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Posted By Jonathan Hamburger,
Tuesday, October 12, 2021
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The wants and needs of building occupants continually change in the dynamic world of commercial real estate. Prior to the pandemic, tenants considering new office space looked carefully at price, location, accessibility, and ownership reputation, all of which represent the landlord’s traditional selling points.
During the pandemic and its aftermath, however, the focus has changed.
I routinely see many tenants and landlords more interested in indoor air quality. For instance, many clients will not even tour a property unless they are assured the air conditioning and heating systems are relatively new and well-maintained.
A related issue growing in importance is windows that save more energy and provide greater comfort. In fact, I’ve recently seen several landlords replace existing windows to gain these benefits, and building occupants want to know their workspace positively affects their health, wellbeing, and performance.
When landlords can add the benefits of windows that save energy, provide access to plenty of natural light, and help reduce carbon emissions to their buildings, it becomes yet another selling point for them – one that is likely to align with the values of today’s sustainability-conscious customers.
Jonathan I. Hamburger is Vice President of Advisory and Transaction Services at CBRE, a full-service real estate services and investment firm that operates in over 100 countries.
Tags:
buildings
commercial
energy efficiency
fenestration
green building
NFRC ratings
windows
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Posted By Duane Jonlin, Seattle Energy Code Advisor,
Monday, October 4, 2021
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Last week I saw a bumper sticker on a huge black SUV: “There’s more to life than gas mileage.” This is true. While fenestration is responsible for a great deal of energy use (solar gain in summer, heat loss in winter, air infiltration around frames), the daylight and connection to the outdoors that windows provide is essential for our health and well-being. Another thing that’s important for our health and well-being is mitigating the accelerating effects of climate change, and super-efficient buildings are the easiest way to do that. However, some commenters worry that constructing zero net energy buildings will mean living with “… tiny little windows, little windows so you can’t see out, can’t see the light,” to quote a recent president. To keep from being stuck with those “little tiny windows,” we all know some performance boosts like warm edge spacers, thermal breaks, and fourth-surface low-e coatings. Beyond that, talk of triple glazing always raises hackles, but alternative technologies are emerging. LBNL has developed a “thin triple,” inserting a very thin center pane in the thickness of a typical double-pane unit. Vacuum insulated glass and several varieties of dynamic glazing are emerging. While these newer options might be beyond typical project budgets today, glazing is inevitably going to get more complex, and it’s essential to have NFRC keeping track of how all these perform. For an entire century, architects have dreamed of buildings that are all glass, wall to wall and floor to ceiling, which turns out to be good for magazine covers but not much else. Strategic sizing and placement of glazing to optimize energy as well as comfort, daylight, and views for the occupants will require breaking out of the old all-glass mentality, which itself might require a new generation of architects. To quote Mark Frankel: “That which exists must be possible,” so if you want to see what the Zero Net Energy future looks like, start by checking out the hundreds of ZNE buildings that already exist, and then make your own even better.
Information on some of the new technologies may be found in the NFRC "Emerging Trends and Technology" webinar series. Visit the NFRC store for the titles and access to the webinars.
Tags:
architecture
building code
buildings
carbon footprint
carbon neutral
Emerging TrendsNFRC ratings
energy efficient
Fenestration
industry
Seattle
technologies
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Posted By Adriana Vargas, National Fenestration Rating Council,
Monday, June 7, 2021
Updated: Tuesday, June 8, 2021
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Since its initial release in 2009, the NGBS has offered builders and developers a comprehensive and rigorous residential green rating system for homes to be certified by an independent third-party. Home Innovation’s NGBS Green Certification Home Innovation Research Labs’ NGBS Green Certification program is the Number1 green certification for residential construction in the U.S. Nearly 300,000 homes have been NGBS Green Certified, and more than 160,000 homes and apartments are currently in-process. Builders and developers the NGBS because of its rigor, flexibility, and affordability. With required third-party testing and on-site verification by independent inspectors, NGBS Green Certification provides a reliable measure of building performance and quality. The NGBS Green program understands the pace of the construction industry, with quick response times and certification processing. The 2020 NGBS introduced changes to expand the rating system and Home Innovation’s NGBS Green certification program. These include: - new commercial space certification for mixed-use buildings;
- expanded scope for hotels, assisted living, dormitories, and buildings;
- new energy and water efficiency pathways;
- added flexibility for renovated buildings to demonstrate compliance; and
- a new streamlined certification pathway for single-family homes and townhomes.
