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WELL Annual Green Supplement 2016-2017
Maugel Completes Design of Laddawn HQ Laddawn gathering area with rock wall / © Keitaro Yoshioka /
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INDUSTRY EXPERT ARTICLES
Heidi Jandris
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Jennifer Wagner
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Jennifer Taranto
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Daniel Whittet
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Victoria Rybl
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Ian Robinson
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Leslie DelleFave
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Annual Green Supplement
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Publisher’s Message
by Anastasia Barnes According to an article published on greenbiz.com, the world population will be at nine billion people by 2050, with 70% of those people living in urban areas. The article also suggest that “sustainable transformation is possible with two things; the leadership of city governments and the innovation and delivery capacity of the private sector.” 70% is a lot for any city to handle. So, how do we prepare now? That’s what this year’s GREEN supplement is all about, new technology and methods to sustain our ever evolving cities. HP highlights some of the companies (and professionals) behind the innovation driving sustainability. For example, utilizing a system that can handle a building’s electrical distribution overload while saving the owner/ developer money and energy… we’ve got that covered! Check out page 12.
USGBC MA Events for 2016-17
Companies like Advanced Energy Intelligence offer cities, college campuses and property owners the ability to track energy usage, eventually allowing the owner/facility manager to understand how, when and where the energy is being used or wasted. Check out the energy map of Boston on page 11. Most of us know what L.E.E.D. certified means… but what about WELL certified? Jennifer Taranto of StructureTone explains it nicely on page 9. You’ll also read about a corporate campus that has seven LEED gold buildings, an elementary school that is considered a “vision leader” and a design firm such as Maugel Architects, who transformed Laddawn Headquarters into a creative, functional space while making sustainability a priority. Enjoy the supplement. Feel free to share any comments or thoughts with me at Anastasia@high-profile.com. Thank you for reading,
Anastasia Barnes
Culture. Driven. Design
DYER BROWN ARCHITECTS
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2016 has been an exciting year for green building trends. Massachusetts has proven once again why this state is one of the leaders in the country for sustainability and healthy design. We’re all so proud to be a part of this movement, and we have so much more planned for 2017 - all for MORE GREEN BUILDINGS! In October, we held the Healthy Materials Summit at Google’s Kendall Square HQ in Cambridge, MA. This unique event featured an expert panel of sustainability experts who proved that a path to a healthier tomorrow can be through the physical building blocks of a new design. Keep an eye out for more advocacy and events related to sustainable design through materials and new building trends! Coming up in January is our Annual General Meeting! We’re expecting some huge things in 2017 and we have a lot to be excited for. We will be
recognizing green building achievements, awarding volunteers, networking, and of course, having fun! We hope to see you at our annual event January 26th. The biggest thing to keep an eye out for is Greenbuild 2017 – which will be in Boston next year! We’re ALL-IN for this monumental event, and we’re already celebrating. It’s going to be a WICKED year coming up! Join us on our Road to Greenbuild over the next 12 months.
Kern Center to be Self-Sustaining Designed by Bruner/Cott Amherst, MA – The recently completed $7.1 million, 17,000sf R.W. Kern Center at Hampshire College is about much more than making a good impression on prospective students. Designed by Bruner/ Cott & Associates to be entirely selfsustaining and meet the Living Status of the Living Building Challenge, the center aims to make a lasting impression on all who enter by demonstrating Hampshire’s commitment to a sustainable future and inspiring the next generation of leaders in environmentally conscious practices. The building is sited to present itself to visitors upon arrival to Hampshire’s campus and serves as a welcome center for staff, students, and their families. The central floor-to-ceiling glass pavilion maintains a connection to the outdoors and serves as a hub of campus activity with a common area, community living room, and café on the ground floor and gallery above. Two stone-clad wings house admissions and financial aid offices and classrooms with views of the amphitheater, rainwater harvesting reservoirs, solar farm, and wildflower meadow. With a solar canopy to generate electricity, the rainwater harvesting system for net-zero water, and open, exposed walls in the mechanical rooms, the building itself serves as a learning and teaching laboratory. Daily tours and signage give students and visitors the opportunity to participate in collecting and analyzing data regarding green building practices. New classes are built around the teaching opportunities the living building makes available, inspiring the kind of inquiry and stewardship
R.W. Kern Center / © Robert Benson Photography
embodied in Hampshire’s philosophy of contributing to knowledge, justice, and positive change in the world. Selected from over 40 entries in a design competition, the plan rerouted a corporate campus drive, replaced it with the wildflower meadow, and created a human-centered landscape with the Kern Center as the new heart of the campus. Using local stone and wood, the building emphasizes the importance of the relationship between indoors, and the plaza and landscaping around the building encourages people to enjoy being outside and around the building, not just inside it. All building materials are Red List compliant, avoiding products made with toxic chemicals, to make the center the healthiest possible working and learning environment for students and staff. The project team included: construction manager, Wright Builders; electrical engineer, RW Sullivan; geotechnical engineer, O’Reilly, Talbot & Okun Associates; landscape architect, Richard Burke Associates; lighting designer, Lewis Lighting Design; mechanical engineer, Kohler & Lewis Engineers; and structural engineer, Foley Buhl Roberts & Associates.
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EASTERN NEW ENGLAND SETS ITS SITES ON QUALITY AND SAFETY IN ELECTRICAL AND TELECOM CONSTRUCTION. NECA and IBEW set the standard for excellence in electrical, telecom, and renewable energy projects throughout Eastern New England.
