Domestic hot water storage: Balancing thermal and sanitary performance

Domestic hot water storage: Balancing thermal and sanitary performance

Thermal stratification within hot water tanks maximises the availability of stored energy and facilitates optimal use of both conventional and renewable energy sources. However, stratified tanks are also associated with the proliferation of pathogenic bacteria, such as Legionella, due to the hospita...

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Veröffentlicht in:Energy policy 2014-05, Vol.68, p.334-339
Hauptverfasser: Armstrong, P., Ager, D., Thompson, I., McCulloch, M.
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Assets
Conflict
Control systems
Domestic hot water
Energy
Energy policy
Energy. Thermal use of fuels
Exact sciences and technology
Heating, air conditioning and ventilation
Legionella
Material and general technologies
Measurement
Pathogens
Renewable energy sources
Sanitation
Space heating. Hot water
Storage
Studies
Thermal energy storage
Thermodynamics
Transport and storage of energy
Water
Water heaters
Water resources
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Zusammenfassung:Thermal stratification within hot water tanks maximises the availability of stored energy and facilitates optimal use of both conventional and renewable energy sources. However, stratified tanks are also associated with the proliferation of pathogenic bacteria, such as Legionella, due to the hospitable temperatures that arise during operation. Sanitary measures, aimed at homogenising the temperature distribution throughout the tank, have been proposed; such measures reduce the effective energy storage capability that is otherwise available. Here we quantify the conflict that arises between thermodynamic performance and bacterial sterilisation within 10 real world systems. Whilst perfect stratification enhances the recovery of hot water and reduces heat losses, water samples revealed significant bacterial growth attributable to stratification (P
ISSN:0301-4215
1873-6777
DOI:10.1016/j.enpol.2014.01.012