Windows and Door Requirements in the 2020 NGBS
Window and door products can help a residential project earn up to 37 points under the Resource Efficiency chapter, if they are prefinished, contain recycled content, or are made of bio based products (e.g., certified solid wood, engineered wood). Under the Energy Efficiency practice area, window and door products can help buildings meet air leakage and -factor requirements. For many of these practices, an NFRC certificate that shows U-factor and solar heat gain coefficient (SHGC) values would be sufficient for an NGBS Green Verifier to award points. When installed in commercial portions of mixed-use buildings, well-sealed and gasketed doors may meet mandatory Indoor Air Quality requirements of the Commercial Spaces pathway. Green Certified Products
Building materials and furnishings that comply with the NGBS can earn third-party certification. Home Innovation’s NGBS Green Certified Product program bridges the gap between manufacturers that produce green products and the architects, builders, and designers who want to use them in homes. Manufacturers of certified products are eligible to leverage the third-party NGBS Green Certified mark in their marketing. Certified products are included in Home Innovations' online directory and promoted to the more than 16,000 NGBS Green Partners including builders, developers, architects, and third-party verifiers through its newsletter and website. Learn More
The 2020 NGBS changes provide a great opportunity for window and door manufacturers to train or re-train their team, vendors, or partners about the NGBS’ new rating system and certification opportunities. Join the upcoming NFRC webinar on June 9 to hear from Cindy Wasser, Home Innovation’s Senior Manager of Green Building Programs, to review the fenestration requirements within the 2020 NGBS, as well as and distinguished from competitors.
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Posted By Adriana Vargas, National Fenestration Rating Council,
Friday, February 26, 2021
Updated: Tuesday, March 2, 2021
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Author by: Lyndsay
Suchanek
Reynaers Aluminium develops and markets innovative and sustainable aluminum used in windows, doors, curtain walls, and sliding doors for both commercial and residential buildings. Reynaers is headquartered in Duffel, Belgium, with a U.S. location in Phoenix. Driven by energy, efficiency, and a willingness to take responsibility for the environment, we have selected the United Nation’s Sustainable Development Themes most relevant to our business: material use, energy, and health and safety. Reducing our impact on the environment and improving the legacy that we create is an essential part of our business strategy. Aluminum is a strong, light, and highly durable material that is 100 percent recyclable without loss of characteristics. Recycling consumes 95 percent less energy compared to producing primary aluminum; each ton of recycled aluminum avoids 9 tons of CO2 emissions. By working closely with our suppliers, Reynaers Aluminium can offer window and door frames with an average of 54 percent recycled aluminum, saving 58,000 tons of CO2.
Reynaers Aluminium analyzes the processes used in order to minimize waste. The most prevalent is the cut optimization in Reynapro, our software used to automate production. This means that our materials are cut to the exact length needed every time without any human error. Reynaers is involved in two packaging improvement projects: one for incoming aluminum profiles (started in 2019) and one for hardware (planned for 2021). Furthermore, the Reynaers facility in the U.S. reuses the packaging from Belgium that the materials arrive in when shipping the finished products.
Reynaers also invests in the certification of our systems. A Cradle2Cradle certificate is available for our most popular systems, signifying our products are designed with a positive impact on people and planet. Additionally, an increasing number of Environmental Product Declarations (EPD) are available. The EPDs cover the environmental impacts throughout the product life cycle and allow for efficiency during the design process. As of 2021, fourteen EPDs have been developed for our various windows, doors, curtain walls, and sliding systems.
Energy is a large component of sustainable solutions. Reynaers Aluminium combats global warming with our energy-efficient products and systems that make buildings more energy efficient. Our products increase insulation and airtightness to reduce heat loss. The Passive House component is a widely-known certificate to prove the energy efficiency of windows and doors, and we have multiple products that meet those high requirements. Also, all of the products that we offer in the U.S. are tested and certified per NFRC requirements.
Globally, buildings are responsible for a large share of energy, electricity, water, and materials consumption. The building sector has the greatest potential to deliver significant cuts in emissions at little or no cost. Existing buildings are responsible for more than 40 percent of the total primary energy consumption and 24 percent of global carbon dioxide emissions. We help buildings achieve various sustainable building certifications such as the Building Research Establishment Environmental Assessment Method or BREEAM, the U.S. Green Building Council’s LEED, and the International Well Building Institute’s WELL. Our products are specifically designed for a long lifespan with low maintenance; aluminum is not affected by UV rays or moisture and doesn’t corrode or rot. Moreover, we use high-quality surface treatment on our profiles: powder coat or anodization. Powder coating is preferable over wet painting because there are no solvents or Volatile Organic Compounds (VOCs) – meaning there is no damage to the environment. Ultimately, powder coat is not hazardous to its surroundings or the health of people who work with it. Also, it can be gathered and reused, which increases its eco-friendliness.
