February 2013
Publication year: 2013
Source:Building and Environment, Volume 60
Space heating accounts for a large portion of the world's carbon dioxide emissions. Ground Source Heat Pumps (GSHPs) are a technology which can reduce carbon emissions from heating and cooling. GSHP system performance is however highly sensitive to deviation from design values of the actual annual energy extraction/rejection rates from/to the ground. In order to prevent failure and/or performance deterioration of GSHP systems it is possible to incorporate a safety factor in the design of the GSHP by over-sizing the ground heat exchanger (GHE). A methodology to evaluate the financial risk involved in over-sizing the GHE is proposed is this paper. A probability based approach is used to evaluate the economic feasibility of a hypothetical full-size GSHP system as compared to four alternative Heating Ventilation and Air Conditioning (HVAC) system configurations. The model of the GSHP system is developed in the TRNSYS energy simulation platform and calibrated with data from an actual hybrid GSHP system installed in the Department of Earth Science, University of Oxford, UK. Results of the analysis show that potential savings from a full-size GSHP system largely depend on projected HVAC system efficiencies and gas and electricity prices. Results of the risk analysis also suggest that a full-size GSHP with auxiliary back up is potentially the most economical system configuration.
► Ground Source Heat Pumps (GSHPs) performance is highly sensitive to building loads. ► Case studies of GSHPs show that design loads often deviate from actual loads. ► As a result, currently many GSHPs in the UK do not perform as designed. ► It is important to incorporate the uncertainty in loads in the design of GSHPs. ► Reduction in installation costs will make GSHPs more financially competitive.
Publication year: 2013
Source:Building and Environment, Volume 60