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Field studies of domestic hot water comfort in semi-detached houses during summertime

Persson, Tommy LU and Wollerstrand, Janusz LU (2005) 18th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2005) p.1053-1061
Abstract
The paper describes measurements performed in three district heating (DH) substations in semidetached houses. In all these houses more than 40 % of the domestic hot water (DHW) tappings turned out to be shorter than 10 s. The fraction of total energy used to heat this water varied between 2.4 % and 10.2 %, indicating a large influence of households' daily habits. For 60-78 % of tappings, the total amount of supplied DH water volume was below 2.5 litres, which underlines the importance of using small volume pulses for the energy metering. When analysing the off-load behaviour of the DH substations it was established that radiator circuit control valves for the most part of the studied period were working on/off. During periods when there... (More)
The paper describes measurements performed in three district heating (DH) substations in semidetached houses. In all these houses more than 40 % of the domestic hot water (DHW) tappings turned out to be shorter than 10 s. The fraction of total energy used to heat this water varied between 2.4 % and 10.2 %, indicating a large influence of households' daily habits. For 60-78 % of tappings, the total amount of supplied DH water volume was below 2.5 litres, which underlines the importance of using small volume pulses for the energy metering. When analysing the off-load behaviour of the DH substations it was established that radiator circuit control valves for the most part of the studied period were working on/off. During periods when there was no radiator load, the primary supply temperature was typically 50-60 degrees C, which was higher than expected. The differences in supply temperature level between the substations might be caused by leaking valves or by differences in off-load set point temperature of DHW control valves. Furthermore, the measurements indicate large differences among DHW controllers regarding the characteristics of the feed-forward control. In more than 80 % of the tappings with duration of more than 10 s, an outgoing DHW temperature of at least 40 degrees C was obtained within a maximum of 10 s. However, depending on the house studied, in 17-55 % of those tappings the monitored DHW temperature did not reach the level of at least 50 degrees C, as required by the Swedish District Heating Association. (Less)
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author
and
organization
publishing date
type
Chapter in Book/Report/Conference proceeding
publication status
published
subject
host publication
Proceedings of Ecos 2005, Vols 1-3 - Shaping our future energy systems
pages
1053 - 1061
publisher
Norwegian University of Science and Technology
conference name
18th International Conference on Efficiency, Cost, Optimization, Simulation and Environmental Impact of Energy Systems (ECOS 2005)
conference location
Trondheim, Norway
conference dates
2005-06-20 - 2005-06-22
external identifiers
  • wos:000232156000129
  • scopus:84924352096
ISBN
82-519-2041-8
language
English
LU publication?
yes
id
94225694-1431-41cb-b8d6-c5dad71b0ba7 (old id 1406451)
date added to LUP
2016-04-04 10:10:15
date last changed
2022-01-29 19:53:42
@inproceedings{94225694-1431-41cb-b8d6-c5dad71b0ba7,
  abstract     = {{The paper describes measurements performed in three district heating (DH) substations in semidetached houses. In all these houses more than 40 % of the domestic hot water (DHW) tappings turned out to be shorter than 10 s. The fraction of total energy used to heat this water varied between 2.4 % and 10.2 %, indicating a large influence of households' daily habits. For 60-78 % of tappings, the total amount of supplied DH water volume was below 2.5 litres, which underlines the importance of using small volume pulses for the energy metering. When analysing the off-load behaviour of the DH substations it was established that radiator circuit control valves for the most part of the studied period were working on/off. During periods when there was no radiator load, the primary supply temperature was typically 50-60 degrees C, which was higher than expected. The differences in supply temperature level between the substations might be caused by leaking valves or by differences in off-load set point temperature of DHW control valves. Furthermore, the measurements indicate large differences among DHW controllers regarding the characteristics of the feed-forward control. In more than 80 % of the tappings with duration of more than 10 s, an outgoing DHW temperature of at least 40 degrees C was obtained within a maximum of 10 s. However, depending on the house studied, in 17-55 % of those tappings the monitored DHW temperature did not reach the level of at least 50 degrees C, as required by the Swedish District Heating Association.}},
  author       = {{Persson, Tommy and Wollerstrand, Janusz}},
  booktitle    = {{Proceedings of Ecos 2005, Vols 1-3 - Shaping our future energy systems}},
  isbn         = {{82-519-2041-8}},
  language     = {{eng}},
  pages        = {{1053--1061}},
  publisher    = {{Norwegian University of Science and Technology}},
  title        = {{Field studies of domestic hot water comfort in semi-detached houses during summertime}},
  year         = {{2005}},
}