Seasonal Thermal Energy Storage in Buried Water Tanks for Single Detached Houses

Meister, Curtis

doi:10.22215/etd/2022-15311

Cited by 3 publications

(25 citation statements)

References 99 publications

(179 reference statements)

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“…Nonetheless, previous experiments and simulations at CHEeR showed that such glazing levels can still cause winter overheating. A 4.38% ratio of south-facing glazing to conditioned floor area was used during this experiment which was significantly lower than the 8% used in Meister's experiment [7]. The shading configuration for this experiment is detailed in Table 3.2.…”

Section: Windows and Window Shadingmentioning

confidence: 99%

“…However, these experiments faced challenges due to faulty solar collectors and issues with the data acquisition system which resulted in an incomplete data set. Despite these setbacks, CHEeR managed to achieve a solar fraction of 68% [7].…”

Section: Existing Contributionsmentioning

confidence: 99%

“…Curtis Meister (2015Meister ( -2022 [21]: Meister's work at CHEeR house focused on the solar thermal combisystem coupled with a seasonal water-based thermal storage. Despite challenges with the solar collectors and data acquisition system, the house achieved a solar fraction of 68%.…”

Section: Beausoleil-morrison Et Al (2019) [22]mentioning

confidence: 99%

“…See Table 3.1 for the insulation characteristics of CHEeR. More detail regarding the thermal performance characteristics of building envelope components are available at [7]. The second floor of CHEeR is topped by a vented, unconditioned attic.…”

Section: Chaptermentioning

confidence: 99%

“…Meister [7] suggested that the supply water temperature to the radiant floor loop could be reduced without compromising CHEeR's heating performance. Consequently, when the STES neared depletion on January 18th, 2022 the supply water setpoint of the heating system was lowered to 28°C.…”

Section: Space Heatingmentioning

confidence: 99%

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Experimental Results of a Solar Thermal System with Sensible Storage in a Single Family Residential House

Manser

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Solar thermal systems with diurnal and seasonal storage in residential buildings present a significant opportunity to satisfy space heating and domestic hot water heating loads and reduce fossil fuel consumption. This research focused on the operation and maintenance of a solar thermal system with sensible water-based diurnal and seasonal storage at the Centre for Home Energy Research (CHEeR) in Ottawa Ontario, Canada. A one year long experiment spanning from June 1, 2022, to June 1, 2023, was conducted to determine the solar thermal systems' effectiveness at supplying space and domestic hot water heating using stored solar thermal energy. The solar collection system consisted of a 41.6 m 2 array of high-performance heat pipe evacuated tube solar collectors. The diurnal storage that satisfied domestic hot water demands was a 450 L water tank in the basement of CHEeR. The seasonal thermal storage that served space heating demands via an in-floor radiant heating system was a 36 m 3 storage tank located underground adjacent to CHEeR. The solar thermal system supplied 81.0% of the domestic hot water loads and 87.5% of the space heating loads. Overall, when accounting for pump electrical energy consumption the system operated at a net overall solar fraction of 78.8%. i amazing support when something at CHEeR broke.To Rebecca, Curtis, and the rest of the team at CHEeR: Thank you for laying the foundation that this work has built upon.

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Section: Windows and Window Shadingmentioning

confidence: 99%

Section: Existing Contributionsmentioning

confidence: 99%

Section: Beausoleil-morrison Et Al (2019) [22]mentioning

confidence: 99%

Section: Chaptermentioning

confidence: 99%

Section: Space Heatingmentioning

confidence: 99%

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Experimental Results of a Solar Thermal System with Sensible Storage in a Single Family Residential House

Manser

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Modelling and Experimental Evaluation of a Sand-Based Seasonal Storage System

Pinto

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In 2016, space heating (SH) and domestic hot water (DHW) heating for Canadian residential buildings accounted for 11% of Canada's total greenhouse gas (GHG) emissions. To drastically decrease the GHG emissions from the residential sector, solar thermal energy can be used to fulfill the SH and DHW needs of residential buildings.A major challenge for solar energy use in Canada is the timing mismatch between the solar radiation received and the space heating needs of homes. A seasonal thermal energy store bridges this gap by storing thermal energy and discharging it when the thermal demand arises. Sand can be used as the medium in thermal energy storage, but no research has yet been published demonstrating the feasibility or efficiency of a sand-based seasonal thermal energy store (SSTES) for a residential building. A full-scale research house with a solar combisystem and an SSTES has been built in Ottawa, Canada, to evaluate this novel technology.1 BIG shout out to Curtis Meister and Sarah Brown who met me at my apartment as I arrived into Ottawa, and helped me to unpack my car! We had only met once before they agreed to help me!

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Investigation Into the Performance and Control of a Hydronic Floor Solar Energy Capture System in a Highly Glazed Canadian Home

Brown

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Seasonal Thermal Energy Storage in Buried Water Tanks for Single Detached Houses

Cited by 3 publications

References 99 publications

Experimental Results of a Solar Thermal System with Sensible Storage in a Single Family Residential House

Experimental Results of a Solar Thermal System with Sensible Storage in a Single Family Residential House

Modelling and Experimental Evaluation of a Sand-Based Seasonal Storage System

Investigation Into the Performance and Control of a Hydronic Floor Solar Energy Capture System in a Highly Glazed Canadian Home

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