ÀÏ°ÄÃÅÁùºÏ²Ê¿ª½±¼Ç¼'s Engineering and Industry Building delivers a living laboratory for students
by Kathleen McCoy |
A new building rising along Providence Drive looks a little like a scene from "Close Encounters of the Third Kind." Through trees lining the busy street, steel bones of a four-story building shrouded in clear plastic and brightly lit from within, an eery apparition hints at a spaceship just arrived.
No UFO, it's just ÀÏ°ÄÃÅÁùºÏ²Ê¿ª½±¼Ç¼'s newest construction project, the Engineering and Industry Building that will open in August of 2015, needed to maintain academic accreditation and accommodate an enrollment that has quadrupled to 1,200 since 2000.
The new structure will expand classroom and lab space and allow the College of Engineering to bring home from around the city and around campus pieces and parts of an extensive, 11-discipline engineering curriculum. ÀÏ°ÄÃÅÁùºÏ²Ê¿ª½±¼Ç¼ teaches everything from arctic engineering to the classic mechanical, electrical and civil engineering, to geomatics (surveying and map-making), GIS and computer systems engineering.
Space has been at a premium for years. The new building, at 80,000 square feet, combines with an older engineering building of 40,000 square feet that will be refurbished.
The added space will allow for new computer aided design (CAD) labs. Right now, ÀÏ°ÄÃÅÁùºÏ²Ê¿ª½±¼Ç¼ has a few small rooms with 30 work stations jammed in long rows that make it almost impossible for the teaching professor to move around and monitor student work. Also, the Prototyping Lab including the 3-D printers will move in from its temporary home in the University Lake Complex.
But what really makes this new building so unique is the way engineering faculty and project architects have seized upon the chance to construct a facility that doubles as a lab for the students who will study there.
Architects call the result "engineering on display." Some of this building's systems and "bones" will be visible for educational purposes. Students in the new space will literally be studying and working in a living laboratory.
What will that look like?
Some of it will be passive opportunities to observe building systems at work. The mechanical systems for most buildings, their heating, ventilation and cooling systems, or HVAC, are usually tucked away and out of sight on the roof or in a maintenance room. As architect Paul Daugherty of Livingston Slone said, "Every building has them, it's just that most customers have no desire to see them."
Not here. This building's mechanical systems will be highly visible, located on the fourth floor, and featuring big display windows and lighting to illuminate features that students must study.
Other engineering features will be more active, like the sensors and accelerometers installed to detect seismic activity, tilt or wind load.
"Everyone thinks that a building is a static construction, that it just sits there and doesn't move once it's been built," said Andrew Metzger, a civil engineering professor. Not true. Forces are constantly acting on any building, from windblasts, from trucks rumbling by along Providence Drive, from the earth's slightest but frequent tremors.
"You won't see any movement by just looking at a building," Metzger said, "but this building's instrumentation will be so sensitive that we can record those movements and then look at the data."
Scott Hamel, also a civil engineering professor, says he's excited because builders will leave visible the building's bolts and steel connections. "I teach steel design," Hamel said, "and for us, it's great to look up and see the parts that we really care about."
Hamel said he'll definitely be using data from the wind load sensors in his "loads on structures" class.
Joey Yang, a civil engineering professor who has just piloted a snowless sidewalk installation on campus and has a patent pending on the design, will see his system installed on 900 square feet of the largest public entry to the building. The snowless sidewalk's electronic components and controllers will be labeled for function and visible through a nearby glass panel.
A "strong" floor on the bottom of the building, complete with a 10-ton crane or hoist for moving heavy equipment around, will be solid enough to serve as an anchor for structural testing. This large interdisciplinary lab space will also be where students build projects like "Baja buggies" or concrete canoes used in student competitions nationally and internationally.
On a floor above this structures lab, windows will open onto this space so students and visitors can observe activity below.
"We have tried to work with the faculty to make it as academically relevant to the classes they teach as we can," said architect Daugherty. "They can have assignments where students go out into the building and observe things, take readings and monitor them over time, do whatever they need to do to learn these systems."
Some of the bells and whistles will be phased in, Daugherty said, as funding or industry support becomes available.
The total project cost is $123.2 million. To date, the university has $77.46 million allocated for construction and plans to ask for an additional $45.74 million in fiscal year 2015.
Those dollars cover the new engineering building, the refurbished old engineering building, and a parking garage necessary to replace lost parking and new parking demands as ÀÏ°ÄÃÅÁùºÏ²Ê¿ª½±¼Ç¼'s other engineering programs relocate to this new space.
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