Along with the material and energy, Reynaers also focuses on the safety and health of people. We guarantee a maximum safety level of buildings and promote safe working conditions for our employees. Reynaers continues to develop safety solutions for our products: earthquake resistance, bomb blast, and hurricane proof. For our employees, we focus on accident-free days, an ergonomic work environment, safety training, and the provision of personal protective equipment.
Reynaers Aluminium’s mission is to “increase the value of buildings and to enhance the living and working environment of people worldwide. We achieve this together with our partners by providing innovative and sustainable aluminum solutions for the building envelope.” In short, sustainability is at the core of our company. We look at sustainability wholistically, combining the focus on material use, safety and health, and energy, while also sharing our knowledge and supporting other’s sustainable building projects.
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Posted By Adriana Vargas, National Fenestration Rating Council,
Tuesday, February 2, 2021
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Duane Jonlin is Seattle’s Energy Code Advisor, and his job is to push change on a building industry famously resistant to anything that even smells like it. Jonlin’s a winner in almost all these building-code battles thanks to a not-so-secret weapon: he works for politicians who believe in energy efficiency. “Across the country the energy code is a flashpoint that draws intense antagonism,” Jonlin said. “But if you have top-down support, you can use it to drive innovation.” It’s important to consider windows, doors, and skylights because good choices in new structures make efficient energy use possible, Jonlin said. Efficiency is important, he said, because it is increasingly the cheapest and least-risky way to meet future growth in demand for power in his part of the country – Jonlin cited a forecasting exercise from the Northwest Power and Conservation Council, a regional energy-planning body for Idaho, Montana, Oregon, and Washington, which considered numerous future scenarios, and found that in 90 percent of them, there would be no need to build new power plants for a decade if efficiency measures were used instead. The report found in more than 50 percent of situations an efficiency drive would mean no new power plants required to 2040. Jonlin’s political bosses are convinced too. One example of Seattle’s commitment to efficiency, Jonlin says, is that the city requires windows and glass for storefronts and the exteriors of high-rise buildings to be rated by the National Fenestration Rating Council (NFRC) and enforces this requirement. At the state level, Washington passed a law in 2009 mandating that by the year 2030 new buildings offer an energy savings of 70 percent compared with 2006 levels. The law mandates that standards improve gradually with every update to Seattle’s and Washington’s building codes, to ensure steady progress toward the 2030 deadline. As more states, cities, and communities enact emissions’ reduction targets, the sense of possibility Jonlin enjoys will go from notable to normal, and his experience will become more relevant for code officials across the country. Washington’s state legislature enacted its efficiency law in response to the American Institute of Architects’ Architecture 2030 challenge, which according to the Architecture 2030 website, only California and Washington have adopted as mandatory for all buildings. Some states have made it voluntary, but Jonlin said that’s not enough. “People say you just need the right way to encourage the construction industry, but that’s a happy fantasy,” Jonlin said. “The market can adjust and innovate, but it only happens on that magical level when it’s absolutely required.” When he meets resistance, Jonlin said he reminds product manufacturers and builders that he’s merely enforcing a law. And, often enough, he’s rewarded with innovation. In the last few code updates, he said, he’s pushed to make windows more efficient by boosting the standard for how much heat they must block from escaping a building’s interior. He thought he could trigger a move from double-pane windows to triple-pane ones, which insulate better but are more expensive to install because they are thicker. But it hasn’t happened. “The industry just keeps innovating better double-paned glass.” Examples of that new technology include ``thin triples,’’ which were developed together with the U.S. Department of Energy’s Lawrence Berkeley National Laboratory. They feature a thin layer of glass similar to the material used for computer screens between the two panes. That avoids the thickness problem. In large spaces such as airports and skyscraper lobbies, using thin triples eliminates the need for heating along the perimeter. The knowledge that innovation replaces resistance is something Jonlin said he learned from his old boss and mentor, John Hogan, who 20 years ago mandated all new windows have a low-emissions coating on them that blocks heat from entering homes without also blocking natural light. “Builders reacted like the world was going to end,” Jonlin recalled. “But instead they adjusted, and we got better buildings.” KEY TAKEAWAYS -Energy efficiency can be a cheaper, faster and less risky way to meet future demand for electricity -Making efficiency measures mandatory instead of voluntary speeds up the pace of innovation -Pushing standards higher in Seattle led to better window products without boosting installation costs |
Tags:
buildings
energy efficiency
energy planning
fenestration
glass
innovation
NFRC
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