flexiblefullpage
billboard
interstitial1
catfish1
Currently Reading

Oakland University’s Human Health Building first LEED Platinum university building in Michigan [slideshow]

Oakland University’s Human Health Building first LEED Platinum university building in Michigan [slideshow]

Built on the former site of a parking lot and an untended natural wetland, the 160,260-sf, five-story, terra cotta-clad building features some of the industry’s most innovative, energy-efficient building systems and advanced sustainable design features.


By SmithGroupJJR | November 5, 2013
All photos: Prakash Patel, courtesy SmithGroupJJR
All photos: Prakash Patel, courtesy SmithGroupJJR

The new $64 million Oakland University Human Health Building has become the first LEED Platinum certified building on a university campus in Michigan.   

Designed by SmithGroupJJR, the 160,260-square-foot, five-story, terra cotta-clad building,  built on the former site of a parking lot and an untended natural wetland, today features some of the industry’s most innovative, energy-efficient building systems and advanced sustainable design features.

The project’s primary funding of $40 million came from the State of Michigan legislature’s Capital Outlay Program. Then, to achieve the highest LEED rating – Platinum -- while staying on budget, Oakland University, assisted by SmithGroupJJR, successfully pursued a $2.7 million grant from the U.S. Department of Energy, allowing the project to proceed with a full geothermal and renewable energy system.   

“The collaboration between Oakland University, SmithGroupJJR and The Christman Company truly benefitted our ability to design and build the most energy-efficient and sustainable building on any college campus in Michigan,” said Terry Stollsteimer, associate vice president, facilities management, Oakland University.

 

 

The facility’s energy systems are designed to save an estimated 35% in energy costs annually compared to the LEED prescribed “baseline” building. 

A geothermal field, consisting of 340 wells built 320 feet underneath the university’s main parking lot, uses the earth as an energy source for heat pumps that efficiently provide heating and cooling for the building. 

A total of 117 vacuum tube solar thermal panels provide “free” heat for the building in the wintertime, the desiccant dehumidification system in the summertime, and domestic water heating all year round. Four, 25,000-gallon underground tanks store any excess solar generated hot water until it’s needed.

A rooftop photovoltaic system, comprised of more than 200 solar panels covering 3,600 square feet, provides 45 kilowatts or 3% of the building’s power.

“Environmentally friendly buildings have shown to have positive effects on the quality of their occupants’ health, so it was easy for the university to decide that the new Human Health Building should be highly sustainable,” said Chris Purdy, AIA, LEED AP, SmithGroupJJR principal-in-charge for the project. SmithGroupJJR provided architectural design and development; mechanical, electrical, plumbing, structural and civil engineering; lab planning; interior design; landscape design and LEED certification and documentation.

 

 

The building’s environmental friendliness doesn’t end with the innovative, energy-efficient building systems. Outside, a grand porch created by the overhang of the upper floors protects faculty offices from the solar heat gain of a southern exposure. Exterior offices are outfitted with vertical sunshades and fritted glass to reduce glare and cut down on outside heat. Rainwater from the roof is collected and stored in a below-grade cistern, and used for site irrigation. 

Inside the building, an elongated floor plan with floor-to-ceiling windows allows for abundant access to natural light and views of outdoor spaces. The interior’s use of recycled, regional and low-VOC materials includes sealed cork floors and bamboo cabinets, and walls are made with insulated cinderblock to reduce energy costs. Daylight and occupant sensors are used throughout the building to reduce energy use by occupants.

Directly south of the building is a towering, 100-year-old Oak tree that was integrated into the site design, rather than cleared. The site’s natural wetland was rehabilitated with native vegetation and invasive species were removed, thereby creating an outdoor lounge and gathering place for students.

 

 
  

About the Human Health Building, Oakland University
The Human Health Building (HHB) was conceived after increased student enrollment caused the university’s School of Nursing and School of Health Sciences to outgrow their separate facilities. The university envisioned a new building on the northwest corner of its 1,441-acre campus to allow the two schools a collaborative setting and an unprecedented opportunity for interaction among students, facility and community partners. Completed in August 2012, the HHB is the first structure constructed as part of the university’s proposed Health Quadrant Campus Master Plan, developed by SmithGroupJJR.  

The HHB pairs advanced classrooms and hands-on instructional spaces with amenities that replicate those found in hospitals and community health centers – including a public clinic, simulation labs, and clinical and physical therapy labs. An emphasis was placed on student spaces; two-story, natural light-filled, “living room” areas on the fourth floor give students a place to gather before or after class. To learn more about the HHB from the design and construction team, go to: http://www.oakland.edu/?id=26078&sid=228

About SmithGroupJJR
SmithGroupJJR (www.smithgroupjjr.com) is a national leader in sustainable design, with 361 LEED Accredited Professionals on staff. The Oakland University HHB marks SmithGroupJJR’s 90th LEED certified project and its 11th LEED Platinum certification. The firm’s nationally recognized Learning Practice has completed the planning and design of educational facilities on over 350 campuses worldwide.

