Modeling the effect of dual-core energy recovery ventilator (ERV) unit on the energy use of houses in northern Canada compared with the single-core ERV unit
The conventional preheating defrost used in the single-core energy recovery ventilator (ERV) is not optimal for housing in northern Canada due to its significant energy consumptions. Therefore, the recirculation defrost and dual-core operation have been the focus for addressing the frosting issues o...
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| Format: | Thesis |
| Language: | English |
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2021
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| Online Access: | https://spectrum.library.concordia.ca/id/eprint/988792/ https://spectrum.library.concordia.ca/id/eprint/988792/1/Li_MASc_F2021.pdf |
| Summary: | The conventional preheating defrost used in the single-core energy recovery ventilator (ERV) is not optimal for housing in northern Canada due to its significant energy consumptions. Therefore, the recirculation defrost and dual-core operation have been the focus for addressing the frosting issues of the ERV in northern Canada. The use of single-core ERV using the defrost by air recirculation has the disadvantage of reducing the outdoor air supplied to the house, which might affect the indoor air quality. First, this thesis presents new correlation-based models of the single-core ERV with recirculation defrost, based on laboratory-controlled experimental data, of supply air temperature and humidity after the single-core ERV unit during normal and defrost operation modes. Then the dual-core ERV model, in compliance with the manufacturing schedules in each unit, is developed based on the single-core correlation-based models. Second, the seasonal energy use for space and ventilation of houses are simulated in TRNSYS program at three arctic locations with heating degree-days (HDD) of 8798, 8888 and 12208, respectively, and Montreal (4356) as the reference. The ERV unit is studied in the Net Zero Energy Housing (NZEH)model and Conventional Northern Housing (CNH) and Northern Sustainable Housing (NSH) northern housing models for the following cases: i) with and without single-core ERV, ii) different threshold temperatures for defrost, iii) preheating and iv) dual-core operation. The single-core ERV unit reduces heating energy use, compared with the case without heat recovery, by 24% (Montreal), 26% (Inuvik), 27% (Kuujjuaq), and 27% (Resolute), respectively. However, the outdoor airflow rate during the defrost is smaller than minimum standard requirements for 1038 hours (19% of time) in Inuvik, 701 hours (13%) in Kuujjuaq, 1320 hours (24%) in Resolute, and 223 hours (4.7%) in Montreal, respectively. The factory schedules are recommended since the increase of normal operation time leads to a significant increase in the ... |
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