Posts tagged solar energy
CU Boulder researchers: You think it’s cold now?
Dec 5th
EARLY EARTH MAY HAVE BEEN PRONE TO
DEEP FREEZES, SAYS CU-BOULDER STUDY
DEEP FREEZES, SAYS CU-BOULDER STUDY
Two University of Colorado Boulder researchers who have adapted a three-dimensional, general circulation model of Earth’s climate to a time some 2.8 billion years ago when the sun was significantly fainter than present think the planet may have been more prone to catastrophic glaciation than previously believed.
The new 3-D model of the Archean Eon on Earth that lasted from about 3.8 billion years to 2.5 billion years ago, incorporates interactions between the atmosphere, ocean, land, ice and hydrological cycles, said CU-Boulder doctoral student Eric Wolf of the atmospheric and oceanic sciences department. Wolf has been using the new climate model — which is based on the Community Earth System Model maintained by the National Center for Atmospheric Research in Boulder — in part to solve the “faint young sun paradox” that occurred several billion years ago when the sun’s output was only 70 to 80 percent of that today but when geologic evidence shows the climate was as warm or warmer than now..
In the past, scientists have used several types of one-dimensional climate models — none of which included clouds or dynamic sea ice — in an attempt to understand the conditions on early Earth that kept it warm and hospitable for primitive life forms. But the 1-D model most commonly used by scientists fixes Earth’s sea ice extent at one specific level through time despite periodic temperature fluctuations on the planet, said Wolf.
“The inclusion of dynamic sea ice makes it harder to keep the early Earth warm in our 3-D model,” Wolf said. “Stable, global mean temperatures below 55 degrees Fahrenheit are not possible, as the system will slowly succumb to expanding sea ice and cooling temperatures. As sea ice expands, the planet surface becomes highly reflective and less solar energy is absorbed, temperatures cool, and sea ice continues to expand.”
Wolf and CU-Boulder Professor Brian Toon are continuing to search for the heating mechanism that apparently kept Earth warm and habitable back then, as evidenced by liquid oceans and primordial life forms. While their calculations show an atmosphere containing 6 percent carbon dioxide could have done the trick by keeping the mean temperatures at 57 degrees F, geological evidence from ancient soils on early Earth indicate such high concentrations of CO2 were not present at the time.
The CU-Boulder researchers are now looking at cloud composition and formation, the hydrological cycle, movements of continental masses over time and heat transport through Earth’s system as other possible modes of keeping early Earth warm enough for liquid water to exist. Wolf gave a presentation on the subject at the annual American Geophysical Union meeting held Dec. 5-9 in San Francisco.
Toon said 1-D models essentially balance the amount of sunshine reaching the atmosphere, clouds, and Earth’s terrestrial and aquatic surfaces with the amount of “earthshine” being emitted back into the atmosphere, clouds, and space, primarily in the infrared portion of the electromagnetic spectrum. “The advantage of a 3-D model is that the transport of energy across the planet and changes in all the components of the climate system can be considered in addition to the basic planetary energy balance.”
In the new 3-D model, preventing a planet-wide glaciation requires about three times more CO2 than predicted by the 1-D models, said Wolf. For all warm climate scenarios generated by the 3-D model, Earth’s mean temperature about 2.8 billion years ago was 5 to 10 degrees F warmer than the 1-D model, given the same abundance of greenhouse gases. “Nonetheless, the 3-D model indicates a roughly 55 degrees F mean temperature was still low enough to trigger a slide by early Earth into a runaway glacial event, causing what some scientists call a ‘Snowball Earth,’” said Wolf.
“The ultimate point of this study is to determine what Earth was like around the time that life arose and during the first half of the planet’s history,” said Toon. “It would have been shrouded by a reddish haze that would have been difficult to see through, and the ocean probably was a greenish color caused by dissolved iron in the oceans. It wasn’t a blue planet by any means.” By the end of the Archean Eon some 2.5 billion year ago, oxygen levels rose quickly, creating an explosion of new life on the planet, he said.
Testing the new 3-D model has required huge amounts of supercomputer computation time, said Toon, who also is affiliated with CU-Boulder’s Laboratory for Atmospheric and Space Physics. A single calculation for the study run on CU-Boulder’s powerful new Janus supercomputer can take up to three months.
