U Minnesota Morris to Install 2 Wind Turbines & a Steam Turbine
The University of Minnesota, Morris has received three Clean Renewable Energy Bonds, a special type of tax credit bond providing the equivalent of an interest-free loan for financing qualified energy projects. Authorized by the Internal Revenue Service, the bonds will allow UMM to construct two more wind turbines and to add a steam turbine that will convert steam from the biomass facility, which is currently under construction, into electricity. One of the wind turbines will be located on-campus, while the other will be located in western Minnesota and is to be shared with the Mille Lacs Band of Ojibwe. Combined with a previously constructed wind turbine, the new campus turbine will allow UMM to be powered almost exclusively with wind.
Babson C to Install Wind Turbine
Babson College (MA) plans to install a residential-scale wind turbine on the school's campus as a demonstration project. The 1.8 kW turbine is expected to be operational before the close of the spring 2008 semester. It is estimated that the turbine will produce enough energy to supply roughly 60% of the annual energy needs at the school’s entrepreneurship gallery after planned lighting renovations are completed within the space. The project is a result of a proposal by a team of three graduate students. Officials say that Babson will be the first college in the greater Boston area to utilize wind power through an on-campus installation.
Lewis & Clark College to Install Solar Panels
Lewis & Clark College (OR) recently reached an agreement with Honeywell International to supply the campus sports facility with solar power. Under the agreement, Honeywell will install solar panels on the roof of the Pamplin Sports Center and sell to the college the electricity produced by the panels. Lewis and Clark officials say that the power purchase agreement is the first of its kind for a college or university in Oregon. The panels are expected to generate more than 97,000 kilowatt-hours of electricity annually, produce enough power to meet approximately 15% of the electricity needs for the sports center, and cut carbon dioxide emissions by an estimated 1.8 million pounds over the course of the 20-year agreement. Lewis and Clark expects the solar installation to be completed by August 2008.
U Washington Expands Biofuel Program
The University of Washington Motor Pool is switching from B5 to B20 fuel, which includes 20 percent biodiesel. The University plans to use B90 fuel in the future. The change is part of the Green Fleet Initiative, a program which aims to reduce the institution's environmental footprint.
Ball State U Awarded for Use of Biofuels on Campus
Ball State University (IN) recently received the Stakeholder Achievement Award for its use of biodiesel and ethanol in campus shuttles, trucks, and cars, which began in 2003. BSU's 78 diesel-powered shuttles and trucks run on soybean-based biodiesel, while 57 flex-fuel cars run on E85, a blend of 85 percent ethanol and 15 percent gasoline. The award was presented by the Central Indiana Clean Cities Alliance.
Stanford U Reduces Computer Energy Consumption
Stanford University's (CA) Information Technology Services Department recently released the Stanford Power Management Tool, a supplement to software that provides security updates for Windows computers called BigFix. The tool is free downloadable mechanism that reduces energy use through hibernation, sleep, and inactivity settings. BigFix offers four different levels of green settings and is available to students, faculty, and staff. The institution predicts that the device could save up to $400,000 of electricity. Users of the download could receive a $15 rebate from Pacific Gas & Electric.
Birmingham U Installs Solar-Powered Parking Meter
Binghamton University (NY) recently installed a solar-powered multi-space parking meter system. The system is made up of a single meter that serves 33 spaces and features solar panels and a rechargeable battery.
Contra Costa CC District Installs Largest Campus Solar Array
The Contra Costa Community College District (CA) recently announced the completion of the first phase of its solar power project. The project includes a 3.2 megawatt solar photovoltaic system, high-efficiency lighting and energy management systems, high-efficiency heating, ventilation and air-conditioning equipment, and high-voltage electrical system replacements at 2 of the 3 colleges. The development is said to be the largest solar power installation ever constructed for an institution of higher learning in North America.
UC Irvine Contracts for 1.2MW Solar Array
The University of California, Irvine recently contracted with UPC Solar to install a 1.2 megawatt solar panel array on campus. Under the 20-year contract, UPC Solar will design, install, own and maintain 6,500 solar panels to be placed on 11 campus buildings. UCI will then purchase the power from UPC, especially during peak demand periods when the cost of electricity is high. Kiosks located strategically around the campus will monitor the system and provide ready information to passersby about how much energy is being generated.
Andover Newton Trustees Vote to Cut Energy Consumption by 20%
The Andover Newton Theological School's (MA) Board of Trustees voted unanimously to reduce energy consumption by 20% over 5 years. The Board promised to publish annual progress reports and is hoping that entire community will take part in the effort.
Laramie County CC Named Energy Innovator of the Year
Laramie County Community College (WY) has been named the Energy Innovator of the Year, an award presented by the Renewable Energy Coalition of Wyoming. The award is result of LCCC's leadership in the state regarding renewable energy. This leadership includes the installation of its own 100 foot wind turbine, energy-efficient construction practices, and the new Wind Technician Program.
UC San Diego Joins The Green Grid
The University of California, San Diego recently joined The Green Grid, a global consortium of companies that aims to reduce energy consumption in data centers and computing ecosystems. Through this membership, UCSD plans to green the on-campus San Diego Supercomputer Center, which will re-open next year.
SUNY ESF Installs 23 kW Solar Array
The State University of New York College of Environmental Science and Forestry recently turned on a 23 kW photovoltaic array built on the south wall of ESF's Baker Laboratory. Combined with another photovoltaic array installed earlier this year and the carbonate fuel cell that went to full power this past spring, the new system means 20 percent of the college's electricity needs now come from alternative energy resources.
U Rhode Island Enters Into $18M Energy Performance Contract
The University of Rhode Island has entered into an $18 million energy performance contract designed to reduce its energy usage through the replacement of lighting fixtures, windows, heating/air conditioning systems and other equipment, as well as improvements to building energy management control systems. The upgrades are expected to save over 7 million kWhs of electricity and 42 million pounds of steam per year. The cost of the two-year contract will be paid over 12 years from the savings on the University's utility bills.
West Virginia U to Invest $12.5M in Energy Conservation
The West Virginia University Board of Governors have approved a $12.5 million plan of capital improvements designed to significantly reduce the amount of energy and water consumed at three of the University's campuses. The effort, which is phase two of an energy savings performance contract, is expected to lead to savings of $1.48 million annually over the next 15 years. Planned changes include: replacing thousands of traditional fluorescent light bulbs with newer bulbs that use less energy and produce more light; installing low flow toilets, urinals and shower heads to reduce water usage; installing computer controlled monitoring systems that can more effectively control temperatures by utilizing outside/fresh air for heating and cooling; and updating motors on fans, blowers and air handlers with variable speed that can reduce speed and energy usage when full speed is not needed. Additional improvements include the installation of chiller units in several buildings that will replace less efficient natural gas absorbers, replacement of old boiler units with more energy efficient units and improvement of power factor capacitance to reduce the amount of power the University needs to purchase.