Good lighting for outdoor workplaces Basically speaking, outdoor workplace lighting addresses the same task as interior lighting, ensuring visual task performance and health and safety at work. However, the design requirements are different. During the day, our eyes provide around 80% of the sensory impressions we register. But at night, the visual acuity of the eye drops to just 3 30% of its daytime level – depending on lighting. What is more, the risk of glare is significantly higher than in bright conditions.
licht.wissen 13 Outdoor workplaces Free Download at www.all-about-light.org U2 2 Introduction 4 Lighting technology 10 Industrial plants and power facilities 14 Transport, roads and routes 18 Storage and logistics 20 Construction sites 22 Lighting tables 26 Lamps 28 Luminaires 30 Literature 31 Acknowledgements for photographs 31 Order forms 32 Imprint 33 Information on lighting applications: the series of booklets published by Fördergemeinschaft Gutes Licht Contents 1 2 3 1 Foreword orrect lighting has long been identified as a crucial factor for health and safety at work. The mes- sage that every lighting crite- rion needs to be duly consi- dered in the design of a plant or facility is communicated in a variety of ways. But atten- tion generally focuses on inte- riors. It is often forgotten that a considerable amount of work is performed outdoors – at workplaces with no or insufficient natural lighting. Outdoor workplace lighting needs to meet specific requi- rements – requirements that differ from those of both clas- sical interior lighting and road lighting. The issue of good lighting for outdoor workpla- ces merits special attention at present because new stipula- tions have been developed to take account of technolo- gical advances, occupational medicine, hygiene and the results of other occupational research. These requirements are set out in BGR 131, the rule for "Natural and artificial workplace lighting" developed by the institutions responsible for statutory accident insurance and prevention in Germany. Aimed at employers, designers and constructors, it provides pointers on the lighting re- quired for workplaces outside buildings. BGR 131 focuses on the health and safety of employees at work and sets out require- ments for those two areas. It does not look at what is needed to meet visual physiological and production- related requirements. These issues are addressed in the draft European standard DIN EN 12464-2, which defines the standards that need to be observed in practice to meet the visual comfort and visual performance requirements of most outdoor workplaces. There is thus a clear dividing line between the European standard and the BG rule. C Dipl Ing. Gerold Soestmeyer Chairman of the "Lighting, light and colour" working group of the expert committee looking at "Impacts and work-related health hazards" for the BG Central Office for Safety and Health. Ensuring that lighting meets all health and safety require- ments is an attainable goal for any company. Compliance with rules and standards aside, energy effi- ciency is an important invest- ment criterion. Technically sophisticated lamps and luminaires offer a grat deal of scope for optimizing lighting installations from an ergono- mic, economic and environ- mental viewpoint. Some of that scope is created by lighting management sys- tems, which are now available not only for indoor lighting but also for outdoor installations. I hope this licht.de booklet will be widely read and received with interest by all those responsible for good lighting. 4 5 76 8 Illuminance, measured in lux (lx), is the luminous flux from a light source falling on a given surface. Where an area of 1 square metre is uniformly illuminated by 1 lumen of luminous flux, illuminance is 1 lux. Luminance is the brightness of a luminous or illuminated surface as perceived by the human eye. Measured in cd/m2 or cd/cm2, it expresses the intensity of the light emitted or reflected by a surface per unit area. Luminous intensity is the amount of luminous flux radiating in a particular direction. It is measured in candela (cd). The spatial distribution of luminous intensity – normally depicted by an intensity distribution curve (IDC) – defines the shape of the light beam emitted by a luminaire, reflector lamp or LED. Luminous flux is the rate at which light is emitted by a lamp. Measured in lumen (lm), it defines the visible light radi- ating from a light source in all directions. 