Posts tagged campus
CU-BOULDER’S NEWEST RESIDENCE HALL SHOWCASES SUSTAINABLE DESIGN
Aug 16th
The University of Colorado Boulder’s newest residence hall, Williams Village North, is welcoming students this week for the first time, many of whom will be learning about the building’s sustainable design through two new Residential Academic Programs, or RAPs, that are housed in the residence hall.
The RAPs, “Sustainable by Design” and “Social Entrepreneurship for Equitable Development and Sustainability,” or SEEDS, will allow students to use the building as a living and learning laboratory.
CU-Boulder now has 12 campus RAPs that allow students to live and learn together in the same residence hall with other students who have shared interests. The RAP programs are designed to introduce students to faculty and to allow them to take selected courses and to participate in educational and social events — allwithin their residence hall.
“One of our main objectives with the SEEDS RAP is to bring students from different academic backgrounds together and have them work together to learn about sustainability,” said Professor Susan Clarke, faculty director of the SEEDS RAP. “Figuring out how to solve problems coming from different disciplines is what we want the students to take from this program.”
Professor Joann Silverstein of the College of Engineering and Applied Science is the faculty director of the Sustainable by Design RAP.
As an introduction, students from both new RAPs are required to take a course titled “Social Innovation and Design for Sustainable Communities,” which highlights the multidisciplinary aspect of the programs. Architecture Assistant Professor Matthew Jelacic will serve as the faculty in residence for both of the RAPs, and he will be one of the professors team teaching the course.
The course is centered on the concepts of design, innovation and sustainability, and uses the concept of design to bridge engineering and social science domains, according to Jelacic.
“My hope for this course is that it helps prepare students to work on solving the complex local-to-global problems faced in the world today such as environmental pollution, sustainable resources, energy scarcity, hunger and socio-economic disparities,” Jelacic said.
The RAPs also will have an annual theme, and this year they are focusing on food.
“The issue of sustainability is not a straight forward concept,” Clarke said. “Sustainable food production is a very difficult problem to solve, but it is also something that students can relate to and learn about with a hands-on approach.”
Throughout the school year, local chefs, farmers and others involved in sustainable food production will visit Williams Village North to share their experiences with the students. And since the new residence hall has its own kitchen stocked with energy-efficient appliances, students also will get to sample some recipes made from locally produced food.
“Having vibrant sustainability entrepreneurs in Boulder is a real bonus to our program because it shows our students the value in what they are learning,” Clarke said. “There are numerous opportunities available to graduates who can apply sustainability to real-world problems like food production.”
Built to a high Leadership in Energy and Environmental Design, or LEED, standard, the Williams Village North building has numerous sustainability features. In addition to the usual sustainable items such as efficient lighting and water fixtures and appliances, the facility also includes energy-efficient lighting with windows that maximize daylight use, occupancy sensor lighting, advanced heating andcooling systems with automatic controls and native landscaping.
Additionally, more than 50 percent of all of the construction waste was diverted from thelandfill. The building also is on track to be the first LEED Platinum building on campus.
“Compared to a building of the same size that wasn’t constructed with these sustainability features, Williams Village North is expected to use about 39 percent less energy,” said Heidi Roge, building project manager from CU-Boulder’s Housing and Dining Services department. “This translates into more than $220,000 in annual utility savings.”
The $46.5 million residence hall includes 131,246 gross square feet, 500 beds, five classrooms, one faculty apartment, a residence hall director apartment, a great room/lobby and study spaces on each floor. Construction on the residence hall began in January 2010.
The total cost of the residence hall has been financed through bonds taken out by thecampus Housing and Dining Services department. The bonds will be repaid through revenue generated by the 500 additional beds.
Additional building features include:
— Solar-heated water
— On-site solar photovoltaic renewable energy on the carport at Bear Creek Apartments
— Covered bike parking
— Phantom load switches
— Light emitting diode, or LED, lighting
— Building materials and construction maximized by the use of regional, high recycle content and low Volatile Organic Compound, or VOC, materials
— Storm water diverters for roof drainage to provide irrigation to landscaping
— Energy Star appliances
CU-BOULDER FACULTY, STUDENTS PART OF NASA’S JUNO MISSION TO JUPITER
Aug 1st
Several University of Colorado Boulder faculty and students are participating in NASA’s Juno Mission to Jupiter, now slated for launch Aug. 5 from Florida’s Kennedy Space Center and which is expected to help steer scientists toward the right recipe for planet-making.
The primary goal of the mission is to understand the origin and evolution of the massive gas planet, said CU-Boulder Professor Fran Bagenal of the Laboratory for Atmospheric and Space Physics, a mission co-investigator. The data should reveal not only the conditions of the early solar system, but also help scientists to better understand the hundreds of planetary systems recently discovered around other stars, she said.
After the sun formed, Jupiter got the majority of the “leftovers,” said Juno Mission principal investigator Scott Bolton from the Southwest Research Institute in San Antonio. Since Jupiter has a larger mass than all of the other planets in the solar system combined, scientists believe it holds the keys to understanding how the planets formed and why some are rocky and others are gas giants, Bagenal said.
Once Juno reaches Jupiter orbit in 2016 after a 400-million-mile trip, the spacecraft will orbit the planet’s poles 33 times, skimming roughly 3,000 miles above the cloud tops in a region below Jupiter’s powerful radiation belts. While the spacecraft itself is about the size of a Volkswagen and encased in a protective radiation vault, its three solar panels that will unfurl in space will make the spinning spacecraft more than 65 feet in diameter.
