We’re committed to our role in securing a bright future for the next generation and stand alongside our industry partners to advocate for the urgent change needed to get there. This change requires constant and intentional learning by all parties involved–and transparency of lessons learned and impact achieved to help us get to smarter and more sustainable solutions faster. Our High-Performance Hot List leverages market research and project expertise for a holistic overview of the major high-performance strategies driving our collective response to climate change in hopes that today’s firsts become tomorrow’s standard. So read up, meet up, and let’s do this–together!
Stay tuned for latest info and efforts changing the way we work for the health of our people and planet. Want to learn more? Connect with us today.
Passive House is a thorough and comprehensive certification process designed to reduce a building’s energy consumption by an average of 40-60% over its lifetime. Contrary to what the name suggests, Passive House isn’t just for single-family homes and offers a greater potential for energy reduction in large multifamily and commercial projects. Certified Passive House Consultant (CPHC®) Kate Braswell addresses the certification’s biggest misconceptions and what developers interested in leveraging its principles should consider instead.
Having seen its potential for the environment and our client’s bottom line, we’re eager to mainstream mass timber in the building industry. Senior Designers Tom Corrado and John Lang describe what’s next for this sustainable material and why local government is crucial to securing its future.
Tour 80 M Street with Senior Designer Tom Corrado for insight into the project’s design and development process. Watch as Tom describes the deciding factor that ultimately led to creating Washington, DC’s first mass timber office renovation.
A net zero energy (NZE) building maximizes energy efficiency, consuming only as much as energy as it produces through renewable sources. To deliver the first net zero energy renovation in the District, Senior Designer and Director of Sustainability and High-Performance Design Gui Almeida worked with the American Geophysical Union project team to test dozens of sustainable strategies before landing on a custom mix, ideal for the headquarter’s urban environment.
Embodied carbon accounts for a significant portion of the building industry’s greenhouse gas emissions yet remains an afterthought in most climate action discussions. As building policy and code evolve to include more stringent sustainability requirements, our partners share what the industry can do to move the needle towards carbon neutrality and net zero carbon projects today.
It’s generally assumed low carbon materials, including alternatives to steel and concrete, come at a premium–but we weren’t convinced. Design Director Elba Morales and Senior Project Architect Kerron Miller set out to test the true cost of embodied carbon on a real project site in Washington, DC. What they discovered has challenged their approach to material selection entirely.
Passive House is a comprehensive certification process designed to significantly reduce a building’s energy consumption over its lifetime by an average of 40-60%. Detailed modeling of energy gains and losses takes into account a project’s location and climate, envelope area, occupant density, and other factors to determine the best strategy to achieve PHIUS certification goals.
Though the number of Passive House projects continues to rise, the certification process is not yet considered mainstream. Certified Passive House Consultant (CPHC®) and Associate Kate Braswell is on a mission to change that. In honor of Earth Month, Kate shares five common myths about Passive House and what to consider instead before pursuing PHIUS certification on your next project.
MYTH #1: Passive House is just for single-family homes
The term Passive House is actually a misnomer. While the certification can be applied to single-family homes (and is all over the world), it has greater potential for energy reduction in larger commercial and multifamily projects—even high-rises.
In fact, Passive House strategies are very well suited to small-to-medium density multifamily projects, with wood-frame buildings offering a unique advantage over their more thermally conductive steel or concrete counterparts. Likewise, the utility structure of affordable housing projects lends itself well to centralized systems with an efficient distribution. Many jurisdictions have gained a lot of traction by offering tax credits or similar subsidized funding strategies for sustainable and equitable housing.
MYTH #2: Passive House only benefits the environment
Stringent construction and quality assurance processes are inherent to Passive House certification. This includes a precise combination of envelope detailing and ventilation strategies to reduce the need for extraneous heating and cooling products while improving durability. While this might present a challenge for the architectural team (one we’re up to!), it creates a series of unexpected benefits for building occupants, including premium indoor air quality, unmatched comfort regardless of exterior conditions, and more predictable utility costs.
MYTH #3: It’s more expensive than typical building processes
The cost of Passive House has reduced significantly thanks to a recent expansion in market adoption and will continue on that path as more owners and developers adopt it for their buildings. Furthermore, market demand for increased energy-efficient window and door options is driving down cost premiums. To date, the overall cost increase in multifamily is only 0-3% over a building built to Energy Star baseline.
