Located in the heart of University of Ottawa, the 15-story Vanier Hall functions as the new home of the large Faculty of Social Science and ‘stands tall’ as a living example of sustainable design boasting the intangibles of a rich and inspiring learning atmosphere, plus the measurable returns of energy saving technology.
From an exterior view, the green plant wall provides a striking contrast to the glass and steel structure. Once inside, visitors can fully appreciate a spectacular six-story-high feature – the largest living wall biofilter in North America at 1,370 square feet. In addition to the aesthetic impact, the biofilter is also part of the building’s sustainable design efforts.
Improves Air Quality and Building Performance
In simple terms, a Nedlaw Living Wall Biofilter is a working machine that harnesses nature’s remarkable ability to ‘eat’ pollutants. Contaminated indoor air is drawn through the biofilter where microorganisms on the root media consume airborne pollutants as food. This removal process cleans 80 – 85% of volatile organic compounds (VOCs) from the air, creating virtual outside air. The cleansed air is then re-circulated through the buidling’s HVAC system.
The ‘soft’ benefits of the living wall include dust control, sound abatement, white noise in the form of running water, and a noticeable ‘smell’ of fresh air.
In terms of improving building performance, the biofilter at Vanier Hall can provide 75 – 80% of the building’s fresh air intake requirement, which not only enhances air quality but also significantly improves energy performance by reducing the amount of air intake and, consequently, heating and cooling costs. Additionally, the wall provides all of the building’s humidity and no mechanical humidification is needed.
The living wall biofilter at Vanier Hall includes energy smart features designed to address certain energy lapses in traditional building systems. For example, water recycled from storm water runoff and HVAC condensation is used for the hydroponic plant wall. According to Dr. Alan Darlington (founder of Nedlaw Living Walls), “We’ve done a lot of work to streamline and make this as efficient as possible without losing the aesthetics of this system.”
Calculating the ROI of Living Wall Biofilters
In recent years, Nedlaw has completed numerous studies to show the effectiveness of contaminant removal from indoor air and has now quantified the return on investment based on energy savings. By replacing outdoor air that needs to be conditioned, a Nedlaw Living Wall Biofilter reduces a building’s energy needs. In general terms, a fully-integrated biofilter can reduce energy costs by up to 30%, because the biofilters provide clean air at a fraction of the cost of traditional systems.
In a recent study completed for a major international retail chain, it was determined that the proposed living wall biofilter could provide 100 litres per second of outside air – meaning the building needed to take in that much less outside air.
Using the biofilter as a source of clean air would reduce the energy consumption of the HVAC system by 32.5 GJ of energy for square metre of biofilter used. If properly integrated into the building (for example, naturally lit and connected directly to the HVAC), the biofilter would require as little as 0.4 GJ of energy per square metre per year. This gives a total annual energy savings of the system of 32.1 GJ. This is equivalent to roughly 5 barrels of oil or 1.6 tonnes of CO2 saved per square metre of biofilter.
For this study, it was determined that approximately 400 m2 of biofilter would be used. Assuming a combined energy cost for electricity and natural gas of $10 USD per GJ and if the biofilter is used to its maximum potential then the payback period for the capital cost associated with the biofilter could be less than 3 - 5 years.
PROJECT DETAILS
Location: University of Ottawa, Vanier Hall
Architect: Diamond Schmitt Architects, KWC Architects
Award of Excellence / Interior Green Wall - Green Roofs for Healthy Cities
LEED Gold Certified
MEDIA COVERAGE
University of Ottawa Tower Wins 3 Awards
ABOUT NEDLAW LIVING WALL BIOFILTERS
Related Stories
Green | Jun 29, 2015
Rick Fedrizzi to step down as USGBC’s Chief Executive next year
Fedrizzi will be leaving an organization that has grown to 76 chapters. The Washington, D.C.-based USGBC employs 260 people, and last year reported $74.1 million in revenue.
Green | Jun 26, 2015
Training center for electricians in L.A. focuses on net zero technologies
Construction has begun Los Angeles County on what is being called the nation’s largest Net Zero Plus retrofit of a commercial building.
![6 steps toward better water management [AIA course]](/sites/default/files/styles/list_big/public/VanDusen513.026_grassfix_stairfix.jpg?itok=K8oOWak9 "6 steps toward better water management [AIA course]")
Green | Jun 24, 2015
6 steps toward better water management [AIA course]
When it comes to water conservation, Building Teams tend to concentrate on water-efficient plumbing fixtures, irrigation controls, graywater capture, and ways to recycle condensate from air-conditioning systems. Yet many of the best opportunities for saving water begin with big-picture thinking in a project’s earliest phases.
Green | Jun 19, 2015
3 steps toward sustainable landscape architecture
A water-conscious, sustainable landscape is easily achievable, and the options for native and drought tolerant plants far exceed cacti and succulents, writes LPA's Richard Bienvenu.
Green | Jun 18, 2015
‘Solar water’ poised as global solution
Strapped with both water and energy crises, several island nations are investing in solar-powered water plants to attain more resilient water and power sources.
Lighting | Jun 17, 2015
LED lighting: Replaceable or disposable?
While first generation LED lighting fixtures were basically your standard incandescent or fluorescent housing retrofitted with LED light boards, manufacturers have now begun designing fixtures around the LEDs, writes SmithGroupJJR's Michael Nowicki.
High-rise Construction | Jun 15, 2015
Cornell Tech breaks ground on world's first Passive House residential high-rise
To achieve Passive House standards, Cornell Tech Residential will incorporate a number of sustainability-focused design elements. The façade, constructed of a prefabricated metal panel system, acts as a thermally insulated blanket wrapping the building structure.
Green | Jun 10, 2015
GBCI launches rating system for sustainable landscapes
The new SITES rating system can be applied to development projects located on sites with or without buildings, ranging from national parks to corporate campuses, streetscapes and homes, and much more.
Green | Jun 9, 2015
Fuel cell technology makes its way into energy generation
Demand for fuel cells, while modest, is growing, and cost savings are getting noticed.