Boston Convention and Exhibition Center
MFA Boston, The Art of the Americas Wing
Center for Life Science, Boston, MA
New Balance World Headquarters, Boston, MA
Leonard P. Zakim Bridge
JATC Training Center/Wind Turbine, Boston, MA
In the world of construction, quality and safety are critical to every project. Which is why leading architects, general contractors, building owners, and facility managers throughout Eastern New England rely on the skilled union electricians of Local 103 of the International Brotherhood of Electrical Workers (IBEW) and the professional electrical contractors of the Greater Boston Chapter of the National
Electrical Contractors Association (NECA). For more than a century, IBEW and NECA have literally helped build our region. From our most cherished historical sites and renowned educational institutions, to major transportation projects, leading technology companies, community schools, and libraries, our landmarks shed light on a century of electrical construction unsurpassed in quality.
Take a close look at just a few of the recently completed projects by NECA Greater Boston Chapter members. It will tell you where to turn for the highest standards in electrical, telecom, and renewable energy construction. Rely on the power of quality electrical work. Call 877-NECA-IBEW for a complete directory of NECA Greater Boston Chapter Members, or visit us at www.bostonneca.org
The future of renewable energy and green buildings is here.
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(877)NECA-IBEW (632-2423)
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Annual Green Supplement
December 2016
UConn’s NextGen Hall Cultivates Innovation Storrs, CT – Next Generation Connecticut is a $1.5 billion initiative to increase educational opportunities, research, and innovation in the science, technology, engineering, and math (STEM) disciplines at UConn over the next 10 years. In addition to being the first oncampus housing facility built in 13 years, NextGen Hall is the first project that was awarded and completed under the Next Generation Connecticut program. The building was designed to foster academic success, innovation, and community building, including the Learning Community Innovation Zone makerspace. The new $105-million complex, which opened in August 2016, is a 210,000sf, eight-story, 727 bed residence hall with seminar rooms and an innovation zone laboratory for students’ use. The project was designed for LEED Silver certification. BVH Integrated Services, P.C. served as the design engineer during the bridging documents phase, and continued on throughout the project as UConn’s design consultant during the completion of the design and the construction phases, which included commissioning services for the project. Newman Architects was the bridging design architect and the university’s design consultant during the construction phase, and KBE Building Corporation served as
UConn Storrs NextGen Hall / © Robert Benson Photography
the design-builder and constructor for the project. The building is heated by three highefficiency gas-fired condensing boilers. The terminal equipment was designed to operate at lower water temperatures, in order for the boilers to operate in condensing mode, and at their highest efficiency throughout the heating season. Cooling is provided by two water-cooled centrifugal chillers, with an open cooling tower on the roof. The cooling tower sumps are located inside the building, so that condenser water is available immedi-
ately when needed during swing seasons. The residence rooms are heated and cooled by two-pipe valence units. These are units that use natural convection to quietly heat and cool the spaces without needing electric fans or filters to move the air. In addition, each room has an operable window. When the windows are opened, the cooling is disabled. A signal is sent to the building management system through a contact on the window, so the rooms can be monitored and protected from freezing if a window is inadvertently left open in the winter. Reclaimed water from the campus
central reclaimed water facility plant is being used for flushing of water closets and for make-up water for the cooling tower. The system is estimated to save about 19,000 gallons per day of water during peak use days. With the reclaimed water use, low-flow plumbing fixtures, and no permanent irrigation system for plantings, water use will be reduced 50% from the LEED baseline. Domestic hot water is produced by 45 roof-mounted solar collectors that preheat approximately 2,850 gallons of hot water storage for peak periods. Supplemental heat is provided only as needed by seven high efficiency condensing instantaneous gas-fired water heaters. The thermal solar collectors are expected to provide up to about 30% of the building’s domestic hot water. The building envelope includes high efficiency glazing. The building was scanned with infra-red cameras and spray water tested to correct potential water/air leakage and minimize infiltration. Other energy saving features include energy recovery wheels on the exhaust systems, LED lighting, a partial green roof, and dashboard displays to promote energy savings. The projected energy savings for this building is 29% above the LEED/ASHRAE baseline.
From civil, structural, mechanical, electrical, plumbing, and fire protection engineering services to sustainable design, commissioning, and technology design, BVH integrates people and disciplines together. As thousands of successful buildings, structures, and complex campuses show, BVH brings it all together to create a better project.
Hartford + Boston | 860.286.9171 | www.bvhis.com | twitter.com/bvhis www.high-profile.com
Annual Green Supplement
December 2016
MMA Receives LEED PLatinum
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SLAM Ranks No. 26 For Sustainability in Architect 50
Massachusetts Maritime Academy exterior
Buzzards Bay, MA – W.T. Rich Company, Inc. recently announced that the Massachusetts Maritime Academy (MMA) Modernization project received LEED Platinum certification from the U.S. Green Building Council. W.T. Rich constructed at the Mass Maritime Academy an $18.7 million, 43,000sf library, known as the American Bureau of Shipping Information Commons, with unique architectural features including limestone veneer, glass flooring at stair landings, a rooftop skylight that runs the entire length of the building, a large rotunda encased in architectural woodwork, a rooftop solar photovoltaic array, and much more. The project also includes over 50 geothermal wells for heating and air conditioning. The Commonwealth of Massachusetts Division of Capital Asset Manage-
ment and Maintenance (DCAMM) funded and managed the project, and Perry Dean Rogers was the architect who designed the American Bureau of Shipping Information Commons building. A large number of sustainable design features were evaluated and incorporated into the final design, including water conservation, light sensors, chilled beams, geothermal energy system, radiant floor heating, rapidly renewable materials, and materials with a high recycled content. “W.T. Rich Company is very proud of the partnership we had with the Academy, DCAMM, and Perry Dean Rogers in achieving this goal. Our firm is committed to sustainable design and construction, and the achievement of LEED Platinum is a great milestone signifying that commitment,” said Jonathan Rich, CEO of W.T. Rich Company, Inc.