Passive House design principles—including an airtight envelope and a balanced heat-and-moisture recovery system—produce a durable building that’s resilient to extreme weather conditions. Subsequently, Passive House buildings require minimal long-term maintenance and system replacements, providing owners with impactful cost savings over time.
MYTH #4: Passive House and Net Zero Energy are the same thing
Net Zero Energy is more of an umbrella term used to describe the balance of a building’s energy use. Passive building principles focus on reducing operational energy through envelope and ventilation strategies at the building scale. From there, the road to zero is much shorter. In fact, PHIUS now has a PHIUS Zero certification to provide a roadmap for energy independence.
MYTH #5: Passive House certification is too complicated
Well, this isn’t exactly a misconception. As with any new endeavor, achieving goals is best done when all parties are present early. The first step is to engage a Certified Passive House Consultant (like Kate!) to act as the tour guide and liaison with PHIUS throughout the design and construction process. From there, getting all parties—the owner, architect, engineers, and general contractor—to align and test strategies together is key to a cohesive process from design to delivery.
INTERESTED IN PURSUING PASSIVE HOUSE CERTIFICATION FOR YOUR NEXT PROJECT?CONNECT WITH KATE.
High-performance housing is on the rise and, with it, an overwhelming number of green building certification programs designed to target specific standards and sustainability measures. In addition to the obvious environmental benefits, for the real estate community, the strategies outlined in these programs have more tangible advantages too. Commitments to green practices can differentiate properties from a design perspective and establish a market edge, resulting in less long-term investor risk. Beyond fulfilling code requirements, pursuing certification status substantiates mission and brand values, communicating an authentic culture to stakeholders. Finally, they deliver residents and tenants with a healthy interior environment, one that positively impacts their overall happiness and wellbeing – essential qualities in the post-pandemic marketplace.
So, whether it’s meeting local sustainability guidelines, reducing energy consumption (and cost), or prioritizing the health of occupants, there’s a program to meet your building’s needs. Here’s a rundown of the basics to get you started.
Run by the U.S. Environmental Protection Agency and U.S. Department of Energy, the Energy Star certification program focuses on energy efficiency and reducing waste in buildings. The government-backed program offers consumers and building-owners a catalog of information on cost-effective products, services, and tools that help measure and improve building performance. Energy Star certified buildings feature high-efficiency heating and cooling systems, complete thermal enclosures, water protection systems, and efficient lighting and appliances that provide cost savings to building owners and residents alike.
Originally created by the U.S. Centers for Disease Control (CDC) and Prevention and U.S. General Services Administration, Fitwel is a leading certification system that integrates scientific and sustainable solutions into the design process to promote health and wellbeing in buildings and communities. The Fitwel Standard is a tailored scorecard that provides a path towards certification status for existing and new buildings and sites. Projects can achieve three levels of Fitwel status based on a point system addressing Fitwel’s Seven Health Impact Categories—including, Impacts Surrounding Community Health, Supports Social Equity for Vulnerable Populations, Enhances Access to Health Foods, etc. Points are awarded according to which Fitwel strategies are applied. Strategies coincide with the Health Impact Categories and are categorized into 12 sections from location and outdoor space to water supply and vending machines/snack bars. The program is designed to be user-friendly and customizable with all strategies voluntary and no prerequisites required for eligibility.
Recognized worldwide, LEED is one of the most commonly used programs, providing a comprehensive framework for achieving healthy, highly efficient, and cost-saving green buildings. LEED places emphasis on the end-user and urges the building community to focus on their health and safety as much as improving construction practices, efficiency, and material use. A flexible set of metrics allow all building types and phases, including interior fit outs and core and shell, to target various levels of certification status depending on energy and water usage, waste, maintenance, air quality, and comfort. Additionally, LEED engages occupants to contribute and decrease consumption. For example, encouraging they take the stairs over using the elevator by placing them in a convenient location or accommodating bikers with storage options to reduce the number of residents commuting by car. Each LEED level – from certified to platinum – makes greater improvements to promote building, occupant, and environmental health.