2 Introduction Good lighting for outdoor workplaces Basically speaking, outdoor workplace lighting addresses the same task as interior lighting, ensuring visual task performance and health and safety at work. However, the design requirements are different. During the day, our eyes pro- vide around 80% of the sensory impressions we regis- ter. But at night, the visual acuity of the eye drops to just 3 - 30% of its day-time level – depending on lighting. What is more, the risk of glare is significantly higher than in bright conditions. Spatial orientation and field of vision are considerably reduced in darkness and physical performance drops to less than 10% as a result of fatigue due to disruption of natural sleep patterns. This is why most accidents caused by human error occur at night. Human biorhythms are subject to marked fluctuation. Performance decreases sharply at night; hence the loss of concentration and the increase in the risk of accidents. Accidents at night are both more frequent and more serious than they are during the day. The four basic lighting quantities Physical relationships are expressed in lighting by specific variables and units. The four most widely used terms are explained below: Outdoor work often entails hazards 9 10 14131211 3 Note Lighting tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . Page 22 Lamps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Page 26 Luminaires . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Page 28 Max. Min. Melatonin (sleep hormone) “Cheerfulness” 06 08 10 12 14 16 18 20 22 24 02 0604 h 612182461218246 Cortisol Attention Melatonin Body temperature h Correlation of melatonin levels and "cheerfulness" Wave patterns of different circadian rhythms Many areas of an airport are outdoor workplaces In contrast to indoor work, the visual effort required at outdoor workplaces is significantly increased by the fact that there are generally no walls to reflect light, so on- ly direct lighting is possible. This can often produce deep shadows. Generally speaking, the visual situation is then further aggra- vated by a dark background, resulting in higher luminance contrasts. The draft standard DIN EN 12464-2 defines requirements for ensuring good visual performance and good visual comfort. Due to visual physiological needs and the demands of production processes, these requirements may be higher than those formulated for occupational health and safety. After a general look at the physiology of vision and the basic variables and quality features of lighting, this booklet examines some of the main lighting requirements that need to be met at outdoor workplaces. It then profiles a range of major applications, citing spe- cific assessment criteria, and presents a useful table of the requirements set out for the different applications in the draft European standard DIN EN 12464-2. 15 16 17 18 4 Lighting technology Seeing and being seen: good lighting avoids accidents Daylight illuminance ranges from 5,000 to 100,000 lux (lx). On a moonlit night, however, it reaches only 1 lx at most. The fact that we can "see" over a vast bandwidth like this is due to the eye's ability to adapt. At low illuminance levels, however, visual perform- ance is impaired. Good light- ing at outdoor workplaces helps significantly to guard against accidents, enabling us to see well and be seen at all times. In twilight and at night, perception and recognition are no longer sufficiently guar- anteed, so artificial lighting is vital for accident prevention. It is absolutely essential, for example, at high-risk work- places at woodworking machines or on scaffolding or ramps (where safety depends on ability to see) or at hazard- ous workplaces near trucks, conveyors or tracks (where being seen is a key safety factor). The need for good lighting at outdoor workplaces is explained by the following physiological facts. Even signal-coloured objects that are clearly visible during the day are hard to make out in twilight. Where cranes are in operation, care must be taken to ensure good visual conditions for both crane operators and ground personnel. 19 20 21 22 5 Note Lighting tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . Page 22 Lamps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Page 26 Luminaires . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Page 28 Good bay entrance lighting avoids adaptation hazards. Visual performance and colour identification are dependent on lighting. Colour vision, light/dark vision Day vision is provided by cone receptors in the eye which are sensitive to colour. This is when visual perform- ance is at its best: colours can be distinguished and objects can be clearly made out in 3D. At night, colour- insensitive rod receptors take over, providing a degree of light/dark vision that only real- ly enables us to get our bear- ings. Where not enough daylight is available – as at outdoor workplaces – adequate visual performance and colour dis- crimination can only be achie- ved by using artificial lighting to activate the cone receptors that make better visual performance possible. Contrast sensitivity Contrast sensitivity is the term used to describe the ability to perceive differences in lumi- nance in the field of vision. The higher the brightness level (adaptation luminance), the finer the differences in luminance perceived. Con- trast sensitivity is reduced by glare. Visual acuity The eye's ability to make out the contours and details of shapes as well as shades of colour is determined by visual