Emory University, Rollins School of Public Health, LEED Gold / © Robert Benson Photography
Glastonbury, CT – The S/L/A/M Collaborative (SLAM) has ranked 26th for the sustainability category in Architect Magazine’s 2016 Architect 50. Featuring a staff of over 30 LEED Accredited Professionals, SLAM has completed over $1 billion in LEED/sustainable projects, with 22 projects earning LEED certification and 15 projects currently in the certification process. Notable LEED-certified projects include the LEED Gold-certified Duke
University Trent Semans Center for Health Education; the LEED Gold-certified ESPN “KidsCenter” Childcare Facility; Emory University’s LEED Silvercertified Medical Education Building, Candler Library, and Rollins School of Public Health; and the LEED Silvercertified UTC/Pratt & Whitney Building G. The new Mid-Campus Residence Hall at Central Connecticut State University has also recently received LEED Silver certification.
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December 2016
Concrete Masonry Is Sustainable ground finishes are subtler, and split units give a rugged “rock-like” feel. With a wide range of materials, textures, and colors available, the design possibilities of CMU are endless. What makes masonry sustainable?
by Heidi Jandris and Jennifer Wagner
Editor’s Note: This text is part one of a two-part series article. Most designers know that masonry is inherently a green building material. Masonry has many attributes that contribute to its sustainability including protection against rot, mold, and termites. Greater resilience translates into lower maintenance costs and reduced use of virgin materials. Masonry’s strength and ability to withstand severe weather and fire are helping to meet new demands for climate-resistant building materials. Moreover, concrete masonry’s (CMU) thermal mass benefits can reduce energy bills and improve thermal comfort in buildings. CMU has come a long way, since the term “cinder block” was coined, and there are many aesthetic options for both structural CMU and non-structural veneers. A polished CMU gives a contemporary, sleek look, where matte
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Masonry is strong, resilient, durable, sound-reducing, and beautiful. One of the most important sustainable ability to absorb and store heat. In the northeast, the best way to utilize thermal mass is to help hold the temperature of conditioned spaces. The energy code recognizes the benefits of thermal mass. In the 2012
IECC, for climate zone 5, the prescriptive requirement for a mass wall is a U-factor of 0.078 (R-11.4). Comparing this to a wood framed assembly, which has a U-factor requirement of 0.064 (R-20), or to a metal building with a U-factor requirement of 0.052 (R-26), utilizing thermal mass reduces the amount of wall insulation required. Methods to improve masonry’s sustainability
CMU has a lower cement content than other concrete, since it gains additional strength through vibration and compaction. In addition, the environmental footprint can be reduced further using supplementary cementitious materials, or SCMs. One commonly used SCM in the northeast is slag, a byproduct from steel production.
design, which has helped identify potential inefficiencies in their operations.
The next frontier in sustainability: sequestered CO2
In March 2015, Jandris installed CarbonCure’s CO2 recycling technology into their Gardner, MA plant. Jandris is among 36 concrete producers across Canada and the US that is using this innovative technology to make better building products. CarbonCure’s technology recycles CO2 from smokestacks and injects it into masonry during mixing, where it gets converted
Jandris embraces sustainability
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Description of the CarbonCure process where calcium from the cement reacts with carbonate from the CO2 to form solid calcium carbonate (similar to limestone).
Many CMU producers are looking for ways to go above and beyond designer’s expectations by introducing new elements of sustainability into their manufacturing practices. Committed to taking a leadership role, Jandris has made several changes to their manufacturing process over the last decade, which has improved plant efficiency and lowered their environmental impact. They utilize use thermal mass to cool the facility, have lowered their kiln oil consumption by half and introduced a closed loop system in their wet finishing facility to conserve water. Since installing solar panels, they have offset CO2 emissions by 949 tons. Jandris has also upgraded their manufacturing process to consume less Portland cement while maintaining required CMU strengths, further lowering CO2 emissions. Jandris has also invested in developing 3rd party verified EPDs for each mix
A. Jandris & Sons also offers polished, ground, and split units which appeal to a variety of architectural tastes
into solid calcium carbonate. This means the CO2 is chemically converted into a stone within the masonry, and will never be released. The resulting masonry products have a lower carbon footprint, and are now being specified by leading designers in Massachusetts. What does this mean for my projects?
CMU is a sustainable building material that has endless design possibilities. Look for the second article in this two-part series which will dive into how CMU can contribute to points in the new LEED v4 framework. Heidi Jandris, LEED Green Associate, provides technical and design services for Jandris Inc. in Massachusetts. Jennifer Wagner, LEED Green Associate and Vice President of Sustainability at CarbonCure Technologies in Halifax, Canada.
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Recycling CO2 to make simply better concrete masonry.
“We took a deep look at our process. This enabled us to improve efficiency in several areas, lowering our impact on the environment. We are very excited to add CarbonCure Technology, jumping off into the cutting edge world of concrete and carbon sequestration.” - Heidi Jandris Co-Owner/Technical Services A. Jandris & Sons, Inc.
