Study of novel solar assisted heating system

The potential for energy, carbon dioxide equivalent (CO(2)e) and cost savings when using low emissivity (low-epsilon) transpired solar collectors (TSCs), combined with heat pumps in a range of configurations, has been investigated using computer modelling. Low-epsilon TSCs consist of metal solar collector plates with a spectrally sensitive surface, perforated with holes. Ambient air is drawn through the holes and heated by convection from the solar collector plate, increasing the air temperature by up to 25 K. The heated air can be used for e.g. space heating, or pre-heating water in buildings. The models developed have been used to compare the performance of low-epsilon TSC/heat pump heating systems in small and large buildings, at a range of locations. The model results showed savings in energy, CO(2)e and costs of up to 16.4% when using low-epsilon TSCs combined with an exhaust air heat pump compared with using the exhaust air heat pump alone. Practical application:If the UK is to meet its target of reaching net zero greenhouse gas emissions by 2050, it will be necessary to adopt low or zero carbon heating technologies. The novel low emissivity transpired solar collector device investigated can contribute to this. Its advantages include: (i) utilising solar radiation; (ii) readily integrated with existing heating systems e.g. heat pumps; (iii) significant energy, CO(2)e emissions and cost savings; (iv) low cost device; (v) minimal energy input i.e. one small fan; (vi) can be retrofitted to existing buildings; (vii) its benefits were applicable at all of the (wide range of) locations tested.