First green roof on UD campus will keep class comfortable

First green roof on UD campus will keep class comfortable

Written by
WADE MALCOLM
The News Journal

http://www.delawareonline.com/article/20110726/NEWS/107260345/First-green-roof-UD-campus-will-keep-class-comfortable?odyssey=tab|topnews|text|Local

NEWARK – On a warm fall day in 2008, Annette Shine sat in a classroom teaching a course she likes to call “how not to blow up a chemical plant.”

Her group of University of Delaware chemical engineering students struggled to learn the difficult material in a sweaty, 86-degree room.

The building’s ventilation system had been switched over to heat for the winter, so forget about air conditioning. Shine opened a window, but construction nearby made too much noise. So she and her students treated it as an engineering problem, and eventually, they came up with a solution.

Grow a garden on the roof.

This fall, people looking over a one-story wing jutting out from the south side of Colburn Laboratory will see an array of colorful plants covering the flat tar roof.

The 14,000 square feet of small sedums planted in trays with 4 to 8 inches of soil will be UD’s first “green roof.”

“There was no good way to cool the building if it got hot certain times of the year,” said Shine, an associate professor. “And it’s a popular classroom even though it can be uncomfortable, so this will help.”

Rooftop vegetation has sprouted on campuses across the country, from community colleges to Ivy League institutions. Nearby Swarthmore College, a liberal arts school in Delaware County, Pa., has more than 14,000 square feet of plants covering the tops of its buildings.

They’ve been used on commercial buildings as well, said Chad Nelson, an assistant professor of landscape design who has been studying the function and aesthetics of green roofs. Nelson said green roofs have caught on at colleges because much of the work and preparation can be done by faculty and student volunteers.

The plants act as a natural heat shield, absorbing and deflecting the sun’s radiation. On a hot day, Shine and her students predict, the plants will lower the temperature inside the building by about 5 or 6 degrees. That might not sound like a lot, Shine said, but it could make the difference between stifling and tolerable.

Recent temperature readings on the roof have revealed a greater benefit. Aside from cooling Colburn, the plants cause the peak temperature on the roof to occur later in the day. Instead of the high heat of the day radiating into the rooms at around 1:30 p.m., it will be delayed until 3:30 or 4 p.m. in places where the soil is 4 inches deep and around 6:30 p.m. where the dirt is 8 inches thick.

“That could be very useful to us because we don’t have that many classes at that time of night,” Shine said.

Even after coming up with the solution, Shine was not optimistic a rooftop garden could actually happen. But one of her doctoral students at the time, Kathy Phillips, was passionate about the possibility. The two brought the concept to a green expo on campus. Shine said word then reached the dean of the College of Agriculture and Natural Resources, Robin Morgan, who knew Nelson wanted to pursue a green roof project.

“It’s those combined benefits that really make it worth it,” Nelson said. “For any practical benefit of a green roof, you can do the same thing with another material.”

After some study, Nelson chose durable plants that grow year-round and require little attention beyond some occasional weeding. The skills of Nelson and Shine offered the ultimate contrast and complement of practicality and creativity.

“We provided sort of the practical, rational aspect of the green roof, and we would joke that Chad was the artist,” Shine said.

The new Interdisciplinary Science and Engineering Laboratory, currently under construction on Academy Street, is being built to accommodate a green roof. Nelson hopes the visibility of the Colburn Lab project will inspire more greening elsewhere in the university.

“We wanted the first one to be in a visible place to kind of market it to the rest of campus,” Nelson said.

The process was not without its challenges. It required a structural engineering study to ensure the roof wouldn’t collapse under the weight of the garden, and facilities personnel wanted assurances that the plants would not become a maintenance hassle. Shine credited the students for helping her through the long process.

“Chad and I provided continuity, but the students did a lot of the legwork,” she said.

Sedum is a classic green roof plant. holds lots of water and absorbs the heat. then cools by breathing . It would be nice to build a house into the side of a hill with a green roof. and then translucent solar panels over the patio garden and out buildings, for power. cool. Have you ever seen the translucent PV skylights old Astro Power built into their new building? Which is still empty but paying its own rent with free solar power.

the atrium skylights were like stained glass windows. pretty good looking.

So… at about 80 lbs per cubic foot of soil, halving that to 6" deep would bring you to 40 lbs per sq ft. x 14,000 = 560,000 lbs of soil on the roof or 280 tons. Wet snow can weigh as much as 20lbs per cubic foot, also halving that to an average snow storm (but keep in mind our 20" storms 2 years ago too!) of 6" would be another 140,000 lbs on just the area of the garden (no idea how large the whole roof it.)

This brings a wintery day at the building to 700,000 lbs over the 14,000sqft area, or 350 tons.

Now I’m no structural engineer, but I hope they spoke to one first (I didn’t read the last 2 paragraphs the first time around)…, those buildings aren’t new and I saw several flat roof buildings in Dover collapse in just snow alone, including my mothers work place.

Edit, also add much more weight for moisture entering and freezing in the soil before the accumulation of snow.

Structural analysis aside, if more buildings were to be constructed in this manner, roof maintenance expenses may drop (no need to re-tar plant life). Also, consider the significantly less impact on local water treatment plants. Runoff has a HUGE effect on bug-life in treatment ponds, and if you decrease the oily runoff from buildings even by a fraction, you end up with a little better quality water. Finally, if more buildings incorporated plantlife on roofs in their designs, there is even potential for lowering the overall temperature of urban areas during the hot months(however slightly, but the idea is there).

Love it!

No problem. Just build a house with Insulated Concrete Formed roofing to whatever strength/load code you desire…

http://www.polysteel.com/litedeck.htm

but 80 # / CF of soil would be more like sand in water, not drained soil. green roofs use lite weight soil made of vermiculite and organic mulch, or even shredded tires. stuff that drains well to the roof drain system.

This ICF system is what i would like to use someday to build a green home. It is structurally very strong, has R 50 insulation value or more, sound proof, hurricane and tornado proof, fire proof, bug proof and most of all…Bullet proof! It’s an urban bunker. Just needs a green roof to mellow it out. Some place for the cows to come home to and graze.

Just add solar thermal and PV collectors for water heating and power some where and a geo thermal heat pump, and new fangled LED ligthing, and it will run itself.

Interesting Ken, I never really reviewed the different species recommended for green roof plantings. Sedium is a very popular ground cover utilized in rock gardens. I am assuming, given the water retention capacity any “succulent” would be a good choice. I am glad to see UD taking the lead within our state regarding energy efficiency modifications.

The whole snow thing came to my mind first because while snow plowing I always had shopping center owners asking to clear the roof, I told them get my truck on the roof and I’ll do it lol, which can collapse under weight. I have bonsai trees that use very light free draining components like Akadama, Seramis, and Turface so I guess I should have considered that as an alternative for a roof.

Its a pretty good idea and I saw them doing it in NYC a few years ago.

Yes, suculents are very good for green roofs, because they can tolerate the heat and dry periods too without watering. they absorb and deflect the heat of the sun to keep the roof cooler. less load for the AC system indoors.

Yup Tim, your big truck might be too much of a point load for a roof to handle. unless it was an ICF roof. like the floors in high rise parking garages, they may only be 4 inches thick concrete, rebar on Q-Deck. but with the steel girders and purloins holding the Q-deck, can hold more than 400 pounds per square foot. a 6000 pound truck taking up a space 8 x 15 only makes a 50 pound per square foot distributed load. Piece of cake.