CEDRI is a consortium of expertise in sustainable buildings, power electronics, demand modelling and energy behaviours across Heriot-Watt University, Indian Institute of Technology (IIT) Delhi, IIT Bombay and the Tiruchirappalli National Institute of Technology. The project will, through the application of demand synthesis models to Indian case-studies, propose clear guidance for demand reduction/management in households to ensure future-resilient provision of electricity to Indian communities. The project sees a neglect of supply limitations as being a key risk that might hamper future demand reduction strategies. Whilst many countries are seeing significant change in the use of energy in homes and the provision of that energy through local energy networks, the pace of change recorded in India is particularly notable. The "refresh" rate of the housing stock is high (with new build constituting a much higher percentage of the housing stock than many developed countries) and, simultaneously, the approach to delivering electricity to those homes is changing (e.g. the growth in distributed renewable generation, such as solar photovoltaics). If further change is to be planned amongst this already uncertain landscape, in the form of community-wide energy demand reduction strategies, then a full impact of such measures must be understood. Minimising cooling requirements, controlling/managing appliance loads and encouraging distributed generation should all be promoted in a way that i) is consistent and complementary to a functioning local electricity network and ii) relate to measures that are likely to be accepted across communities, rather than having only niche appeal. The CEDRI project will allow for community electricity demand modelling through applied aggregation algorithms, converting small samples of individual building demand profiles into community-level profiles. After carrying out surveys and workshops with householders, the project will identify the demand-reducing measures likely to succeed in such regions (informed by real case-study communities and empirical data) and apply these to the community demand models to quantify potential impact. The ability of such changes to improve the local energy network will be fully investigated, such that measures deemed to successfully reduce total energy demand can be managed in a way that improves key characteristics of that network (such as frequency, voltage and peak demand). The project will therefore provide guidance that will ensure that approaches to demand reduction "co-evolve" with the methods used to supply electricity to residential communities, over future timescales that already have considerable levels of uncertainty.

Energy networks are vitally important enablers for the UK energy sector and therefore UK industry and society. The energy trilemma (energy security, environmental impact and social cost) presents many complex interconnected challenges which reach beyond the UK and have huge relevance internationally. These challenges vary considerably from region to region, and change as a result of technology and society changes. Therefore, the planning, design and operation of energy networks needs to be revisited and optimised. Current energy networks research does not fully embrace a whole systems approach and is therefore not developing a deep enough understanding of the interconnected and interdependent nature of energy network infrastructure. The Supergen Energy Networks Hub will provide leadership, a core research programme and mechanisms/funding for the energy networks community to grow and come together to develop this deeper understanding and explore opportunities to shape energy networks which are fit for the future. The research component of the Hub's activities comprises an interconnected and complementary series of work packages. The work packages are: WP1: Understanding, Shaping and Challenging; WP2: Energy Network Infrastructure; WP3: ICT and Data; WP4: Policy and Society; WP5: Markets and Regulation; WP6: Risk and Uncertainty. WP1 incorporates a co-evolutionary approach and brings the other work packages together in a structured way. WP2 is the backbone of the research, dealing with the physical infrastructure in a multi vector manner from the outset. WP3 to WP6 deal with aspects of energy networks that cut across, and are equally valid, for all vectors and have the ability to integrate and modernise network infrastructures. All work packages will consider both planning and design as well as operational aspects. Experimental work and demonstrators will be essential to progress in energy networks research and the Hub will bring these facilities to bear through WP1. The Hub will engage with the energy networks communities throughout the research programme, to ensure that the work is informed by best practice and that the findings are widely visible and understood. The main objectives of the communication and engagement activities will be to ensure the energy networks academic community are connected and coherent, and that their work has a high profile and deep level of understanding in the relevant Industrial, Governmental and Societal communities both nationally and internationally. This will maximise the chances of high impact outcomes in the energy networks space as well as promoting energy networks as an exciting and dynamic area to carry out research, thus attracting the brightest minds to get involved. Communication and engagement activities will be a constant feature of the Hub and will be particularly energetic during the first twelve months in order to rapidly establish a brand, and an open and supportive culture within the relevant communities. Engagement activities will as far as possible be carried out in conjunction with other key organisations in the energy space, to maximise the value of the engagement activities. The Hub aims to become a beacon for equality, diversity and inclusion. Our mission is to enhance equality of opportunity and create a positive, flourishing, safe and inclusive environment for everyone associated with the Hub, from staff, students, Advisory Board members and general Hub representation (at conferences, workshops and reviews). We recognise the need and the challenges to support early career researchers, and improve the balance of protected characteristics across the entire Hub community, such as race or ethnicity, gender reassignment, disability, sex, sexual orientation, age, religion or belief, pregnancy or maternity status, marital status or socio-economic background.

Energy networks are vitally important enablers for the UK energy sector and therefore UK industry and society. The energy trilemma (energy security, environmental impact and social cost) presents many complex interconnected challenges which reach beyond the UK and have huge relevance internationally. These challenges vary considerably from region to region, and change as a result of technology and society changes. Therefore, the planning, design and operation of energy networks needs to be revisited and optimised. Current energy networks research does not fully embrace a whole systems approach and is therefore not developing a deep enough understanding of the interconnected and interdependent nature of energy network infrastructure. The Supergen Energy Networks Hub will provide leadership, a core research programme and mechanisms/funding for the energy networks community to grow and come together to develop this deeper understanding and explore opportunities to shape energy networks which are fit for the future. The research component of the Hub's activities comprises an interconnected and complementary series of work packages. The work packages are: WP1: Understanding, Shaping and Challenging; WP2: Energy Network Infrastructure; WP3: ICT and Data; WP4: Policy and Society; WP5: Markets and Regulation; WP6: Risk and Uncertainty. WP1 incorporates a co-evolutionary approach and brings the other work packages together in a structured way. WP2 is the backbone of the research, dealing with the physical infrastructure in a multi vector manner from the outset. WP3 to WP6 deal with aspects of energy networks that cut across, and are equally valid, for all vectors and have the ability to integrate and modernise network infrastructures. All work packages will consider both planning and design as well as operational aspects. Experimental work and demonstrators will be essential to progress in energy networks research and the Hub will bring these facilities to bear through WP1. The Hub will engage with the energy networks communities throughout the research programme, to ensure that the work is informed by best practice and that the findings are widely visible and understood. The main objectives of the communication and engagement activities will be to ensure the energy networks academic community are connected and coherent, and that their work has a high profile and deep level of understanding in the relevant Industrial, Governmental and Societal communities both nationally and internationally. This will maximise the chances of high impact outcomes in the energy networks space as well as promoting energy networks as an exciting and dynamic area to carry out research, thus attracting the brightest minds to get involved. Communication and engagement activities will be a constant feature of the Hub and will be particularly energetic during the first twelve months in order to rapidly establish a brand, and an open and supportive culture within the relevant communities. Engagement activities will as far as possible be carried out in conjunction with other key organisations in the energy space, to maximise the value of the engagement activities. The Hub aims to become a beacon for equality, diversity and inclusion. Our mission is to enhance equality of opportunity and create a positive, flourishing, safe and inclusive environment for everyone associated with the Hub, from staff, students, Advisory Board members and general Hub representation (at conferences, workshops and reviews). We recognise the need and the challenges to support early career researchers, and improve the balance of protected characteristics across the entire Hub community, such as race or ethnicity, gender reassignment, disability, sex, sexual orientation, age, religion or belief, pregnancy or maternity status, marital status or socio-economic background.