Abstract
Measurements were made in five public swimming baths, and energy savings were achieved using new filters, pumps, water treatment control depending on bather load, etc. In a 50 metre pool, electricity consumption for water treatment decreased by 50%, and in a hot-water/paddling pool, electricity consumption decreased by 30-40% while still maintaining satisfactory water quality - even during periods of heavy bather load. In another swimming bath, ventilation electricity consumption was reduced by 15%. The results will e.g. be used to revise the Danish executive order on swimming pools and water quality to allow bather load-dependent water circulation. (ln)
Hammerich, H;
Radisch, N;
[1]
Olesen, Jens Christian
[2]
- Ramboell, Koege (Denmark)
- Gladsaxe Sportscenter, Gladsaxe (Denmark); and others
Citation Formats
Hammerich, H, Radisch, N, and Olesen, Jens Christian.
Water treatment in public swimming pools - reduction of energy consumption; Vandbehandling i svoemmebade - reduktion af energiforbrug.
Denmark: N. p.,
2010.
Web.
Hammerich, H, Radisch, N, & Olesen, Jens Christian.
Water treatment in public swimming pools - reduction of energy consumption; Vandbehandling i svoemmebade - reduktion af energiforbrug.
Denmark.
Hammerich, H, Radisch, N, and Olesen, Jens Christian.
2010.
"Water treatment in public swimming pools - reduction of energy consumption; Vandbehandling i svoemmebade - reduktion af energiforbrug."
Denmark.
@misc{etde_1011561,
title = {Water treatment in public swimming pools - reduction of energy consumption; Vandbehandling i svoemmebade - reduktion af energiforbrug}
author = {Hammerich, H, Radisch, N, and Olesen, Jens Christian}
abstractNote = {Measurements were made in five public swimming baths, and energy savings were achieved using new filters, pumps, water treatment control depending on bather load, etc. In a 50 metre pool, electricity consumption for water treatment decreased by 50%, and in a hot-water/paddling pool, electricity consumption decreased by 30-40% while still maintaining satisfactory water quality - even during periods of heavy bather load. In another swimming bath, ventilation electricity consumption was reduced by 15%. The results will e.g. be used to revise the Danish executive order on swimming pools and water quality to allow bather load-dependent water circulation. (ln)}
place = {Denmark}
year = {2010}
month = {Apr}
}
title = {Water treatment in public swimming pools - reduction of energy consumption; Vandbehandling i svoemmebade - reduktion af energiforbrug}
author = {Hammerich, H, Radisch, N, and Olesen, Jens Christian}
abstractNote = {Measurements were made in five public swimming baths, and energy savings were achieved using new filters, pumps, water treatment control depending on bather load, etc. In a 50 metre pool, electricity consumption for water treatment decreased by 50%, and in a hot-water/paddling pool, electricity consumption decreased by 30-40% while still maintaining satisfactory water quality - even during periods of heavy bather load. In another swimming bath, ventilation electricity consumption was reduced by 15%. The results will e.g. be used to revise the Danish executive order on swimming pools and water quality to allow bather load-dependent water circulation. (ln)}
place = {Denmark}
year = {2010}
month = {Apr}
}