Quantifying the performance of a passive deaerator in a gas-fired closed loop domestic wet central heating system

Johnston, D; Glew, D; Miles-Shenton, D; Benjaber, M; Fitton, R

doi:10.1177/0143624416675391

Quantifying the performance of a passive deaerator in a gas-fired closed loop domestic wet central heating system

Johnston, D; Glew, D; Miles-Shenton, D; Benjaber, M; Fitton, R

Authors

D Johnston

D Glew

D Miles-Shenton

M Benjaber

Prof Richard Fitton R.Fitton@salford.ac.uk
Professor of Building Performance

Abstract

In the UK, approximately 16% of the energy use can be attributed to domestic wet central heating systems. Government financial support and advances in technology have led to boilers becoming more efficient and a range of technologies are now available that claim to be able to improve the efficiency of domestic wet central heating systems. One such low cost technology is a passive deaerator. This paper presents the results obtained from installing a passive deaerator on the closed loop of a gas-fired wet central heating system, under controlled conditions in the Salford Energy House. The results indicate that although marginally less heat output was required from the boiler when the passive deaerator was operating, these savings are more or less out weighted by the boiler short cycling more frequently. Consequently, the overall reduction is gas consumption achieved by utilising the passive deaerator device is only of the order of 0.5%; this scale of savings may just be a consequence of measurement noise. The implications are that although a marginal benefit may be attributed to these products, if short cycling takes place, then these savings may become insignificant.

Citation

Johnston, D., Glew, D., Miles-Shenton, D., Benjaber, M., & Fitton, R. (2016). Quantifying the performance of a passive deaerator in a gas-fired closed loop domestic wet central heating system. Building Services Engineering Research and Technology, 38(3), 269-286. https://doi.org/10.1177/0143624416675391

Journal Article Type	Article
Acceptance Date	Sep 30, 2016
Online Publication Date	Oct 28, 2016
Publication Date	Oct 28, 2016
Deposit Date	Nov 3, 2016
Publicly Available Date	Nov 3, 2016
Journal	Building Services Engineering Research and Technology
Print ISSN	0143-6244
Electronic ISSN	1477-0849
Publisher	SAGE Publications
Volume	38
Issue	3
Pages	269-286
DOI	https://doi.org/10.1177/0143624416675391
Publisher URL	http://dx.doi.org/10.1177/0143624416675391
Related Public URLs	http://www.uk.sagepub.com/journals/Journal201803/