About LEED
The U.S. Green Building Council's LEED green building certification system is the foremost program for the design, construction and operation of green buildings. By using less energy, LEED-certified buildings save money for families, businesses and taxpayers; reduce greenhouse gas emissions; and contribute to a healthier environment for residents, workers and the larger community. For more information, visit www.usgbc.org. 

Related Stories

Steel Buildings | Apr 6, 2023

2023 AISC Forge Prize winner envisions the gas station of the future

Forge Prize winner LVL (Level) Studio envisions a place where motorists can relax, work, play, shop, or perhaps even get healthcare while their vehicles charge.

Architects | Apr 6, 2023

New tool from Perkins&Will will make public health data more accessible to designers and architects

Called PRECEDE, the dashboard is an open-source tool developed by Perkins&Will that draws on federal data to identify and assess community health priorities within the U.S. by location. The firm was recently awarded a $30,000 ASID Foundation Grant to enhance the tool. 

Architects | Apr 6, 2023

Design for belonging: An introduction to inclusive design

The foundation of modern, formalized inclusive design can be traced back to the Americans with Disabilities Act (ADA) in 1990. The movement has developed beyond the simple rules outlined by ADA regulations resulting in features like mothers’ rooms, prayer rooms, and inclusive restrooms.

Market Data | Apr 6, 2023

JLL’s 2023 Construction Outlook foresees growth tempered by cost increases

The easing of supply chain snags for some product categories, and the dispensing with global COVID measures, have returned the North American construction sector to a sense of normal. However, that return is proving to be complicated, with the construction industry remaining exceptionally busy at a time when labor and materials cost inflation continues to put pricing pressure on projects, leading to caution in anticipation of a possible downturn. That’s the prognosis of JLL’s just-released 2023 U.S. and Canada Construction Outlook.

Cladding and Facade Systems | Apr 5, 2023

Façade innovation: University of Stuttgart tests a ‘saturated building skin’ for lessening heat islands

HydroSKIN is a façade made with textiles that stores rainwater and uses it later to cool hot building exteriors. The façade innovation consists of an external, multilayered 3D textile that acts as a water collector and evaporator. 

Market Data | Apr 4, 2023

Nonresidential construction spending up 0.4% in February 2023

National nonresidential construction spending increased 0.4% in February, according to an Associated Builders and Contractors analysis of data published by the U.S. Census Bureau. On a seasonally adjusted annualized basis, nonresidential spending totaled $982.2 billion for the month, up 16.8% from the previous year. 

Sustainability | Apr 4, 2023

ASHRAE releases Building Performance Standards Guide

Building Performance Standards (BPS): A Technical Resource Guide was created to provide a technical basis for policymakers, building owners, practitioners and other stakeholders interested in developing and implementing a BPS policy. The publication is the first in a series of seven guidebooks by ASHRAE on building decarbonization.

Sustainability | Apr 4, 2023

NIBS report: Decarbonizing the U.S. building sector will require massive, coordinated effort

Decarbonizing the building sector will require a massive, strategic, and coordinated effort by the public and private sectors, according to a report by the National Institute of Building Sciences (NIBS).

Education Facilities | Apr 3, 2023

Oklahoma’s Francis Tuttle Technology Center opens academic center for affordable education and training

Oklahoma’s Francis Tuttle Technology Center, which provides career-specific training to adults and high school students, has completed its Francis Tuttle Danforth Campus—a two-story, 155,000-sf academic building. The project aims to fill the growing community’s rising demand for affordable education and training.

Sports and Recreational Facilities | Mar 30, 2023

New University of St. Thomas sports arena will support school's move to Division I athletics

The University of St. Thomas in Saint Paul, Minn., last year became the first Division III institution in the modern NCAA to transition directly to Division I. Plans for a new multipurpose sports arena on campus will support that move.

boombox1
boombox2
native1

More In Category


Urban Planning

Bridging the gap: How early architect involvement can revolutionize a city’s capital improvement plans

Capital Improvement Plans (CIPs) typically span three to five years and outline future city projects and their costs. While they set the stage, the design and construction of these projects often extend beyond the CIP window, leading to a disconnect between the initial budget and evolving project scope. This can result in financial shortfalls, forcing cities to cut back on critical project features.



Libraries

Reasons to reinvent the Midcentury academic library

DLR Group's Interior Design Leader Gretchen Holy, Assoc. IIDA, shares the idea that a designer's responsibility to embrace a library’s history, respect its past, and create an environment that will serve student populations for the next 100 years.

halfpage1

Most Popular Content

  1. 2021 Giants 400 Report
  2. Top 150 Architecture Firms for 2019
  3. 13 projects that represent the future of affordable housing
  4. Sagrada Familia completion date pushed back due to coronavirus
  5. Top 160 Architecture Firms 2021