“We encourage designers and developers to consider the health and environmental implications of their material selection. Innovations such as CarbonCure provide an option to select concrete products with a reduced carbon footprint.” - Paula McEvoy, Associate Principal Perkins+Will
A. JANDRIS & SONS, INC. http://www.ajandris.com 978-632-0089
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December 2016
Maugel Completes Design of Laddawn Headquarters
Cafe / © Keitaro Yoshioka
Devens, MA – Maugel Architects announced the completion of the headquarters expansion for Laddawn, Inc., a manufacturer of plastic and film for packaging applications. Located at 155 Jackson Road in Devens, Laddawn’s original space, also designed by Maugel, was an adaptive reuse of the former Devens Library. Initial expansion expectations were for a small addition, but with some creative design and strategic site planning, Maugel was able to propose a 23,000sf addition which nearly tripled the size of the existing structure.Laddawn’s was able to maintain full operations throughout the construction process. Working closely with the owner, Ladd Lavallee, the Maugel team designed an innovative interpretation of the workplace. The new design incorporates an organicindustrial concept featuring a modern façade treatment and interior quality-of-
Treadmill workstations / © Keitaro Yoshioka
life amenities. The aesthetic is achieved through a combination of materials and elements, such as slate tile, polished concrete floors, exposed steel structure, industrial-style pendants, cork wall paper and reclaimed wood. The design brings the outside in by framing expansive views of the surrounding landscape and featuring a climbing rock wall with faux grass as a main design feature. The interior design replaced traditional office layouts with creative and fun common spaces such as standing desks, treadmill and balance ball workstation areas, a café-style gathering space, and lounge areas with midcentury-style furnishings. The dramatic new exterior features a phenolic panel façade with asymmetric windows and a metal panel frame, soaring glass curtain walls with aluminum sun shades, and a grand triangular outdoor patio with
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Lounge area / © Keitaro Yoshioka
views of the surrounding context. Sustainability was a key design consideration for the project. Particular attention was given to conserve resources and reduce the environmental impact. Recyclable building materials and low-emitting paints, adhesives and flooring were a top priority. To conserve energy, walls of windows provide abundant daylight to the open offices areas, break rooms, climbing wall area and lobby. LED light fixtures, interior occupancy sensors, and full cutoff
exterior dark-sky approved luminaires were also installed to conserve energy and minimize light pollution. High efficiency plumbing fixtures were specified to reduce wastewater generation and potable water demand. To encourage alternative transportation, interior bike storage was located on the “Main Street” thoroughfare. In addition to Maugel Architects and Laddawn, other team members included Apex Properties, TotalOffice, and JN Interiors.
Penn Brook Elementary Wins LEED
Georgetown, MA – The Penn Brook Elementary School recently received LEED Silver certification, the first building in the town to achieve this goal. Drummey Rosane Anderson (DRA) is the architect of the new three-story elementary school that is designed for 770 students in kindergarten through sixth grade. “The School in the Woods,” as the new Penn Brook School has been dubbed, allows spaces throughout the interior to have views to the surrounding site. The fresh air system allows notification to classroom teachers via a green light when the outside temperature and humidity levels are appropriate for opening windows, thus reducing the amount of energy required by the HVAC equipment in the classroom wing. These units are zoned for east and west exposure for this portion of the building. Operable windows are in every classroom to allow students and teachers to aid in the energy-saving process. Toilet rooms in the student wing utilize recycled rainwater from the roof above. The rainwater collection system
and pump are in the boiler room, which is fed from the 7,000-gallon tank onsite that holds the water for reuse. Rainwater from the cafetorium roof is collected in a rain garden and flows to an underground cistern used to water student gardens. These gardens are currently maintained from springtime through the fall by students attending the elementary school. The gardens are integrated in the main play area that also has porous pavement to minimize rainwater runoff from the developed portion of the site. This reduces the impervious paved area considerably and allows for a large play surface on the south side of the building. Photovoltaic panels are mounted on the south side of the cafetorium roof. The design meets 1% of the overall building energy load from equipment. The school also has preferred parking for energy-efficient and low-emitting vehicles. The elementary school was completed in the fall of 2015 and the students are now enjoying their new, sustainable “School in the Woods”.
Annual Green Supplement
December 2016
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Why WELL?
by Jennifer Taranto
The WELL Building Standard is a relatively new building rating system that measures the performance of a building as it relates to the occupant’s health and well-being. In short, where LEED cares about the health of the planet, WELL cares about the health of the people in the built environment. As LEED made strides to transform the market, sustainability practitioners often talked about the perceived improved productivity of employees and the reduced absenteeism. These outcomes, which were secondary to carbon reduction, were, at best, observations discerned from clients, but without any formidable proof until now. Harvard recently released a study finding that carbon dioxide (CO2) has a direct negative impact on cognitive ability, thus proving that productivity really is better in green buildings with better indoor air quality.
Here is where WELL enters the picture. The WELL Building Standard dovetails neatly where LEED leaves off by including features that specifically address the occupants and are backed up by science and medical evidence. It addresses the quality of the air, water, food, and light within a space while at the same time guiding companies on policies related to fitness, comfort, and mental well-being. A company’s largest expense is its staff, which can come close to nearly 90% of
the costs of any business. Because of this, as noted in a 2013 World Green Building Council study, any improvements made in indoor air quality have a far greater return on investment than cuts to energy usage. Those improvements to indoor air quality improve the productivity of your employees, reduce absenteeism and — more importantly — increase presenteeism. Those improvements to
your employees’ performance will far outweigh the improvements in energy performance, which account for a 1% to 3% savings. Make no mistake; this is not a call to ignore energy efficiency and replace it with wellness initiatives, but rather a call to action to supplement your carbon reduction goals with improvements to your employees’ health. In this market, there is a war on talent. Employers want the best and brightest workforce to push research forward on new pharmaceuticals, the best coders to create new software, and the brightest attorneys to help people and businesses do the right thing. The question they’ll ask is, “Why should I work for your firm?” The WELL Building Standard allows companies to cite specific, tangible examples to help answer that question. Through our discussions with clients about the WELL Building Standard, we have heard that the rating system has allowed them to put their arms around disjointed efforts and budget allocations among various departments to speak with a unified, clear voice about the benefits these efforts offer to existing and new talent. WELL has brought multiple departments, previously working in silos, to the table to improve the potential health outcomes for everyone.
