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Reference Number EP/T022795/1
Title Integrated heating and cooling networks with heat-sharing-enabled smart prosumers
Status Started
Energy Categories Energy Efficiency (Other) 30%;
Energy Efficiency (Residential and commercial) 50%;
Other Power and Storage Technologies (Energy storage) 10%;
Other Cross-Cutting Technologies or Research (Environmental, social and economic impacts) 10%;
Research Types Basic and strategic applied research 100%
Science and Technology Fields SOCIAL SCIENCES (Economics and Econometrics) 20%;
SOCIAL SCIENCES (Politics and International Studies) 20%;
ENGINEERING AND TECHNOLOGY (Mechanical, Aeronautical and Manufacturing Engineering) 60%;
UKERC Cross Cutting Characterisation Not Cross-cutting 60%;
Sociological economical and environmental impact of energy (Policy and regulation) 20%;
Sociological economical and environmental impact of energy (Other sociological economical and environmental impact of energy) 20%;
Principal Investigator Dr M Qadrdan
No email address given
Engineering
Cardiff University
Award Type Standard
Funding Source EPSRC
Start Date 01 April 2021
End Date 31 March 2025
Duration 48 months
Total Grant Value £856,109
Industrial Sectors Energy
Region Wales
Programme Energy : Energy
 
Investigators Principal Investigator Dr M Qadrdan , Engineering, Cardiff University (99.994%)
  Other Investigator Dr MP Abeysekera , Engineering, Cardiff University (0.001%)
Professor PM Connor , Engineering, University of Exeter (0.001%)
Professor N (Nick ) Jenkins , Engineering, Cardiff University (0.001%)
Professor HR Thomas , Engineering, Cardiff University (0.001%)
Dr B (Bridget ) Woodman , Geography, University of Exeter (0.001%)
Dr J Wu , Engineering, Cardiff University (0.001%)
  Industrial Collaborator Project Contact , Icax Ltd (0.000%)
Project Contact , University of Warwick (0.000%)
Project Contact , Technical University of Denmark (0.000%)
Project Contact , Kensa Group Ltd (0.000%)
Project Contact , Bridgend County Borough Council (0.000%)
Web Site
Objectives
Abstract Project aimThis project proposes a solution for integrated supply of zero carbon heating and cooling using near ground temperature networks that enable buildings to use heat pumps and cooling machines to exchange thermal energy with the network and meet their heating and cooling demand. When a building demands cooling, it rejects its excess heat to the network that can balance the heating demand of another buildings. Therefore, in this project we refer to such networks as 'balanced heating and cooling network' (BHCN). Key contributions of this research are: (i) To investigate the optimal design and operation of BHCN using a multi-objective optimisation approach to balance costs of the system and the value it can provide to the whole power grid via providing flexibility services. In particular, we will examine inter-seasonal heat storage, and also the feasibility of using NH3 and CO2 (as alternatives to water) for heat transport mediums in BHCNs. (ii) To design a local heat market that enables peer-to-peer (P2P) heat sharing to maximise the use of zero carbon sources of thermal energy on-site, and (iii) To identify technical, regulatory and policy barriers against implementing BHCNs (i.e. managing the transition from status quo to BHCN). This research will also build significant UK research capacity in zero carbon and ambient temperature heat networks.BackgroundThe need for decarbonising heat supply: According to the 2017 Clean Growth Strategy, the UK Government believes 'decarbonising heat is our most difficult policy and technology challenge to meet our carbon targets'. Progress on energy efficiency and low carbon heat provision remains below expected levels and natural gas infrastructure continues to be expanded which poses risk to achieving the recently set net zero goal for 2050.The role of heat networks: The Clean Growth Strategy suggests 17% of domestic heat and between 17% and 24% of service sector heat could be provided through heat networks in 2050. The Committee on Climate Change suggests around 5 million homes could use district heat by 2050 based on techno-economic modelling. However, heat network growth is slow despite requiring around a tenfold increase from the current level by 2050.The growing demand for cooling: Coinciding with the crucial need for supplying low carbon heat, the demand for cooling is also increasing in the UK (and globally) due to population increase and climate change impacts which are leading to more frequent heatwaves and temperature rises. According to BRE, up to 10% of all UK electricity use is for air conditioning and cooling. Because of this established trend toward increased use of cooling, the proportion of UK electricity used for cooling is expected to rise further.A potential solution for zero carbon supply of heating and cooling: Balanced Heating and Cooling Networks (BHCN), are a form of district heating system which circulates water at near ground temperature to buildings allow them to use their own heat pumps to extract heat for heating, or to export heat to the network when cooling is required.BHCNs address many of the drawbacks of conventional heat networks through operating at reduced temperature and therefore minimising heat losses and reduce the cost of highly insulated pipes. They also open up opportunities for integrating various sources of renewable heat into the networks. The circuit can also be extended to new buildings at limited cost.Work ProgrammeWP1 - Case study definitionWP 2 - Assessing renewable heat sources and inter-seasonal storageWP 3 - Techno-economic appraisal of BHCNWP 4 - Development of a methods and tools for Peer-to-Peer (P2P) heat sharingWP 5 - Managing implementation and transition to BHCNs
Data

Heat supply potential data from boreholes

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Added to Database 25/11/21