acuity. Visual acuity improves as adaptation luminance increases, creating better conditions for making out obstructions, etc Contrasts Contrasts are differences in brightness and colour in the field of vision. To be perceived by the human eye, they need to be sufficiently pronounced. The minimum contrast percei- ved depends on the ambient brightness (adaptation lumi- nance): the brighter the sur- roundings, the lower the con- trast perceived. In darker surroundings, an object needs either to con- trast more sharply or to be larger in order to be percei- ved. So where fine visual details need to be made out – in an aircraft maintenance zone at an airport, for exam- ple – higher illuminance levels are required. Adaptation time It takes time for the eye to adapt to different levels of brightness. The adaptation process – and thus the adap- tation time – depend on the luminance at the beginning and end of any change in brightness: adapting from dark to light takes only seconds, adapting from light to dark can take several minutes. Visual performance at any one time depends on the state of adaptation: the more light available, the better the visual performance achie- ved. Visual impairment occurs when our eyes have too little time to adapt to differences in brightness. This explains, for example, the increased risk of accident where fork-lift truck operators leave a brightly lit bay and enter a dark storage area outdoors and collide with persons or objects they fail to see. Correct illuminance levels for factory or warehouse bay entrances need to be geared to the illuminance inside the bay. 23 24 25 6 Lighting technology Quality criteria Activities at outdoor work- places entail a variety of visual tasks for which specific light- ing quality requirements can be identified. The main criteria for out- door workplace lighting are: luminance distribution, illumi- nance, glare, direction of light, light colour and colour render- ing, light flicker. All lighting quality criteria pri- marily apply to the task area. This is the area of the work- place where the visual task is performed. Where the size and location of the task area are not known, any area where the task could be per- formed must be assumed to form part of the task area for the purposes of lighting plan- ning. As in interior lighting, precise analyses need to be performed to establish reason- able task area coordinates for each sworkplace. Adequate level of brightness To enable people to see well at outdoor workplaces, an adequate level of brightness/ lighting is essential. This is determined by the luminance and the way it is distributed. Luminance (in cd/m 2 ) is the light reflected by a surface into the eyes of the observer. Balanced luminance distribu- tion determines visual acuity, contrast sensitivity and the efficiency of ocular functions such as accommodation, convergence, pupillary chan- ge, eye movement, etc.). Luminance distribution in the field of vision also affects visu- al comfort. Wherever possi- ble, marked changes in lumi- nance should therefore be avoided within the field of vision. At outdoor workplaces – e.g. construction sites – the scope for doing so is limited because vertical surfaces in the wider surroundings are mostly in darkness. One fac- tor influencing luminance is the reflectance of the illumina- ted surface, which, in contrast to indoor lighting scenarios, tends to be very low at an outdoor workplace. The basic rule is: the lower the reflectan- ce and the more difficult the visual task, the higher the illu- minance needs to be. Illuminance Luminance depends crucially on illuminance (in lx), which is defined as the amount of light falling on a surface. Illuminance and illuminance distribution are major factors influencing the speed and reli- luminous surface perceived surface luminous intensity Luminance describes the physiological impact of light. ability with which a visual task can be registered and addres- sed. For outdoor workplaces, the draft standard DIN EN 12464-2 contains tables set- ting out the illuminance requi- red, depending on the type of area, visual task or activity present. This illuminance needs to be realised in the task area. The reference surface may be horizontal, vertical or inclined. At workplaces that are per- manently manned, illuminance must be no lower than 50 lx. Where visual tasks differ from those assumed as standard, illuminance can be raised or lowered by at least one grade on the illuminance scale, which ranges from 5 lx to 2,000 lx and is divided into grades with a factor of around 1.5. Higher illuminances than those shown in the tables are recommended especially where ■ the visual work is particularly demanding, ■ the visual task or persons are moving, ■ precision or productivity is particularly important, ■ the eyesight of the persons working is below average, ■ visual details are particu- larly fine or low-contrast, ■ the visual task needs to be performed for an unusually long time. Illuminance in the surrounding area may be lower than the illuminance in the task area but should make for a balan- 26 27 7 Note Lighting tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . Page 22 Lamps . