“Good ventilation and natural light are factors in improved worker productivity”
Joel Quintal, Sustainability Director – Jones Lang LaSalle

Green Building and Workplace Productivity

While green buildings are often touted for their lessened impact on the environment and reduced cost over time, green and/or LEED certified buildings, designed for a high level indoor environmental quality have an added benefit: increased worker productivity. Examples of worker productivity indicators are increases in perceived satisfaction and comfort, reduced sick days and an increase in the number of billable hours versus average time spent at work.

There are many studies that demonstrate that green buildings improve worker productivity, as proven by these indicators…

In an article entitled “Building the Green Way” in the June 2006 Harvard Business Review, Charles Lockwood stated, “green design criteria – including abundant daylighting, individual climate controls, and outdoor views – raise morale and employee satisfaction, which also improves productivity”. The Genzyme Center, which is Genzyme Corporation’s LEED Platinum headquarters, was touted as an example: When 920 employees moved from the former headquarters to the new green office space, 58% reported increased productivity. Sick time decreased by 5% compared to Genzyme’s other office spaces.

Worker Productivity After a Building Retrofit

Similarly, “Employee Productivity in a Sustainable Building”, a study commissioned in Australia by Sustainability Victoria and the Kador Group, analyzed employee productivity at Kador’s 500 Collins Street before and after the building underwent substantial green retrofits and earned a 5 Green Star Rating for Office Design.

Comparatively, employees in the new building experienced:

- 39% fewer sick days per month
- 9% improvement in secretaries’ typing speed and significant gains in typing accuracy
- 7% increase in billable hours despite 12% decline in average monthly hours worked, meaning that productivity during hours worked increased

The employees at 500 Collins Street also perceived the office to be more comfortable, reporting higher satisfaction with the new office, higher perceived fresh air and increased perception of thermal comfort and lighting quality. In fact, 40% of the employees found the new office “invigorating” compared to the old office.

Daylighting, Ventilation and Worker Productivity

In a 2003 Carnegie Mellon University study, Professor Vivian Loftness demonstrated the importance of natural light and air to worker productivity. The study showed a 3-18% gain in productivity in buildings with daylighting systems, which increase natural light. Similarly, the study showed a 0.4-7.5% gain in building environments with natural ventilation and/or access to the outdoors.

The study also showed that controllability of systems for thermal comfort and lighting was important to productivity. In buildings with individual temperature controls, there was a 0.2-3 percent increase in productivity. The study also quoted other research, which demonstrated that both underfloor and desktop user-controllable/task air systems increased individual productivity by 11%.

But Doesn’t Indoor Environmental Quality Use Energy?

There is a misconception that improving indoor environmental quality uses (more) energy, but as shown in Loftness’ study, “the goal of improving indoor environmental quality is actually proving to measurably reduce energy and other environmental costs, and to dramatically improve business performance”.

Indoor Environmental Quality and LEED

If you are interested in greening your office space to improve worker productivity, the Leadership in Energy and Environmental Design (LEED) green building rating system may serve as a useful design tool. Specifically, LEED has a credit category called “Indoor Environmental Quality” with helpful design guidelines that address indoor air quality, ventilation, low-emitting materials, controllability of lighting, thermal comfort, and daylighting and views.

SPD SmartGlass – The ideal solution for LEED® Projects…

SPD SmartGlass was designed to maximise the use of natural daylight in buildings to improve the well-being of the people within. The use of SPD SmartGlass on commercial projects can help you achieve up to 8 LEED certification credits.

What makes SPD SmartGlass a sustainable building product?

Buildings are the largest source of energy consumption in the world, and energy lost through today’s inefficient windows accounts for 30% of the building heating and cooling energy consumed in the U.S. SPD SmartGlass is significantly more energy efficient than static glazing, providing a comfortable interior for occupants with an uninterrupted view as the need for blinds/curtains is eliminated. SPD SmartGlass provides a sustainable eco-friendly building interior whilst also enhancing the corporate image of the building.

SPD SmartGlass can contribute to the following LEED credits:

Sustainable Sites

•  Credit 8: Light Pollution Reduction (1 Point)

Energy and Atmosphere

• Prerequisite 2: Minimum Energy Performance (Required)
• Credit 1: Optimise Energy Performance (1-19 Points)

Indoor Environmental Quality 

• Credit 6.2: Controllability of Systems – Thermal Comfort. (1 Point)
• Credit 7.1: Thermal Comfort – Design. (1 Point)
• Credit 8.1: Daylight and Views – Daylight (1 Point)

SPD SmartGlass has proven itself in testing conducted by Cambridge University in a number of different worldwide simulated climate conditions. These include locations such as Dubai and Houston, Texas, which are associated with very heavy cooling loads. In both locations SPD SmartGlass showed identical solar heat gain reduction. Due to energy consumed by HVAC systems in these hotter climates the savings in cooling loads by using SPD SmartGlass can be up to 65% of associated energy costs.

The challenge to create an environment where healing can occur has historically been difficult

“The nurse’s attempt to alter the environment through controlling the noise, light and emotional climate at the bedside is always against great environmental odds.”
(In Benner P, Hooper-Kyriakidis P, Stannard D: Clinical Wisdom and Interventions in Critical Care, 09′, p. 271)

The concept of healing environments in hospitals emerged as one where the environment can make a difference in how quickly the patient recovers. Common to all these environment designs is the notion of close observation and rapid intervention. Meeting patient needs through continuous monitoring is the hallmark of all critical care. However, the close monitoring has led to patient complaints of noise, lighting with no day–night distinction, and frequent interruptions of sleep and rest.

Historically, intensive care beds were often so close to each other that patients could hear everything happening to the critically ill patient in the next bed. Lack of privacy and fears related to overheard procedures and conversations in the unit created undue anxiety and the potential for physiological instability in vulnerable patients.

Patients experience a positive outcome in an environment that incorporates natural light, elements of nature, soothing colors, meaningful and varied stimuli, peaceful sounds, and pleasant views. In fact, research demonstrates less pain medication is needed and a faster recovery may occur when careful attention is given to providing a soothing environment. Hospitals that combine creative design elements with an emphasis on family-focused care are the leaders in creating healing spaces for recovery.

LC SmartGlass is leading the way in healthcare interiors with infection control and patient dignity being driven as key priorities throughout the NHS.

Patient observation can be carried out safely and efficiently by simply switching the LC SmartGlass to its clear state reducing the risk of cross-contamination as care staff do not have to physically enter the ward to observe patient activity.

Further to this, it has been proven that sheer, easily cleaned surfaces are essential in hospitals and particularly in ICCU’s in order to reduce the risks associated with the spread of super bugs such as Clostridium difficile (CDIFF), Methicillin-Resistant Staphylococcus Aureus (MRSA) and Vancomycin-Resistant Enterococcus (VRE).

LC SmartGlass provides the ideal surface to combat these deadly infections and eliminates the need for traditional blind systems which are difficult to clean and high risk in terms of harbouring dirt and bugs. The patient environment can be controlled precisely to the patients needs where privacy is available on demand whilst still allowing for 67% light transmission when switched to its “Off” state.