State-of-the-art study of heat exchangers used with solar assisted domestic hot water systems (potential contamination of potable water supply)

SUMMARYSporadic community-acquired legionellosis (SCAL) can be acquired through contaminated aerosols from residential potable water. Electricity-dependent hot-water tanks are widely used in the province of Quebec (Canada) and have been shown to be frequently contaminated withLegionellaspp. We prospectively investigated the homes of culture-proven SCAL patients from Quebec in order to establish the proportion of patients whose domestic potable hot-water system was contaminated with the sameLegionellaisolate that caused their pneumonia. Water samples were collected in each patient's home. Environmental and clinical isolates were compared using pulsed-field gel electrophoresis. Thirty-six patients were enrolled into the study.Legionellawas recovered in 12/36 (33%) homes. The residential and clinical isolates were found to be microbiologically related in 5/36 (14%) patients. Contaminated electricity-heated domestic hot-water systems contribute to the acquisition of SCAL. The proportion is similar to previous reports, but may be underestimated.

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Prediction of Degradation of Polyolefins Used in Solar Domestic Hot Water Components

ASME 2010 4th International Conference on Energy Sustainability, Volume 2 ◽

10.1115/es2010-90514 ◽

2010 ◽

Author(s):

William Camisa ◽

Susan C. Mantell ◽

Jane H. Davidson ◽

Gyanender Singh

Keyword(s):

Time Scales ◽

Heat Exchangers ◽

Heat Transfer Performance ◽

Polymer Degradation ◽

Water Systems ◽

Study Data ◽

Hot Water ◽

Subsequent Reaction ◽

Strength Performance ◽

Domestic Hot Water

Solar Domestic Hot Water systems may include polymer components such as heat exchangers and absorbers. These components must be designed to consider heat transfer performance, mechanical (strength) performance and lifetime. Polymer degradation in potable hot water can be delayed through the use of antioxidant additives. In the present study, data are presented which show that antioxidant depletion in polyethylene (with a phenolic additive) is accelerated in potable hot water. Characteristic time scales are derived for this polymer/antioxidant combination at 80°C. These time scales indicate that the rate of antioxidant depletion is controlled by chlorine diffusion into the polymer (and subsequent reaction between the chlorine and antioxidant).

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