Achieving WELL certification for your project will create an integrated project team. Achieving WELL certification for your project will create an integrated project team. There are features that require alterations to the built environment, those that require alterations in facilities maintenance, and those that will require organizational policy changes as well as added incentives for employees. Furthermore the features are field tested and verified so that you can point to third-party scientific test results showing the quality of the air, water, light, and acoustics in your space. We are experiencing this collaborative effect firsthand as we seek WELL certification for our own new Manhattan office and plan to share more lessons from that process as we move forward. In the meantime, learn more about becoming WELL certified at wellcertified.com. Jennifer Taranto, LEED AP ID+C, BD+C, WELL AP, is director of sustainability at Structure Tone.
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December 2016
CHPS Honors Bresnahan School
HBM and MPA Receive LEED Gold
HMFH, Heery, CTA Team Up
Waltham, MA – Hobbs Brook Management LLC (HBM) and Margulies Perruzzi Architects (MPA) announced that the renovated, multitenant office building at 1301 Atwood Avenue at Northwoods Office Park in Johnston, R.I., and the workspace of its tenant Dassault Systèmes, have both received LEED Gold certification from the USGBC. The repositioning of 1301 Atwood Avenue transformed an outdated facility into a high-performance and amenityrich office building with 338,600sf of Class A office space and provides for the development of the surrounding 153 acres into the new Northwoods office park. MPA also provided interior architectural design services to Dassault Systèmes, the 3DEXPERIENCE Company, which occupies 90,000sf at 1301 Atwood Avenue. MPA’s workplace strategists and designers collaborated with the Dassault Systèmes team on an innovative layout and design for Dassault Systèmes’ SIMULIA’s Global Research & Development Center. Sustainable features include: 40% reduction in water from plumbing fixtures; 31% reduction in total energy usage via LED lighting and control panels; 30% reduction in ventilation, exceeding code standards (beyond ASHRAE 62.1-2007); 85% diversion of construction waste from landfills; 83% FSC Certified Wood of all new wood materials; preservation of the
Waltham, MA – CTA Construction announced recently that the Francis T. Bresnahan School was honored by the Collaborative for High Performance Schools (CHPS). CHPS, a nonprofit dedicated to making schools better places to learn, named the Newburyport elementary school a “Verified Leader” — an honor reserved for schools that meet a high level of environmental and social responsibility and that successfully balance environmental benefits with student health and performance. Among the environmental factors CHPS weighs are indoor air quality standards, energy and water efficiency, renewable technologies, site selection, and materials and innovation. CTA Construction completed the $28 million Newburyport elementary school in 2014. The school features efficient lighting, windows, heating, and ventilation. It also has water-saving faucets and automated lighting that reduces energy consumption. The Bresnahan School features classrooms, art and music spaces, a gymnasium, media center, cafeteria/kitchen, and administrative offices and health offices. “CTA was pleased to partner with the
Bresnahan Elementary School
city of Newburyport, HMFH Architects, and the owner’s project manager, Heery International, on this tremendous project, and the end result is an elementary school that has become an ideal place for young students to learn and excel,” said Jeffrey Hazelwood, project executive at CTA Construction. “The Bresnahan School has a variety of green sustainable features that make it a model for other cities and towns. Our firm is honored that this project has been recognized with such a prestigious award.”
1301 Atwood Avenue at Northwoods Office Park / Warren Patterson Photography
153-acre site’s natural beauty; landscaped campus setting with walking path, field of wildflowers, and picturesque pond; bike racks and showers for biking commuters; and car charging stations and carpool parking spaces. The 1301 Atwood Avenue/Northwoods project team also included general contractor Dimeo Construction; M/E/P engineers AHA Consulting Engineers; structural engineers Odeh Engineers, Inc.; civil and landscape engineers Vanasse Hangen Brustlin, Inc. (VHB); LEED consultants Richard Moore Environmental Consulting; lighting designers HLB Lighting Design; kitchen consultants Colburn & Guyette; and elevator consultants Lerch Bates. Cushman & Wakefield | Hayes & Sherry is the commercial broker representing the property.
