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SPONSOR CPD PROGRAMME | LIGHTING Module 209 December 2022 1. Which SLL lighting guide is particularly relevant to this article? Name (please print)........................................................................................ Job title ............................................................................................................... Organisation ..................................................................................................... Address ............................................................................................................. ............................................................................................................................... A 4 B 7 ............................................................................................................................... C 10 Postcode ........................................................................................................... D 12 Email ................................................................................................................... E 15 Are you a member of CIBSE? If so, please state your 2. What is m-EDI used to represent? membership number: .................................................................................. A Melancholic exposure The CIBSE Journal CPD Programme B Melanitic exposure C Melanoid exposure D Melanopic exposure E Melanosomic exposure By participating in this CPD module, you consent to sharing your details with VELUX Commercial. VELUX Commercial may contact you via email and/or telephone with further information and technical insight on its services. You have the right to opt out from such communications at any time. I understand that I will receive marketing communications from VELUX Commercial after completing this module (please tick here): By entering your details above, you agree that CIBSE may contact you with information about CPD and other training or professional development programmes, and about membership of CIBSE, if you are not a member. Go to www.cibsejournal.com/cpd to complete this questionnaire online. You will receive notification by email of successful completion, which can be used to validate your CPD records. Alternatively, fill in this page and post it to: N Hurley, CIBSE, 222 Balham High Road, London, SW12 9BS. 3. What minimum daylight provision is recommended by BS EN 17037 where there are wall-based daylight openings? A 300lux across 50% of the reference plane B 300lux across 75% of the reference plane C 300lux across 85% of the reference plane D 300lux across 95% of the reference plane E 300lux across 99% of the reference plane 4. In the illustration of glare in the office, what was used to reduce the DGP? A High-level static louvres B Lightweight internal blinds C Photochromic glass D Retractable external solar shading E Tinted sunglasses 5. What does the article suggest be used as a means of analysing the combined design in terms of daylight, thermal performance and comfort? A BRE 209 B BREEAM C CIE D LEED E Simulation tools 58 December 2022 www.cibsejournal.com CIBSE Dec 22 pp55-58 CPD 209 VELUX Supp.indd 58 Further reading: (beyond references cited in this article): CIBSE Lighting, Research and Technology Journal free access for CIBSE members. The impact of daylight on occupants in commercial buildings provides useful background information (this was published pre-BS EN 17037) www.velux.com/deic The website www.daylightandarchitecture.com contains a trove of useful articles. References: 1 Evans, J and Davidson, A, Health Consequences of Circadian Disruption in Humans and Animal Models, Progress in Molecular Biology and Translational Science, 2010 2 Wargocki, P and Wyon, DP, Ten questions concerning thermal and indoor air quality effects on the performance of office work and schoolwork, Building and Environment, 2016. 3 Edwards, L and Torcellini, P, A Literature Review of the Effects of Natural Light on Building Occupants, National Renewable Energy Laboratory, 2002. 4 Reddy, S et al, Physiology, Circadian Rhythm, Statpearls, 2022, bit.ly/CJDec22CPD23 accessed 31 October 2022. 5 Acostaa, I et al, Daylighting design for healthy environments: Analysis of educational spaces for optimal circadian stimulus, Solar Energy, 2019. 6 Partonen, T and Lnnqvist, J, Bright light improves vitality and alleviates distress in healthy people, J Affect Disord, 2000. 7 Santiago, P, Natural Light Inuence on Intellectual Performance.A Case Study on University Students, Sustainability 2020. 8 Jamrozika, A et al, Access to daylight and view in an office improves cognitive performance and satisfaction and reduces eyestrain: A controlled crossover study, Building and Environment 2019. 9 Brown, T et al, Recommendations for daytime, evening, and nighttime indoor light exposure to best support physiology, sleep, and wakefulness in healthy adults, PLOS Biology, 2022. 10 Rohit Manudhane, Tuning into the body clock, CIBSE Journal Lighting Supplement, December 2019. 11 Vasque, NG et al, Occupants responses to window views, daylighting and lighting in buildings: A critical review, Building and Environment 2022. 12 Health, Wellbeing & Productivity in Offices The next chapter for green building, WGBC 2014. 13 BS EN 17037:2018+A1:2021 Daylight in buildings, BSI 2021. 14 Littlefair, P et al, Site layout planning for daylight and sunlight A guide to good practice, BRE 2022. 15 Mardaljevic, J, Aperture-Based Daylight Modelling: Introducing the View Lumen, 16th IBPSA Conference, Rome, 2019. 16 RADSITE, www.radiance-online.org/ 25/11/2022 16:19