The RELi rating system and leadership standard takes a proactive and holistic approach to resilient design, specifically in relation to the increased frequency of natural disasters and changes in weather as a result of climate change. Used by companies, developers, city planners, architects, bond insurers and more, RELi involves the entire community to assess and adapt vulnerable structures, taking preventative measures to ensure building’s can physically withstand natural disasters. In addition to mitigating hazards to buildings, the RELi system takes the preparedness of entire communities into account. Success is measured according to how quickly they can recover following unplanned events (including economic disruption and resource depletion). From preparing emergency supplies and acquiring back-up renewable-powered generators to thoughtful site selection and durability, RELi outlines the necessary steps building owners and leaders can take to future-proof communities and improve quality of life in a changing world.
WELL is a globally recognized performance-based system for measuring, certifying, and monitoring features of the built environment that impact human health and well-being. WELL identifies 100 performance metrics, design strategies, and policies that can be implemented by owners, designers, engineers, contractors, users, and operators of a building. Consisting of eight categories—air, water, nourishment, light, fitness, comfort, and mind—the WELL Building Standard bridges the gap between human and environmental health, recognizing that a strategy benefiting one will likely benefit the other. For example, increasing access to natural sunlight reduces energy consumption while improving productivity, mood levels, and circadian rhythm. While similar to FitWel, WELL places greater emphasis on the built environment and how it impacts human quality of life. Unlike Fitwel, to be eligible for WELL certification, projects must fulfill a set of prerequisites including several addressing air quality and filtration, water quality, ergonomics, and accessibility. Additionally, the documentation process is more rigorous with several strategies requiring applicants meet target measurements and produce data to support claims. Finally, to achieve WELL certification, the space must undergo an on-site assessment and performance testing by a third party.
The Passive House Institute US., Inc. (PHIUS) is a nonprofit 501(c)(3) organization committed to making high-performance passive building the mainstream market standard. Its certification program, PHIUS+ is the leading program in North America and the only one that combines a thorough passive house design verification protocol with a stringent Quality Assurance/Quality Control program performed onsite. The high-performance building standard challenges the industry to construct buildings that can maintain a comfortable indoor environment with very low operating energy. Certification indicates an energy efficient building design modeled using location-specific climate data and occupant behavior based on three pillars: limits on heating/cooling loads, limits on source energy use, required air-tightness and other prescriptive requirements. The latest version accounts for how occupant density and envelope-to-floor-area-ratio influence heating and cooling load limits. While the program is stringent and requires precertification review as well as third-party on-site quality assurance checks, PHIUS+ is considered a legitimate path to achieving net zero energy and offers tremendous long-term benefits to the occupant and owner. Its air-tight construction reduces moisture and mold issues, while heat recovery ventilation systems improve indoor air quality, while no thermal bridges make for a comfortable interior environment.
Developed by the International Living Future Institute, the Living Building Challenge is a performance standard for buildings that uses a regenerative design framework focused on maximizing positive impacts specific to a project’s place, community, and culture. Described as regenerative and self-sufficient, the ideal living building is informed by its bioregion’s characteristics, generates all of its own energy through renewable sources, captures and treats all of its water, and operates efficiently while being aesthetically beautiful. The Living Building Standard is continuously informed by current realities and project work as Institute staff monitor and make adjustments based on changes in the field and market. The Challenge assumes typical best practices are currently instituted for a project to begin the certification process. To achieve certification, projects must address aspects of all seven performance categories, known as Petals, which are subdivided into twenty Imperatives, including energy and carbon reduction, net positive waste, education and inspiration, access to nature, etc. Alternatively, projects can achieve Petal Certification for completing all imperatives under a specific Petal or category.
Developed by the U.S. Green Building Council (USGBC),LEED Zero moves beyond LEED certification to provide a framework for high-performance buildings and spaces and reduced greenhouse gas emissions through a comprehensive set of strategies impacting land, waste, materials, and more. There are four categories of LEED Zero including Carbon, Energy, Water, and Waste. To pursue certification, projects must be LEED certified under a BD+C or O+M rating system. Under USGBC, LEED Zero Carbon certification recognizes buildings operating with net zero carbon emissions over the course of the past year. LEED Zero Energy recognizes buildings or spaces that achieve a source energy use balance of zero over a period of 12 months. LEED Zero Water recognizes buildings that achieve a potable water use balance of zero over a period of 12 months.LEED Zero Waste recognizes buildings that achieve GBCI’s TRUE Zero Waste certification at the Platinum level.
Interested in pursuing green building certification for your space? Contact Laura Roth, Director of Business Development to speak with our high performance design experts.