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December 2016
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AEI Delivers Energy Map of Boston Boston – Advanced Energy Intelligence LLC (AEI) of Carlisle, has delivered an energy map explorer that shows energy and water usage in the city of Boston for over 450 buildings and 15 million sf in the Boston public schools, fire department, police department, public library, and public works. The explorer is available online at www.aeintelligence.com/city-ofboston. AEI developed this visualization as a demonstration of how it will deliver similar results for other cities, towns, and property portfolios so that administrators and facility managers can comprehensively explore their energy usage. Working with its partner, Guardian Energy Management Solutions, AEI is developing this model for the specific towns covered by recently awarded Green Communities funding. Compatibility with a wide range of data sources including Green Button, MEI, and EPO, and building automation system data from Siemens, Honeywell, JCI, SkySpark, and many others, makes it easy to deploy for other towns, campuses, and large property portfolios. The map provides a comprehensive energy exploration tool that is vital for understanding portfoliowide usage
and costs that can drive discussions with utilities, aggregators, and facility managers. Owners and facility managers can learn how their buildings stack up against the DOE and Energy Star national averages, by commodity, season, and facility type. Ranking facilities by EUI, per sf, and costs helps target resources to the energy-efficiency opportunities with the best ROI. The energy map is a consistent entry point into facility details such as billing records, building automation system (BAS) data and analytics, utility interval data, and peak demand analytics. With daily and weekly updates, it’s an O&M view at the facility level that can help facility managers react to weather, occupancy, and variables at the HVAC level. Support for widget integration with
town websites can help drive awareness and social behavior at a high level, with trouble-ticket support at the individual facility level. Chip Goudreau, Director at Guardian said “Teaming up with AEI puts us in position to offer our Green Communities customers something they haven’t had - a comprehensive and interactive view of their energy and water usage. With AEI’s forward-thinking work, it will be easier for us to demonstrate the savings from our energy projects and help the towns quantify those savings back to DOER. In the 2016 grant application, DOER made a specific request for energy data analytics as a way to measure sustainability goals and achievements, and we believe the work of AEI will go well beyond delivering on that objective”. Carl Popolo, founding partner of AEI, adds, “Our core work focuses on building energy-efficiency, but we also realized that property managers need a better way to decide which projects should come first. By bringing together a wide range of data sources and purpose-driven analytics, we think those managers are better served when there’s a more comprehensive and standard way to quantify the baselines and the opportunities. This is a logical
entry point into the more detailed work that we do at individual buildings.” In the city of Boston map, over 700,000 utility records and the 5-minute electric interval data for many of the facilities allows a wide range of constituencies — from facility managers to the general public — to quickly understand how individual buildings compare to each other in terms of energy use. The integration of 5-minute electric utility interval data also helps a facility understand how their utility demand charges are calculated and how they might defend their facilities against the impending ISO peak hour that will determine their capacity charge for next year. Adam Jacobs, energy manager for the city of Boston, was instrumental in helping AEI qualify the city’s data sets. He said, “We think Boston is on the cutting edge in terms of delivering open data to the public, and those in a position to add insight to the raw numbers can provide real value back to the community. Work like this by AEI is what we have in mind when we deliver the city’s data to a public forum as part of its Boston’s Open Government program.”
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Annual Green Supplement
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December 2016
Products and Services
Sustainable Energy Savings Solutions with Harmonic Suppression Systems by Donald J. Moore All companies are trying to save energy these days, whether for cost control reasons or for helping the cause of sustainability. If your clients are placing heavy computer demands on your power distribution system, then you need to look into HSS, the Harmonics Limited patented Harmonic Suppression System. HSS reduces energy needs, saves money, and lessens adverse carbon impact on the environment. Retrofitting efficiency into your distribution system can
be tricky. Harmonics Limited’s patented Harmonic Suppression Systems helps companies nationwide eradicate third harmonic currents from their electrical distribution systems. By preventing the loads from generating third harmonic currents, an HSS completely protects transformers, conduits, and switchgear from excess heat. Power reliability is restored, life-safety risks are reduced, efficiency is gained, and sustainable energy savings are achieved. Your distribution system will
Eradicate Energy Waste The SysteMax™ patented Harmonic Suppression System™ conquers energy waste at its source. n Meet LEED performance targets n Increase energy efficiency n Decrease energy bills up to 8%
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have more capacity to handle loads — even in older buildings with downsized neutrals, and in facilities not designed to support today’s high-tech demands. Plus, with HSS, your company can earn LEED credits and meet
Retrofitting efficiency into your distribution system can be tricky. Harmonics Limited’s patented Harmonic Suppression Systems helps companies nationwide eradicate third harmonic currents from their electrical distribution systems. important targets toward becoming a green building. Energy bills will drop as much as 8%, expensive service calls decline, oversized transformers become obsolete, and sustainable efficiency grows. HSS can reduce the cost of your newly designed project by eliminating the need for double neutrals and allowing you to rightsize the transformers. Furthermore, immediately upon commissioning, power consumption will be reduced, power quality will be optimized, and
long-term reliability enhanced. Right now, harmonic suppression technology is assisting facilities across the country to boost efficiency and reduce power consumption. These facilities comprise a broad spectrum of schools, colleges and universities, hospitals, banks, casinos, data centers, and government buildings. The ability to assist new and existing clients to save significant energy costs while enhancing quality and reliability is a true competitive advantage, while at the same time contributing to our country’s environmental well-being. Planning a new facility expansion? Need to replace a transformer? To maximize energy savings and sustainability, consider harmonic suppression technology as either a retrofit to an existing transformer or as an integrated component of each transformer in new design and construction. For over 20 years, Harmonics Limited has been increasing energy-efficiency with its proprietary leading-edge Harmonic Suppression Systems. The company has helped thousands of both public and private facilities and institutions to significantly reduce power consumption, increase sustainability, and reduce operating costs over the lifetime of the facility. Donald J. Moore is CEO of Harmonics Limited.
