This paper presents a feasibility study of the technical and economic viability of introducing combined heating and cooling networks, referred to collectively in this paper as “thermal networks”. The steps used for this study include the identification of the most viable thermal network configuration, followed by analysis of a number of potential building mix scenarios and estimation of their respective potential impact on energy consumption, carbon emissions and economics. The final step was a discussion of the potential benefits and drawbacks associated with the implementation of the selected thermal network. This study revealed that by utilising thermal networks, with central energy centres, approximately 1831 tonnes of CO2 could be save...
In order to contribute to high living standards, climate mitigation and energy supply security, futu...
The following project aims to create a decentralised heat network development methodology which make...
Conventional thermal power generating plants reject a large amount of energy every year. If this rej...
This paper presents a feasibility study of the technical and economic viability of introducing combi...
This paper presents a feasibility study of the technical and economic viability of introducing combi...
In urban areas, the use of thermal energy services is intensive and relatively heterogeneous by thei...
Integrated smartly controlled energy networks have the potential to deliver significant reductions i...
Mass adoption of renewable heating is essential for achieving Net Zero 2050 emission targets. Rapid ...
The building sector plays a crucial role in the ongoing energy transition due to its significant sha...
The decarbonization of the heat supply and the attainment of a higher security of supply demand the ...
Energy demand growth and the rapid rate of technological changein an urban contextare already having...
This paper describes a heat pump investigation for GreenSCIES (GS), a fifth Generation district heat...
Heat networks are a key technology proposed in the UK Government's Clean Growth Strategy for deliver...
© 2018 In the UK up to 40% of total final energy use is accounted for by the heating and hot water s...
The GreenSCIES project aims to deliver low carbon, affordable energy through a novel smart energy sy...
In order to contribute to high living standards, climate mitigation and energy supply security, futu...
The following project aims to create a decentralised heat network development methodology which make...
Conventional thermal power generating plants reject a large amount of energy every year. If this rej...
This paper presents a feasibility study of the technical and economic viability of introducing combi...
This paper presents a feasibility study of the technical and economic viability of introducing combi...
In urban areas, the use of thermal energy services is intensive and relatively heterogeneous by thei...
Integrated smartly controlled energy networks have the potential to deliver significant reductions i...
Mass adoption of renewable heating is essential for achieving Net Zero 2050 emission targets. Rapid ...
The building sector plays a crucial role in the ongoing energy transition due to its significant sha...
The decarbonization of the heat supply and the attainment of a higher security of supply demand the ...
Energy demand growth and the rapid rate of technological changein an urban contextare already having...
This paper describes a heat pump investigation for GreenSCIES (GS), a fifth Generation district heat...
Heat networks are a key technology proposed in the UK Government's Clean Growth Strategy for deliver...
© 2018 In the UK up to 40% of total final energy use is accounted for by the heating and hot water s...
The GreenSCIES project aims to deliver low carbon, affordable energy through a novel smart energy sy...
In order to contribute to high living standards, climate mitigation and energy supply security, futu...
The following project aims to create a decentralised heat network development methodology which make...
Conventional thermal power generating plants reject a large amount of energy every year. If this rej...