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Page 26 Luminaires . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Page 28 Good lighting C o l o u r r e n d e r i n g L i g h t i n g l e v e l G l a r e l i m i t a t i o n H a r m o n i o u s d i s t r i b u t i o n L i g h t c o l o u r D i r e c t i o n o f l i g h t V i s u a l a m b i e n c e V i s u a l c o m f o r t V i s u a l p e r f o r m a n c e m m m The planes on which primary visual tasks are performed may be horizontal, vertical or inclined – standard illuminance requirements m apply analogously. ced distribution of luminance in the field of vision. The "sur- rounding area" includes sur- faces in the field of vision which immediately surround the work area. The standard cites no dimensions defining this area more closely. It should be noted, however, that the ambient lighting needs to be geared to the task area illuminance so that adequate adaptation luminance is en- sured. Given this requirement, the task area defined should not be too small. Uniformity of illuminance The task area must be illumi- nated as uniformly as possi- ble. Uniformity of illuminance U = E min /E m in the task area is stipulated for different tasks in the draft standard DIN EN 12464-2. Uniformity in the surrounding area must not be lower than U = 0.10. Value on installation All the illuminance values stipulated in standards are maintained values, i.e. values below which illuminance must not fall at any time. As the length of time a lighting installa- tion is in operation increases, the values installed at the out- set decrease as a result of lamps and luminaires ageing and becoming soiled. So, to enable an outdoor installa- tion's operating life to be extended without additional maintenance work, values on installation should be corres- pondingly higher. How much higher is determined by main- tenance factors. Values on installation are calculated as follows: value on installation = maintained value /maintenance factor. Maintenance factors – as well as all the assumptions made to determine them – must be stated by the lighting designer. Good lighting takes account of many quality criteria. The maintained value is the local average illuminance at which the system requires maintenance. Example: maintenance interval 3 years. 28 29 30 Illuminance of the Illuminance of task area surrounding areas lx lx ≥ 500 100 300 75 200 50 150 30 50 to 100 20 < 50 no stipulation Illuminance levels in surrounding areas, depending on levels in the task area 8 Lighting technology Glare Glare is produced by bright surfaces in the field of vision and can be perceived as either discomforting (psychological) glare or disabling (physiologi- cal) glare. The glare caused by light bouncing off reflective surfaces is generally known as veiling reflection or reflec- ted glare. GR = 27+ 24log 10 L vl 0,9 L ve [ ] Directional lighting Directional lighting is a tool used to emphasize objects, surface structures or persons. The term used to express the balance between diffuse and directional light is "modelling", which is thus a lighting quality Reflections can affect the clarity with which a visual task is perceived. Only under directional light (left) do three-dimensional structures become visible. To avoid errors, fatigue and accidents, it is important to limit glare – especially at view- ing angles above the hori- zontal. The degree of direct glare caused by luminaires in an outdoor lighting installation is described by the glare rating GR. Where: ■ L vl is the total veiling luminance in cd/m 2 caused by the lighting installation ■ L ve is the equivalent veiling luminance of the surroun- dings in cd/m 2 . Assessment of glare GR unbearable 80–90 disturbing 60 – 70 just admissible 40 – 50 noticeable 20 – 30 unnoticeable 10 Connection between glare ratings and assessments of glare Veiling reflection and reflected glare Highly luminous reflections on a visual task can affect how well the task is perceived. Veiling reflections and reflected glare can be prevented or reduced by ■ appropriate arrangement of luminaires and workplaces, ■ finishes (matt surfaces), ■ limitation of luminaire luminance, ■ enlargement of the luminous surface of the luminaires. criterion. Modelling is achie- ved when light comes predom- inantly from one direction – although care should be taken to avoid creating harsh shadows. Light colour and colour rendering The light colour of lamps is expressed by correlated colour temperatures. Selec- ting a light colour is a matter of psychology, aesthetics and what is considered natural. Because these broadly sub- jective criteria differ from one area of Europe to another, planning value tables contain no recommendations for light colours. That matter aside, light colour also determines lamp lumi- nous efficacy, which in turn impacts on lighting system costs. In Central Europe, warm-white high pressure sodium vapour lamps are the light source most widely used for reasons of economy and metal halide lamps for neutral- white light are the light source of choice where better colour rendering is required. 