Annual Green Supplement
December 2016
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Network Drive Burlington Campus Achieves Seven LEED EBOM Gold
by Daniel Whittet
Network Drive is a commercial office center located in Burlington, Massachusetts originally developed as a campus for the computer software company Sun Microsystems in 1997. Currently owned by Network Drive Owner LLC, there are now seven office buildings sharing close to 1 million sf of office and research space supporting high-tech companies with a combined central utility plant centered on 114 acres of land. The LEED project boundary encompasses 80 acres of landscaped grounds and hardscape close to the buildings creating the campus, which is surrounded by 34 acres of native conservation land. Originally conceived by Sun Microsystems in the late ’90s to have the look and feel of a university campus, the project was a natural fit for the LEED Campus approach to certification. This method allows buildings to take credit for shared attributes on a site and achieves separate LEED certification for each
NWD campus / courtesy of Nordblom Company
Food production / courtesy of Daniel Whittet
project, building space, or group. As part of the LEED attempt, Network Drive management worked with AHA Consulting Engineers to benchmark and initiate several innovative approaches to improving the campus environment while reducing energy and resource consumption. A completely new front end to the original building operation system was completed with a recommissioning and upgrade of controls. Parking lot lighting was converted to LEDs with a Zigbee Mesh Network control system that allows pinpoint management of site lighting to reduce energy consumption and light pollution while improving safety. Water use
Campus environment / courtesy of Nordblom Company
was reduced 30% in buildings and 75% on the landscape irrigation. Transportation options were implemented that included a bike-sharing service and regular shuttle initiatives to reduce conventional commuting trips by 31%. The connected landscape and walkways of the site allowed the project to receive credit for sustainable food purchases at the centrally located Sebastians café. The spacious dining facility uses organic local produce and seafood from Reds Best, a local networked seafood provider. A project with Green City Growers also allows tenants to get fresh produce from raised-bed gardens onsite, which contrib-
uted to a LEED Pilot credit, and the waste diversion policy includes composting of all food waste at an offsite location. The LEED project team was able to use the building automation system upgrade to initiate a monitoring-based ongoing commissioning plan that includes fault testing algorithms and system optimization. A flat plate heat exchanger in the central plant provides free cooling for intensive data center spaces during winter months. The comprehensive LEED EBOM rating system involves a performance period during which project team members initiate plans, policies, benchmarking, and recommissioning of building assets to upgrade properties and the environment around them. “LEED for Existing Buildings Operation and Maintenance (EBOM) is a challenging and time-consuming process,” stated Patrick O’Neill, assistant vice president of Nordblom Management Company. “We feel the outstanding success of the Network Drive certifications is a testament to the quality of the original design and the commitment of the management team to continuous improvement.” All the buildings have been awarded LEED EBOM Gold with Energy Star scores above 80. Daniel Whittet, LEED AP, is a sustainability consultant at AHA Consulting Engineers.
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For 40 years United Steel has been fabricating and erecting structures throughout New England. Our portfolio includes projects that have enhanced educations, healed the sick, advanced commerce and provided shelter. United Steel's expertise delivers - and will continue to provide - extraordinary experiences. UNITED STEEL 164 SCHOOL STREET EAST HARTFORD, CT 06108 • 860.289.2323
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Annual Green Supplement
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December 2016
Sights on 2030: Early-Stage Energy Modeling for High-Impact Results
by Victoria Rybl and Ian Robinson
Architecture 2030’s “2030 Challenge” has laid out an ambitious target of achieving net-zero operating carbon emissions in all new buildings and major renovations by the year 2030. Lofty initiatives relating to climate change are nothing new to the building industry. However, as initiatives like the 2030 Challenge achieve widespread adoption by code officials, compliance with such targets is bringing about radical changes in the design process. Critical, early-stage design decisions such as building form, envelope properties, and HVAC system selection can no longer be made without assessing their energy impact. The imperative to design ever-more-efficient buildings has made it crucial to engage energy modelers as part of the design teams very early in the process. Defining success: “How good is good enough?”
Deciding what metrics to use and what
performance target to design is the first step in any energy-informed design process. Both the metric and the target will be unique to the project. LEED (and often building owners) require energy cost as a metric. The Massachusetts Stretch Code uses site or source energy consumption. The 2030 Challenge uses net greenhouse gas emissions. Optimizing for one metric or another can lead to vastly different design decisions. Which metrics are most relevant to a given project and what the targeted performance should be is determined by what hurdles that specific project needs to clear. However, thoughtfully choosing a metric and striving towards a target is fundamental. Establishing the target early in the process and defining that target as a design requirement will help ensure all parties are focusing their efforts on a desired end result. Value-add modeling in early design: “Now what?”
Energy modelers often struggle to produce meaningful results in early-stage modeling due to the absence of concrete details. It is exceedingly difficult (and time-consuming) to produce model after model while major design elements are in flux. However, with well-documented assumptions and modern energy modeling tools, it is possible to make
valid determinations and guide the design team towards positive outcomes. Issues that have the most impact include: • Massing options. • Glazing and envelope options. • HVAC systems. • Targets for internal gains (occupancy, lighting, plug loads). As if optimizing each component individually weren’t complex enough, design decisions regarding each separate item can also impact the optimal choice for each of the others. At this stage, it is important to simplify the model and use time-efficient tools to minimize modeling time and allow a maximum number of energy modeling runs. With simplified models, the team can perform dozens, or even hundreds of simulations to yield a true sensitivity analysis for each design variable. Sensitivity analyses assess the impact of major design elements on energy performance in multiple scenarios. For instance, what impact does changing
the average lighting power density have on building energy usage if the façade is well-insulated and the HVAC is a chilledbeam system? What if the building is lightly insulated and the HVAC is VAV? Frequently, the answer in one scenario is very different from the other. By assessing design decisions holistically, we develop a more accurate picture of how each decision impacts the overall project. Using the outcomes of early-stage modeling, the team can make decisions that optimize energy usage and first costs without any guesswork. Equipped with this knowledge, the design team can move into the detailed design stage with clear direction regarding energy performance. Owners and architects can have confidence that each individual piece of the puzzle will contribute to the bigger picture, meeting its energy-related goals. Victoria Rybl is an energy engineer. Ian Robinson, PE, is an energy engineer and project manager at RDK Engineers.
