lack of resource and evidence-based solutions to issues that are found - Isolation from peers with experience of EDI driven change In response, we propose a fellowship programme, which recruits EDI champions from diverse energy research institutions; trains them in EDI issues; research methods for analysing organisational contexts, how to make organisational changes, and how to implement and evaluate plans of action; and supports them to publish their results. All fellows will have the support of a named senior executive of their organisation, all of whom will engage in cross-institutional reciprocal mentoring to embed learning and change in the institutional context. We name these 'fellowships' (despite the possible connotations of the term 'fellow') so that they will have prestige on the participants' cv's, emphasise the research-basis of the actions, and lend weight to their change-making activities under the network. The 'fellows' will form a mutually supportive network that should endure beyond the life of the funding scheme. EPSRC funded fellows will be complemented by industry- and government- funded fellows to expand the network beyond the funded call, and with the establishment of an alumni network, will offer the potential for the network to endure beyond the funding period. Selected training events will be open to the wider energy research community, who will also have access to a toolkit on EDI actions in context and all other network publications. Additional impact activities will include workshops and presentations to coincide with existing conference and research events, to maximise the reach of the network. Findings will be shared and promoted through a 'network of networks' approach across the energy research community nationally, and internationally.