The CU-Boulder study was funded by a NASA Earth and Space Science Fellowship to Wolf as well as a grant from the NASA Exobiology and Evolutionary Biology Program.
Toon will be presented with AGU’s Roger Revelle Medal for innovative work on the effects of aerosols on clouds and climate at the 2011 San Francisco meeting. The Revelle Medal is presented annually to a scientist who has shown outstanding accomplishments or contributions toward the understanding Earth’s climate systems
Solar Grant Fund application deadline extended through mid April
Mar 31st
The application deadline for City of Boulder Solar Grant Funds has been extended and now must be received by 5 p.m. on Tuesday, April 19. For applications and more program information, visit the city’s Solar Rebate and Grant Programs website.
The City of Boulder Solar Grant Fund (formerly known as the ClimateSmart Solar Grant Fund) is dedicated to providing financial assistance through grants toward installation of photovoltaic (PV) or solar thermal systems on:
· Housing included in the city’s permanently affordable housing program;
· Lower-income housing developed and/or owned by nonprofit organizations; and,
· Facilities of nonprofit organizations.
The program is funded by revenue generated through a solar rebate ordinance that the Boulder City Council approved in 2006. The city collects taxes on the sales and installation of solar technologies, using the revenue to fund the City of Boulder Solar Grant Fund and to provide sales-tax rebates to those who pay solar sales and use taxes. Approximately $150,000 is currently available for solar grants.
Since the first grant cycle in March 2008, a total of $232,784 has been awarded to nonprofit organizations and homeowners participating in the city’s affordable housing program. The grant funds have resulted in 22 solar PV systems, 315 kilowatts of installed PV, and two solar thermal systems, which save approximately $38,000 annually and prevent about 265 metric tons of carbon dioxide (CO2) from being emitted per year.
LEAD programs promote energy efficiency, renewable energy, and alternative transportation options to Boulder residents and businesses. For more information, visit www.bouldercolorado.gov/LEAD.
WHITE HOUSE NAMES CU-BOULDER PROFESSOR ONE OF TOP YOUNG 100 SCIENTISTS IN 2010
Nov 8th
University of Colorado at Boulder faculty member Ivan Smalyukh is one of only 100 men and women in the United States to be awarded a coveted 2010 Presidential Early Career Award for Scientists and Engineers, or PECASE.
The PECASE awards are the highest honor bestowed by the U.S. government on outstanding scientists and engineers in the early stages of their independent careers. President Barack Obama announced the awards on Nov. 5. The award includes $600,000 of funding from the National Science Foundation over five years.
Smalyukh, an assistant professor in CU-Boulder’s physics department and a member of the university’s Liquid Crystals Materials Research Center, and his students are studying the organization of nanoparticle andmolecular self-assembly related to precisely controlled structures in liquid crystals. The research is expected to help scientists develop new electrically and optically controlled materials that could lead to a number of technological breakthroughs, including more efficient conversion of solar energy into electricity using inexpensive solar cells and the development of flexible display and data storage devices.
“As a scientist and educator, I receive this great honor with deep gratitude,” said Smalyukh. “The PECASE award is a strong encouragement for me and for my students. It will help us in achieving many important and ambitious research goals.”
Established by President Bill Clinton in 1996, the awards are coordinated by the Office of Science and Technology Policy within the Executive Office of the President. Awardees are selected on two criteria — the pursuit of innovative research at the frontiers of science and technology and a commitment to community service as demonstrated through scientific leadership, public education or community outreach.
Smalyukh also was a winner of the 2009 National Science Foundation’s Faculty Early Career Development, or CAREER award, the agency’s most prestigious awards to junior faculty members around the nation. The NSF nominated Smalyukh for the 2010 PECASE awards.
He also is a founding fellow of the Renewable and Sustainable Energy Institute, a joint center of CU-Boulder and the U.S. Department of Energy’s National Renewable Energy Laboratory.
Nine federal departments and agencies join together annually to nominate the outstanding young scientists and engineers for the PECASE awards. The recipients are researchers whose early accomplishments show the greatest promise for strengthening America’s leadership in science and technology and contributing to the awarding agencies’ missions, according to the White House.
This year’s recipients will be honored at a White House ceremony with Obama in early 2011.
SOURCE: CU MEDIA RELEASE