ACE New Haven Receives Award
Building Success Through Performance. CONSTRUCTION MANAGERS AND GENERAL CONTRACTORS SINCE 1942
(l-r) Julia Dumaine, Lynne Panagotopulos, Ian Cooke, Jeremy Jamilkowski, Joshua Palmer, Allison Corriveau, Sarah Gresham, Cassie Aiello, Brian Brigham, Pat McDonnel, Jessica Lindenau. (Kneeling) Michael Comesanas
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Bloomfield, CT – At the annual Green Building Awards Celebration of the Connecticut Green Building Council (CTGBC) on September 22, the New Haven chapter of the ACE Mentor Program of Connecticut received the Student Project Award of Honor for its project, River Street Resiliency District. This project addresses rising sea levels and increased storm frequency, two aspects of climate change that are affecting Connecticut’s shoreline directly. As part of the annual CIRT-ACE National Design Competition, the students worked with mentors to respond to a “Shoreline Design Challenge” and master-planned 10 blocks of the Fair Haven neighborhood, which sits at the convergence of Long Island Sound, the Mill River, and the Quinnipiac River. The students chose this historic site due to its history of flooding and erosion damage. Additionally, the students addressed the social aspects of revitalizing this culturally significant neighborhood. By
developing diagrams, visiting the site, and researching historical data, the students were able to design solutions for three zones: the historic district, buffer zone, and flood zone.
Annual Green Supplement
December 2016
15
Daylighting Interior Athletic Spaces: the Middlebury College Solution
by Leslie DelleFave
At Middlebury College, the ARC/ Architectural Resources Cambridge design team tackled this challenge and developed an innovative approach to achieve the critical lighting balance needed. The college’s LEED Platinumcertified Squash Center includes nine international-sized squash courts, tiered spectator seating, a student fitness area, entry lobby, and offices.
The design team carefully studied options with the goal of lighting the entire spectator area with daylighting though a large central light well. We set out to design a feature in the space that would delineate the spectator area from the squash courts, utilize daylighting to minimize energy loads on the facility, and create a unique viewing environment that took advantage of the quality of light that natural daylight provides We challenged ourselves to remove all other light sources and to rely instead on a single skylight element designed to provide all spectator lighting. The spectator area is daylit using a light well, topped with a skylight, with a layer of diffusing horizontal glass providing an even light level and eliminating direct sunlight distractions to the athletes. The solution utilizes a combination of LED lighting, daylight color matching, and daylight dimming so that day or night, cloudy or bright, this light well remains a
consistent light source. By matching the color temperature of natural light via LED lighting controls, we provided a consistent level of natural light and ensured that no direct sunlight permeated the interior of the squash courts. In addition to the aesthetic and athletic benefits, the design factors into meeting the college’s goals for sustainability and contributes to achieving a significant
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Interior of Middlebury College Squash Center / John Horner Photography
Exterior of Middlebury College Squash Center / credit Gary Hall
energy reduction, in keeping with the LEED Platinum certification objectives. Post-occupancy data in the first year of operation showed a 35% improvement in EUI based on the AIA 2030 CBECS baseline and a 50.4% cost energy savings based on LEED guidelines. Leslie DelleFave, AIA, LEED AP, is an associate with Boston-based ARC/ Architectural Resources Cambridge.
years
es
Creating a natural balance of daylit and supplementary interior lighting is a challenge in most buildings and presents a distinct dilemma in athletic and sports facilities. In spaces hosting sports competitions, an imbalanced lighting environment for even a short time can distract athletes and impair performance, often causing an unfair advantage to one side. The ideal scenario, a consistent design that works in harmony with everchanging exterior conditions, requires a careful evaluation of options and desired outcomes.
ABX 2016
New Fusions in Design
An Integration of Planning, Architecture, Landscape Architecture and Interior Architecture Wednesday, November 16, 8:00 a.m. - 9:30 a.m. Boston Convention and Exhibition Center Room 160A
French Dam Prototype Complete North Billerica, MA – French Development Enterprises, LLC (FDE) of North Billerica; GEI Consultants of Woburn; and Oldcastle Precast of Littleton, Colo., recently announced the construction and assembly of the first prototype French dam — modular precast impoundment for construction and retrofit of hydroelectric dams, water control systems, and power houses. The 24-ft. long x 16-ft. high prototype, designed by GEI Consultants in cooperation with Oldcastle Precast, consists of six 27,000-lb. concrete 8-ft. x 8-ft. blocks interconnected with each other forming one monolithic structure. Upon arriving from Oldcastle’s plant in Avon, Conn., the dam was assembled in less than 3.5 hours. FDE’s patented technology for rapid
dam construction was funded for $1.7 million in January 2016 by the United States Department of Energy (U.S. DOE) under funding opportunity “Research and Development of Innovative Technologies for Low Impact Hydropower Development” (DE-FOA-0001286). The construction of the prototype of the modular hydro dam comes three months after the U.S. DOE released its Hydropower VISION report, which recommended modular approaches to new in-stream hydropower facilities. In this report, the U.S. DOE proposes a “suite of modular components for foundation, generation and stream passage may be considered and fit together to meet site-specific parameters as well as environmental and power generation objectives.”
Atlanta GA Boston MA Glastonbury CT Syracuse NY Danbury Hospital - Peter and Carmen Lucia Buck Pavilion Designed to achieve LEED™ Gold Certification
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