Abstract
Standard energy systems for individual dwellings nowadays are still mostly conventional in North America and other places. Heat generation for a larger part is commonly met by using mostly natural gas while the use of renewable energy systems to replace fossil fuels is starting to become widespread, especially in Alberta, Canada, which is an oil driven region. It is of interest to evaluate the seasonal performance of a hybrid thermal energy system at NAIT, which is being used to meet the heating needs of the lab space in the D building and aid for teaching purposes. Seasonal performance of a hybrid thermal energy system (geo-exchange, solar thermal energy systems and air source heat pumps) at NAIT, will help analyse and describe the concepts and the parameters affecting the design and optimization of a heat source hybrid energy system, identify key parameters to help determine the optimal design of individual component as part of a larger system; highlight year-to-year performance of the system and overall design and optimization. The average yearly and total generation of the evacuated tube solar collector was reported to be 7.84 kWhs and 2268.59 kWhs, respectively compared to 1.59 kWhs and 987.15 kWhs for the geo-exchange system and 0.42 kWhs and 108.76 kWhs, respectively for the flat plate solar collector. The evacuated tube solar collector shows an overall improvement of 94.53%, 95.89% and 95.96% compared to the flat plate solar collector for the year 2015 to 2017, respectively. Comparing the geo-exchange system and the flat plate solar collector, it can be seen that the geo-exchange system outperform the flat plate solar collector with an overall improvement of 42.87%, 61.32% and 67.51, respectively.
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