Bagenal said scientists were continually surprised by the data beamed back from NASA’s Galileo mission to Jupiter, which arrived at the planet in 1995 and carried 16 instruments, including two developed by CU-Boulder’s LASP. Among other discoveries, Galileo scientists identified the global structure and dynamics of the planet’s magnetic activity, confirmed the presence of ammonia clouds in its atmosphere and discovered that one of its moons, Europa, has a global ocean beneath a thick crust of ice.
“One of the biggest questions left after the Galileo mission was how much water there is in Jupiter’s atmosphere,” said Bagenal. “The amount of water is key, because water played a huge role in the formation of the solar system.” Bagenal also is a professor in the astrophysical and planetary sciences department.
“Most of us know that water absorbs microwaves, because that is what happens when you put a cup of tea in your microwave oven,” said Bagenal. “We are going to be using a microwave detector and fly just over the clouds of Jupiter, looking down at different cloud depths to measure the amounts of water below. It’s a bit like doing a CT scan of Jupiter’s dense clouds.”
Bagenal’s role in the mission is to coordinate observations of Jupiter’s magnetosphere –the area of space around the planet that is controlled by its magnetic field. She and her collaborators are especially interested in understanding the processes that control auroral activity at the planet’s poles — its northern and southern lights — and assess the roles of the planet’s strong magnetic field on its surroundings.
In addition to collaborating closely with the Juno science team, Bagenal is working with CU-Boulder Professor Robert Ergun of LASP, who has extensively studied Earth’s magnetosphere and associated polar auroras. Ergun will use his expertise in auroral physics as part of the mission to compare the physical processes at Jupiter with those seen on Earth.
“This will be the first time anyone has flown over the poles of Jupiter to look directly down on the aurora,” said Bagenal. “We will be flying the spacecraft through regions where charged particles are accelerated to the point of bombarding the atmosphere of Jupiter hard enough to make it glow at the poles.”
Bagenal also is working with LASP Research Associate Peter Delomere on the Jovian magnetosphere studies and with physics department graduate student Mariel Desroche, who is modeling the outer region of Jupiter’s magnetosphere as part of the Juno effort.
CU-Boulder senior Dinesh Costlow of the astrophysical and planetary sciences department also is collaborating with Bagenal and the Juno science team by using computer models to simulate the trajectory of the spacecraft through all 33 individual orbits as it passes through Jupiter’s magnetosphere. “We are interested in finding the optimal places in orbit to point the spacecraft for our data collection,” he said.
Costlow, who is from Auburn, Maine, said he knew CU-Boulder had a good astronomy program before he ever set foot on campus. “Everything fell into place, and I feel very lucky to have an opportunity to work on this mission,” Costlow said. “I think graduate school may be my next step, and after that maybe I can make a career out of this kind of planetary research.”
By mapping Jupiter’s gravitational and magnetic fields, mission scientists should be able to see the planet’s interior structure and determine if it has a rocky iron core — a core that some scientists believe could be 15 or 20 times the size of Earth. But because of the immense pressure in the Jovian atmosphere, any spacecraft seeking the core would be crushed long before it neared the middle of the planet, much as the Galileo spacecraft was crushed after it was crashed into the planet’s clouds after the mission concluded in 2003.
“My biggest hope is that all of our predictions about Jupiter are wrong, and that we find something completely different than what we expect,” said Bagenal. “When our preconceived notions are off, it shows us we can never become complacent. New data from the solar system’s planets keeps us excited enough to re-visit them to learn more about the history and fate of our solar system.”
The Juno spacecraft is carrying 11 experiments to probe the planet’s mass, magnetic field, charged particles, auroras, plasma, radio waves, thermal and ultraviolet emissions, and includes a camera to provide images of the colorful Jovian cloud tops. The Juno Mission is being managed by NASA’s Jet Propulsion Laboratory in Pasadena, Calif. Lockheed Martin Space Systems Company of Denver built the spacecraft, which will be launched aboard a United Launch Alliance Atlas V rocket.
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CU-BOULDER VICE CHANCELLOR FRANK BRUNO LEAVING CU FOR PRIVATE SECTOR VP POST
Jun 29th
University of Colorado Boulder Senior Vice Chancellor Ric Porreca today announced that Vice Chancellor for Administration Frank Bruno will leave the university effective Aug. 1 to assume the position of vice president of administration with Western Disposal Inc. of Boulder.
Bruno’s portfolio as vice chancellor of administration covers the physical infrastructure of the campus, human resources, public safety and energy and sustainability. He joined CU-Boulder as vice chancellor for administration in June of 2008.
“We wish Frank well in his future endeavors,” Porreca said. “He has been a key member of our leadership team, a collegial leader who has strengthened our partnership with local government and other CU stakeholders, and he has overseen a large number of programs and personnel with energy and diplomacy.”
Bruno is credited with coordinating the campus’s Ten Year Capital Facilities Master Plan in partnership with community stakeholders, with overseeing campus capital construction that included $500 million in projects, and with expanding CU’s police presence and building key partnerships for sustainability on campus.
“This is a marvelous opportunity for me and my family,” said Bruno. “I want to thank the university community for the last three years. It has been an honor to serve our faculty, staff and students, and to work with great partners in the city, county and state to help one of the great universities in the nation during a time of transformation.”
The university has not announced a successor to Bruno, but expects to take action toward that end in the coming weeks.
