Recommended Lighting Levels in Buildings

Recommended Lighting Levels in Buildings

Publish Date: 2019/08/10 - Category: Article
Recommended Lighting Levels in Buildings

Lighting in our living and workplaces is critically important for our ability to accomplish tasks efficiently and safely. In addition, proper light levels prevent eye strain, which allows us to work comfortably for longer periods of time. This article covers proper lighting levels and will include various lighting concepts during the conversation. If you need to brush up on the basics of lighting, check out our Properties of Light article.

There are two main concepts that architects need to understand as they plan lighting in their buildings: Light Levels and Lighting Power Density.

Light Levels in Buildings

Since we are concerned mainly with accomplishing tasks in our buildings, we need to understand the Illuminance, or the amount of light that is hitting a surface. In an office, we might want to understand the amount of light that is hitting our desk; however, in a gymnasium or corridor we may be more interested in the amount of light hitting the floor.

Illuminance is measured in foot candles (FC) or lux. 1 FC is the amount of light that hits a 1 square foot surface when 1 lumen is shined from 1 foot away – this equates to 1 lumen per square foot. 1 lux is the amount of light that hits a 1 square meter surface when 1 lumen is shined from 1 meter away – this equates to 1 lumen per square meter. 10 lux is roughly 1 FC.

Diagram of Foot Candle vs Lux -- Illumination

We need to provide enough light to allow people to accomplish see their tasks, but not so much light that it is hard to see the tasks – over lighting is just as bad as under lighting. Detailed tasks like drafting require more light, while general tasks like walking can be accomplished with less light.

The most cited reference for lighting levels is the IESNA Lighting Handbook, which is published by the Illuminating Engineering Society. The lighting levels listed below come from the Handbook as well as various other lighting references.

Lighting Power Density (LPD)

Lighting power density is the amount of power used by lighting per unit of building area. In the United States, LPD is measured in watts per square foot. Included in the watt measurement is all power consumed by light fixtures, ballasts, controls, transformers, etc. – essentially, if the component or device is involved in lighting, it must be included in the calculation.

Lighting power density is established by local and international codes. The values listed below for LPD come from the 2015 version of the International Energy Conservation Code (IECC 2015). Please keep in mind that certain cities or states may have codes that require LPDs to be a certain percentage BELOW the IECC. Always make sure to check your local codes before establishing LPD criteria for your project.

There are two ways to calculate the lighting power density. The first way is to use an LPD that applies to the full building based on the type of building (school, museum, office, etc.) -- this method is very basic and is called the Building Area Method. The second way is to calculate the LPD based on each specific room and is called the Space-by-Space method -- this method is much more accurate and may result in a lower LPD number, which is helpful when applying for utility incentives.

Many utility incentive programs require the design team to improve upon the lighting power density baseline required by local codes. For instance, a utility incentive program may require a 15% (or more) improvement over the baseline LPD in order to receive a lower electricity rate.

Recommended Light Levels by Space

The table below provides recommended light levels from the IESNA Lighting Handbook and LPD levels from the IECC 2015. Check your local jurisdiction for other or more stringent requirements. The US General Services Administration provides lighting levels and LPDs for US Government buildings, which can be used as a guide for other types of buildings.

The required light levels are indicated in a range because different tasks, even in the same space, require different amounts of light. In general, low contrast and detailed tasks require more light while high contrast and less detailed tasks require less light.

Please keep in mind that this chart is not comprehensive. The IESNA Lighting Handbook has pages and pages of various categories. If you have a very specific need, we recommend further research.

Bedroom - Dormitory20-30 FC200-300 lux0.38
Cafeteria - Eating20-30 FC200-300 lux0.65
Classroom - General30-50 FC300-500 lux1.24
Conference Room30-50 FC300-500 lux1.23
Corridor5-10 FC50-100 lux0.66
Exhibit Space30-50 FC300-500 lux1.45
Gymnasium - Exercise / Workout20-30 FC200-300 lux0.72
Gymnasium - Sports / Games30-50 FC300-500 lux1.20
Kitchen / Food Prep30-75 FC300-750 lux1.21
Laboratory (Classroom)50-75 FC500-750 lux1.43
Laboratory (Professional)75-120 FC750-1200 lux1.81
Library - Stacks20-50 FC200-500 lux1.71
Library - Reading / Studying30-50 FC300-500 lux1.06
Loading Dock10-30 FC100-300 lux0.47
Lobby - Office/General20-30 FC200-300 lux0.90
Locker Room10-30 FC100-300 lux0.75
Lounge / Breakroom10-30 FC100-300 lux0.73
Mechanical / Electrical Room20-50 FC200-500 lux0.95
Office - Open30-50 FC300-500 lux0.98
Office - Private / Closed30-50 FC300-500 lux1.11
Parking - Interior5-10 FC50-100 lux0.19
Restroom / Toilet10-30 FC100-300 lux0.98
Retail Sales20-50 FC200-500 lux1.59
Stairway5-10 FC50-100 lux0.69
Storage Room - General5-20 FC50-200 lux0.63
Workshop30-75 FC300-750 lux1.59

Reference : Archtoolbox