Investigation into Brick Masonry and Concrete Foundation Wall Distress of a Single-Family Residence

Towards determining the effect of shallow depth horizontal ground loop clearance on the heat loss of a single family residential dwelling

10.32920/ryerson.14639094 ◽

2021 ◽

Author(s):

Felix Chen

Keyword(s):

Thermal Conductivity ◽

Heat Loss ◽

Three Dimensional ◽

Energy System ◽

Research Approach ◽

Single Family ◽

Simulation Based ◽

Foundation Wall ◽

Building Heat ◽

Ground Loop

Using solar energy stored in the ground to preheat incoming fresh ventilation air with ground loops is a renewable energy system which is becoming more frequently used in new residential developments. The purpose of this research was to examine the effect of ground loop to foundation wall clearance on building heat loss. Additionally, the thermal properties of the soil were examined to determine their impact on the ground loop’s effect on heat loss. A simulation based research approach was conducted using HEAT3, which is a three-dimensional transient heat transfer software. This study found that ground loop clearance had a larger impact on building heat loss for areas with low thermal conductivity soils than for areas with high thermal conductivity soils. On average, ground loop clearances of 10cm, 50cm, 100cm, and 200cm resulted in increased building heat losses of 20%-83%, 19%-55%, 16%-35%, and 12%-15% respectively.

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Structural properties of "Nelson pre-cast concrete foundation" wall construction sponsored by the Nelson Cement Stone Company, Inc.

10.6028/nbs.bms.26 ◽

1939 ◽

Author(s):

Herbert L Whittemore ◽

Ambrose H Stang ◽

Cyrus C Fishburn

Keyword(s):

Structural Properties ◽

Cement Stone ◽

Concrete Foundation ◽

Cast Concrete ◽

Foundation Wall ◽

Wall Construction

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Comparisons of Auditory Brainstem Responses Between a Laboratory and Simulated Home Environment

Journal of Speech Language and Hearing Research ◽

10.1044/2020_jslhr-20-00383 ◽

2020 ◽

Vol 63 (11) ◽

pp. 3877-3892

Author(s):

Ashley Parker ◽

Candace Slack ◽

Erika Skoe

Keyword(s):

Home Environment ◽

Signal To Noise Ratio ◽

Auditory Brainstem ◽

Auditory Brainstem Responses ◽

Single Family ◽

Adult Participants ◽

Simulated Home Environment ◽

Brainstem Response ◽

Research Populations ◽

Response Consistency

Purpose Miniaturization of digital technologies has created new opportunities for remote health care and neuroscientific fieldwork. The current study assesses comparisons between in-home auditory brainstem response (ABR) recordings and recordings obtained in a traditional lab setting. Method Click-evoked and speech-evoked ABRs were recorded in 12 normal-hearing, young adult participants over three test sessions in (a) a shielded sound booth within a research lab, (b) a simulated home environment, and (c) the research lab once more. The same single-family house was used for all home testing. Results Analyses of ABR latencies, a common clinical metric, showed high repeatability between the home and lab environments across both the click-evoked and speech-evoked ABRs. Like ABR latencies, response consistency and signal-to-noise ratio (SNR) were robust both in the lab and in the home and did not show significant differences between locations, although variability between the home and lab was higher than latencies, with two participants influencing this lower repeatability between locations. Response consistency and SNR also patterned together, with a trend for higher SNRs to pair with more consistent responses in both the home and lab environments. Conclusions Our findings demonstrate the feasibility of obtaining high-quality ABR recordings within a simulated home environment that closely approximate those recorded in a more traditional recording environment. This line of work may open doors to greater accessibility to underserved clinical and research populations.

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