As sustainability becomes a priority in the construction industry, more and more universities are turning to Geïntegreerde fotovoltaïsche energie (BIPV) as a means of generating renewable energy while providing an aesthetic appeal. BIPV involves the integration of solar cells into the building envelope, making it an ideal choice for universities that are front-runners in new technologies and innovative products.
Obtain 40 LEED Points
One of the main benefits of BIPV for universities is the ability to earn points toward Leadership in Energy and Environmental Design (LEED) certification, an internationally recognized green building certification system. BIPV can contribute towards the energy and atmosphere category of the certification, helping universities achieve a higher level of LEED certification.
Gain SEG Credits
In addition, universities can also earn credits under the Sustainable Energy Group (SEG) certification system. SEG is a certification program for organizations that generate and consume renewable energy, allowing universities to offset their carbon footprint by generating their own green energy.
BIPV also provides universities with the opportunity to generate electricity for their own use. By installing BIPV systems on their buildings, universities can reduce their reliance on grid power and save money on energy bills. This can also help to reduce greenhouse gas emissions, contributing towards a more sustainable future. Furthermore, Building-Integrated Photovoltaics can provide universities with a passive revenue generation function. By generating excess electricity, universities can sell it back to the grid and receive a feed-in tariff, providing an additional source of income. This can help improve the financial status of universities, particularly during times of financial strain.
Reach ESG Goals
The use of BIPV by universities can also help them earn points towards Environmental, Social, and Governance (ESG) criteria. ESG refers to three central factors in measuring sustainability and the ethical impact of investments. By adopting BIPV, universities can demonstrate their commitment to reducing their carbon footprint and contributing to the transition towards renewable energy sources, improving their overall ESG score and reputation.
Furthermore, the use of BIPV can contribute to the social aspect of ESG, as it can create job opportunities for local communities during installation and maintenance. Additionally, by generating their own renewable energy, universities can provide an example for their students and the wider community on the benefits of sustainable practices.
In terms of governance, universities can use BIPV to demonstrate their commitment to sustainable practices and responsible decision-making, attracting investors who prioritize sustainability and ethical considerations in their investments.
An example of a company that provides BIPV solutions is Mitrex, which has supplied material for Saint Mary University in Halifax, Canada. The university’s dormitory building now features Mitrex’s BIPV solar facade, which has contributed to the building’s energy efficiency and sustainability. Mitrex’s BIPV solutions offer no limitations in design or color, providing a wide range of options that can help education centers achieve their ambitious design goals while generating renewable energy.
In conclusion, the adoption of Building-Integrated Photovoltaics by universities can provide numerous benefits, including improved ESG scores, reduced energy bills, and passive income generation. As sustainability continues to become a more important consideration in the business world, universities that prioritize sustainable practices will likely be at an advantage.