33 31 32 [...]... spectrum of the FGL light portal licht. wissen 13 Gutes Licht für die Arbeit im Freien 17 LED – Licht aus der Leuchtdiode 18 Gutes Licht für Museen, Galerien, Ausstellungen Booklet 15 is out of print Gutes Licht am Haus und im Garten 11 15 Beleuchtungsqualität mit Elektronik 12 16 Stadtmarketing mit Licht licht .wissen 13 Outdoor Workplaces licht. de Fördergemeinschaft Gutes Licht Stresemannallee 19 60596... künstlichem Licht 1 Gutes Licht für Handwerk und Industrie 5 Repräsentative Lichtgestaltung 9 Gutes Licht für Schulen und Bildungsstätten 2 Gutes Licht für Verkauf und Präsentation 6 Gutes Licht im Gesundheitswesen Notbeleuchtung Sicherheitsbeleuchtung 10 Gutes Licht für Hotellerie und Gastronomie Ideen für Gutes Licht zum Wohnen 14 Gutes Licht für Büros und Verwaltungsgebäude 7 4 Gutes Licht für Sport... 17 LED – Licht aus der Leuchtdiode (2005) E E E 1 3 Arbeitsplätze im Freien (2007) E 8 Gutes Licht für Sport und Freizeit (2001) 6 Gutes Licht für Verkauf und Präsentation (2002) 5 Gutes Licht für Handwerk und Industrie (1999) 4 Gutes Licht für Büros und Verwaltungsgebäude (2003) 1 Die Beleuchtung mit künstlichem Licht (2004) Datum 18 Gutes Licht für Museen, Galerien, Ausstellungen (2006) Lichtforum... Heft-Nr./Titel 2 Gutes Licht für Schulen und Bildungsstätten (2003) E E E 3 Straßen, Wege und Plätze (2007) 7 Gutes Licht im Gesundheitswesen (2004) E 9 Repräsentative Lichtgestaltung (1997) 11 Gutes Licht für Hotellerie und Gastronomie (2005) 1 0 Notbeleuchtung, Sicherheitsbeleuchtung (2000) 1 2 Beleuchtungsqualität mit Elektronik (2003) E E 1 6 Stadtmarketing mit Licht (2002) 1 4 Ideen für Gutes Licht zum Wohnen... Saw mils Ref no Type of area, task or activity 5 .13. 1 Timber handling on land and in water, sawdust and chip conveyors 5 .13. 2 Sorting of timber on land or in water, timber unloading points and sawn timber loading points, mechanical lifting to timber conveyor, stacking 5 .13. 3 Reading of addresses and markings of sawn timber 5 .13. 4 Grading and packaging 5 .13. 5 Feeding and stripping and chopping machines... Straßenbeleuchtung und Sicherheit, publication no 17:1998, Deutsche Lichttechnische Gesellschaft (LiTG) e.V., Berlin 1998 (www.litg.de) 95 Messung und Beurteilung von Lichtimmissionen künstlicher Lichtquellen, publication no 12.2:1996, Deutsche Lichttechnische Gesellchaft (LiTG) e.V., Berlin 1996 (www.litg.de) Hinweise zur Messung und Beurteilung von Lichtimmissionen, Beschluss des Länderausschusses für Immissionsschutz... Außenbeleuchtungsanlagen auf nachtaktive Insekten, publication no 15:1997, Deutsche Lichttechnische Gesellschaft (LiTG) e.V., Berlin 1997 (www.litg.de) 96 30 (4/02) (5/06) (3/07) 17 LED – Light from the Light Emitting Diode 18 Good Lighting for Museums, Galleries and Exhibitions 12/07/15 /13 I City, Postal Code Address or P.O Box (12/07) 13 Outdoor workplaces (5/03) 16 Urban image lighting (2/05) 12 Lighting Quality... booklet is No 13 in the series Information on Lighting Applications published by Fördergemeinschaft Gutes Licht to provide practical information on good artificial lighting The titles of all the publications in the series are listed opposite in numerical order 13 T Fördergemeinschaft Gutes Licht Stresemannallee 19 60596 Frankfurt am Main Germany phone: +49 69 6302-0 fax: +49 69 6302-317 e-mail: licht. de@zvei.org... indoor workplaces (cf EN 12464-1) can provide pointers on the illuminance levels required outdoors Values between 30 and 60 lx are typical for general activities outdoors For places where special activities are performed, appropriate supplementary lighting is required 39 10 40 Uniformity Defining task areas where quality criteria apply is frequently a difficult exercise, especially at industrial workplaces. .. DIN-VDE standards: VDE-Verlag 10625 Berlin, Germany ISBN: 978-3-926193-36-0 Reprints: With the permission of the publishers 12/07/00 /13 E 18 Good Lighting for Museums, Galleries and Exhibitions 17 LED – Light from the Light Emitting Diode 16 Urban image lighting 13 Outdoor workplaces 12 Lighting Quality with Electronics 11 Good Lighting for Hotels and Restaurants 8 Good Lighting for Sports and Leisure . different circadian rhythms Many areas of an airport are outdoor workplaces In contrast to indoor work, the visual effort required at outdoor workplaces is significantly increased by the fact that. radi- ating from a light source in all directions. 2 Introduction Good lighting for outdoor workplaces Basically speaking, outdoor workplace lighting addresses the same task as interior lighting, ensuring. often forgotten that a considerable amount of work is performed outdoors – at workplaces with no or insufficient natural lighting. Outdoor workplace lighting needs to meet specific requi- rements