Freiburg University Renewable Energy Management – From my research to prepare for this visit and now from my conversations with local authorities, seeing how many people know the area for its unique collection of solar energy technologies and materials again, it is easy to understand why Freiburg Uni responded with the development of active education. . Programs to educate future green entrepreneurs, leaders and policy makers. Dr. Stefan Adler arranged my lecture for the fastest growing of these programs for his graduates – the MS degree program in Renewable Energy Management (REM). He also told me about the relationship between his academic home, the Center for Renewable Energy, and the government-sponsored Fraunhofer Solar Energy Institute, about a mile from the center, near Freiburg University Hospital and Medical School. REM faculty members conduct research, lectures, seminars and conferences at the Fraunhoffer Institute. I went inside and saw some workshops in and around the building, and inside, there was a display announcing the school’s amazing 5.
The main entrance to the Fraunhoffer Solar Energy Institute (above) is a 20-30 minute drive from the Renewable Energy Center on the campus of the University of Freiburg. Dr. Adler and other Sun faculty members joined the government-funded school.
Freiburg University Renewable Energy Management
Dr. Adler’s 29 REM graduates from 20 countries are smart, active and proficient in English, an entry requirement. I provided an overview of UConn’s sustainability efforts and initiatives, focusing on our 2010 Climate Action Plan (CAP) for a carbon-neutral campus by 2050 and reviewing our progress toward implementation. some plans related to energy and transportation. As I proudly talk about how we are making UConn’s cleanest and most efficient cogeneration facility an energy source for growing campus buildings, students are visibly skeptical about the Cogen natural gas fuel source. However, I explain, our 25 MW cogen plant has moved away from the use of efficient small boilers and generators that use carbon-intensive petroleum diesel fuel and now provides about 80% of heat and power for our main campus. Students had the same reaction when told about UConn’s installation of a 400 kW UTC hydrogen fuel cell last spring on our campus. A fuel cell gets hydrogen from—you guessed it—natural gas. Then, in the catalytic process, instead of burning, it generates electricity and some heat to increase the depot in our main campus. Each year, this fuel cell will avoid the consumption of millions of gallons of cold water and the emission of many air pollutants, including 800 tons of CO2, compared to common energy source needed to produce a large amount of energy.
Freiburg Town Hall
REM students pointed out: “But natural gas is 100% fossil fuel! How to build a truly sustainable strategy? The US is not switching from one fossil fuel to another, from coal to natural gas , delaying the transition to renewable energy?” I think most of them understand the economic and political reality in the US and other parts of the world. The transition to renewable energy is what we need. Slower than others. But they raised good questions and led to a lively discussion. . And our policy level. .I enjoy talking.
My great Freiburg Uni host and friend, Dr. Jürgen Stack, the director of “Umweltschutz”, which takes care of environmental protection and sustainability, encouraged me to use renewable energy in the activities of the campus. The university is one of the leaders of the project committed to achieving the 550 KW goal of the Solar Uni project. He and his staff of nine, including a climate safety director, keep detailed records of greenhouse gas emissions from campus operations and file detailed reports. They also keep data on the use of metered and unmetered energy used in university buildings, and the production of energy from different sources, including solar power. On his desktop computer, he opened several Excel spreadsheets and charts he had prepared to ensure compliance with Germany’s climate control laws.
In our conversation, Dr. Stack expressed his concern that the university would be out of the upper room for the day’s arrangement. Due to the small tables and greenhouses installed in the school buildings, he was worried if there were any remaining buildings with the required characteristics: solar orientation, correct construction , and the remaining life of 20 years. As in the United States, some buildings on Freiburg’s old campus are protected by historic preservation laws and are not limited to solar panels.
According to my Freiburg Uni colleague, green buildings like this one, visible from the rooms on the top floor of the quad, with the 550 kW rooftop solar array installed, make the most of of room available on campus for upcoming day sessions. .
Rose Intelligent Energy Management
Outside of the sun, the rest of Freiburg Uni’s energy picture is painted. Dr. Stack explained that the campus uses groundwater for geothermal cooling of half of its buildings. It uses free-flowing, non-absorbing natural cold water drawn from an aquifer beneath the university campus. The job of his company is to make sure that after use, the water returns to the aquifer without chemicals or other contaminants and is not warmer than before. of 5 degrees Celsius than when it was fired. For the rest of the campus heating and cooling needs, he told me, after a long and careful analysis, Freiburg Uni changed from coal fire in its plant needs biomass, including sustainably harvested wood chips. Natural forest.
Despite these green features, I was surprised to see the Freiburg undergraduate average for the university’s commitment to sustainability and new resources. At UConn, we completed our Renewable Energy Strategic Plan to plan for demonstrable sustainable energy projects on our campus over the next five to seven years. For us, public visibility and visibility of future projects are important factors in choosing a site. We hope that the observations of these arrangements will be combined in various fields, from science and engineering to the humanities. In Freiburg, on the other hand, the Solar Uni rooftop arrays are not visible to students or the general public, much less so. I was told that the university installed the energy dashboard not in the student center or in a large classroom building, but in a downtown office, away from the school buildings and commuting. of students every day. Your campus may be in the middle of Germany’s “green city”, where renewable energy has been developed for decades and is a common practice, requiring no high-profile projects.
On a cloudy day, the windmills in the Black Forest (center) on the edge of the city are visible from the Freiburg Uni campus.
The University of Connecticut Department of Education engages students, faculty, staff and the community to work together for a more environmentally sustainable campus. A detailed university report on greenhouse gas emissions, energy use, waste, water management at the University of Freiburg. As well as!
University Of Freiburg
University buildings are located in Freiburg; They cover the soul of the city. The University Library (UB) is the newest and most interesting. According to a recent article in the online journal of the university’s public relations department (where this section is based), the building has “750 photovoltaic modules covering an area of 2,000 square meters-the the size of three tennis courts.” “In 2019, they produced more than 200,000 kilowatt hours of electricity, providing about 10% of the electricity used by the library.” The course was introduced in 2015 and continues to benefit the university.
Also, a year ago, a report was published on environmental protection and green investment policy at the university. The university pledged its commitment to “significantly increase its efforts to ensure sustainable practices and protect the climate”. In fact, this commitment reflects the same trends that were mentioned in the report for the first time last year. These areas include college transportation, business travel (although there is currently insufficient data to estimate these emissions), printing, use of office equipment and including computer hardware systems. As you can see, running a large company requires multi-disciplinary thinking and the achievement of more than zero emissions goals.
However, the head of the administration Dr. “Nineteen years is not a long time to reduce the university’s carbon footprint to zero,” says Mathias Schenk, “but the university is committed to creating a model of responsibility, not just research and research. to prevent climate change. .” In support of the conflict.” Also, as Dr. Jürgen Stack, head of the department for security, globalization and sustainability pointed out, “It should not be forgotten that the University does not own of Freiburg.
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