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  • PublisherCIBSE
  • Product CodeTM59
  • Number of pages17
  • Publication DateMay 2017
  • ISBN9781912034185

TM59 Design methodology for the assessment of overheating risk in homes

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TM59 Design methodology for the assessment of overheating risk in homes

NOTE: The PDF of TM59 that can be downloaded from this page has been amended to incorporate corrections identified since publication. 

For purchasers of the hard copy of TM59, the Corrigenda (dated June 2017) can be downloaded here

Recent evidence has shown that overheating risk needs to be taken seriously in the residential sector. Many new or refurbished homes have designs that contribute to overheating risk by, for example, having high proportions of glazing (resulting in excessive solar heat gains), inadequate natural ventilation strategies or mechanical ventilation systems that are not delivering intended air change rates.

Overheating risk is also affecting existing homes, especially in buildings that do not have adequate methods for dissipating heat gains and are less resilient to climate change. The health and wellbeing impacts of overheating can be significant for residents, resulting in stress, anxiety, sleep deprivation and even early deaths in heat waves, especially for vulnerable occupants. The situation is predicted to get worse. The Committee on Climate Change has estimated that mortality rates arising from overheating could rise from 2000 per year in 2015 to 7000 per year by the 2050s.

Assessing overheating risk in homes is a complex issue and not adequately assessed by building regulations. Indeed, it would be wrong to assume that a home that complies with building regulations that were designed to focus on energy conservation also gives sufficient assurance of avoidance of overheating. Hence the recommendation that comfort conditions are separately assessed if it is felt that there could be a risk.

Many factors influence overheating in homes, including the intensity of heat gains, occupancy patterns, orientation, dwelling layout, shading strategy and ventilation method. Dynamic thermal modelling can be used to simulate the internal temperature conditions and will therefore help establish whether threshold conditions of discomfort will be reached. Given the complexity of the factors influencing overheating it is important that a standardised methodology is used to assess risk and hence the need for this technical memorandum. It can be applied to dwellings, care homes and student residences. Early analysis of overheating risk is recommended so that mitigation strategies can be reviewed in design proposals.

In summary, the application of this technical memorandum, by standardising the assessment methodology, should play a key role in limiting overheating risk in new and refurbished homes.

PDF is free to all users (requires registration on site).

Contents:

1 Introduction

1.1 About the methodology

1.2 Clarifications

1.3 Basis of design comfort criteria

1.4 Implications of applying the methodology
 

2 The methodology

2.1 Identification of risk

2.2 Methodology overview

2.3 Suggested reporting requirements

 

3 Guidance

3.1 Sample size

3.2 Weather files

3.3 Window and door openings

3.4 Exposure type

3.5 Infiltration and mechanical ventilation

3.6 Air speed assumptions

3.7 Blinds and shading devices

3.8 Pipework, hiu and heat maintenance tape heat loss

3.9 Communal corridors

 

4 Compliance criteria

4.1 Definitions

4.2 Criteria for homes predominantly naturally ventilated

4.3 Criteria for homes predominantly mechanically ventilated

4.4 Adjustments for homes with vulnerable occupants

4.5 Corridors: assessment criteria

 

5 Internal gains profiles

5.1 Occupancy and equipment

5.2 Lighting

5.3 Gain profile tables and charts

 

6 Supplementary information on profile development
 

References
 

Acknowledgements:

Chair: Ashley Bateson (Hoare Lea), Chair, CIBSE Homes for the Future Group

Contributing authors:

Cecilia Bonfigli (ARUP), Marguerita Chorafa (AECOM), Susie Diamond (Inkling), Chris Eliades (ARUP), Anastasia Mylona (CIBSE), Becci Taylor (ARUP), Dane Virk (UCL/CIBSE sponsored EngD)

Other acknowledgements

The Institution is grateful to the following for testing the methodology on actual projects: Zsolt Bako-Biro (GT Advanced), Ashley Bateson (Hoare Lea), Cecilia Bonfigli (ARUP), Owen Boswell (Hoare Lea), Tom Brown (Hoare Lea), Marguerita Chorafa (AECOM), Gabriela Costa (Sweco), Ed Cremin (Etude), Claire Das Bhaumik (Inkling), Susie Diamond (Inkling), Chris Eliades (ARUP), Marcus Haydon (Inkling), Narguess Khatami (Hilson Moran), Alexandros Kyrkopoulos (AECOM), Juliana Moreira (WSP), Tom Spurrier (Hoare Lea), Leon Tatlock (Etude), Dane Virk (UCL/CIBSE sponsored EngD).

Reviewers:

Kevin Lomas (Loughborough University), Isabelle Smith (Atkins), Neil Smith (NHBC) and members of the CIBSE Homes for the Future Special Interest Group: Susan May (Affinity Sutton), Tom MacNeil (Max Fordham), Jon Nuttall (Hoare Lea).