The U.S. Green Building Council has awarded Leadership in Energy and Environmental Design (LEED) platinum certification to the University of Arizona’s two newest residence halls. This is the first residential project in the state of Arizona to earn the highest LEED rating.

From the UA News:

The University of Arizona has earned its gold – a STARS Gold Rating that is. And UA is one of the few institutions in North America to gain this prestigious sustainability rating.

UA earned gold for their campus-wide sustainability efforts in three areas: education and research, operations and administration.

From UA News:

The University of Arizona has earned a STARS Gold Rating in recognition of its campus-wide sustainability efforts from the Association for the Advancement of Sustainability in Higher Education, a group that measures and encourages sustainability in all aspects of higher education.

The UA is one of only 30 institutions in the U.S. and Canada to receive the association’s gold rating.

The Sustainability Tracking, Assessment & Rating System, known as STARS, counts 173 institutions as members. Institutions do not have to be members to receive ratings.

AASHE’s STARS program is the only one of its kind that involves publicly reporting comprehensive information related to a college or university’s sustainability performance. Participants report achievements in three overall areas: education and research; operations; and planning, administration and engagement.

Read the entire UA News article here.

Photo by Kate Kaemerle

University of Arizona professor of Engineering and Optical Sciences Raymond Kostuk is a principal contributor to a research team exploring a new way to increase the efficiency of photovoltaic (PV) panels that generate electricity directly from sunlight.

Collaborating with researchers from the University of Washington and the University of Denver with a grant from the Research Corporation for Science Advancement (RCSA), their project has the uber-geeky title of “Holographic Spectrum Splitting for Multijunction Organic Photovoltaics.”

The explanation of this work is actually quite simple, according to Kostuk.

“Photovoltaic cells that produce electricity from sunlight only convert a small percentage of incident sunlight into electricity,” he said. One way to make them more efficient is to use multiple junction. Most multijuntion cells today are designed with one junction grown on top of the next forming a tandem cell.

“Junctions are sensitive to specific colors in the spectrum of visible light,” he noted. Some junctions are sensitive to red light; some are sensitive to blue; others are sensitive to the other colors that make up sunlight.

“Some solar devices with stacked junctions already exist, but they are very expensive, which means they are used mostly on high concentration systems and orbiting satellites. Another problem is that it is difficult to match the interfaces on different multi junction devices which limits the range of materials that can be used,” Kostuk said.

OK, maybe not quite that simple, but there is the big bonus that could be the outcome of this research. The team’s hope is that the developed solar devices can be manufactured using carbon-based “organic” materials, which would be generally cheaper and easier to obtain.

Two talks this week from a leading climatologist and climate modeler at the University of Arizona this week. From the UA Institute of the Environment:

Ronald Stouffer, one of the world’s leading climate modelers will give two talks at the University of Arizona this week.

On Nov. 2 he will discuss climate change, the reliability of climate models, and how certain climate scientists are in their findings during his talk, “What You Need to Know about Climate Change,” from 7 to 8 p.m. in the Harvill Building, room 150.

On Nov. 3 he will present “An Analysis of Past Carbon Changes and an Assessment of Certainties Associated with Future Changes” from 4 to 5 p.m. in the Haury Building, room 129, as part of the Geosciences colloquium series.

"Carrots at the Market" photo by Kate Kaemerle

The student-led Garden in the Desert team at UA is launching a second community garden on campus. Students, faculty, staff and community members will be able to grow their own produce on campus.

Members of UA and local community members will be able to reserve one of the garden plots to grow vegetables, herbs and fruit. The new garden is approximately 1600 square feet and will provide about 40 garden plots. The community garden is near the Highland Garage on campus.

Last year, Garden in the Desert helped build the first community garden on campus, called One Tree Garden. An important function of Garden in the Desert is to educate people about gardening in the desert and local food production.

Link: UA Gardens Promote Community, Global Perspective

The University of Arizona recently deployed the latest in solar-thermal heating and cooling system technology on campus. The new installation is expected to reap enough solar energy each year to power more than 180 households.

One large rooftop installation powering that many homes? More of those please!

From the UA News story:

An innovative solar-thermal heating and cooling system installed on top of the UA’s Student Recreation Center is expected to harvest almost 200 million kilowatt hours of solar energy per year – enough to power more than 180 households.

In a nationwide first, an innovative system recently installed on the University of Arizona campus uses the sun’s energy not only for heating but also for cooling.

At the heart of the solar thermal cooling and pool heating system is an array of 346 argon-filled vacuum tube solar thermal collectors installed on the roof of the UA’s Student Recreation Center.

The collectors utilize heat from the sun as a free energy source to drive an absorption chilling system to help keep buildings on campus cool while also heating the recreation center’s main swimming pool.

An absorption chiller works similarly to a refrigerator or an air conditioner, except it uses a process relying on heat, rather than electric power.

Read the rest of the story with photo here.

The University of Arizona’s Institute of the Environment has compiled a Green Course Guide. It lists over 200 courses across various disciplines to assist students in finding information on the hundreds of courses and seminars offered at UA on sustainability and the environment.

Link to the online Green Course Guide is here.

The sun’s energy is plentiful – especially around here – and free. Harnessing this energy for a sustainable future is a no-brainer. What’s needed is a less costly way to make solar energy accessible to every home and business.

That’s where new research at the University of Arizona into organic photovoltaics comes into play. Organic photovoltaics (OPV) may be the solar cells of the future. Instead of silicon, these cells use carbon-based polymers, which researchers are finding may be less efficient but are more cost effective.

From the University of Arizona:

Photo by Kate Kaemerle

And you thought math was just for calculating your bills.

University of Arizona mathematicians examined the beautiful patterns in cacti and explored the structures, which they found were based on Fabonacci numbers that often occur in plants from daisies to cacti. Patrick Shipman and Alan Newell at UA found that the patterns in the ribs of the saguaro cactus are designed by nature for a good reason – to be elastic.

For centuries people have observed numeric patterns in the plant world. Mathematicians put a name to it in 1202. The Fibonacci number pattern (0, 1, 1, 2, 3, 5, 8, 13, 21, 34, 55, 89, 144, 233 and so on) is natures way of designing efficiency, whether it’s in the leaf, flower, seed or stem pattern of plants or the ribs of a saguaro cactus. A combination of forces contribute to the curious numerology of the plant world. It involves geometry, biochemistry, elastic buckling and mechanical forces.

Call it nature’s numerology. Next time you look at the ribs of a saguaro or the seed pattern of a sunflower, marvel at the patterns and spirals that follow this mathematical pattern.

Psychology Today has a story about the University of Arizona mathematicians and their findings. Geeky but readable and fascinating. Read the whole article here.

Volunteers at the University of Arizona have begun harvesting mesquite beans from trees on campus. After being frozen, then dried, the beans will be milled into flour for use at the Arizona Student Unions. This year the goal is to harvest enough mesquite beans for flour to bake products on campus for several months rather than days.

This is part of UA’s sustainability mission to green the UA campus including a range of strategies from energy and water conservation to harvesting food on campus.

Click here for a photo slide show and more information.