Energy And Climate Change
KFUEIT on energy use and addressing climate change issues is the most heavily weighted indicator in this ranking. In our questionnaire, we have outlined several key indicators in this specific area of concern. These indicators encompass various aspects related to energy efficiency and sustainability, including the usage of energy-efficient appliances, the adoption of smart and automated building systems, policies on renewable energy utilization, total electricity consumption, energy conservation initiatives, components of green building practices, climate change adaptation and mitigation programs, policies for reducing greenhouse gas emissions, and measuring the carbon footprint. Within these indicators, the expectation is that the university will intensify its efforts to enhance energy efficiency within its buildings and demonstrate a deeper commitment to environmental conservation and responsible energy resource management. This emphasis on sustainability in energy use and climate action is crucial in today's world to mitigate the impact of climate change and promote more environmentally responsible practices within educational institutions.
1.Total main campus smart building area:
Khawaja Fareed University of Engineering and Information Technology (KFUEIT) is undertaking a remarkable transformation by converting its buildings into 'Smart Buildings' through the implementation of a Building Automation System (BAS). This innovative system is designed to revolutionize building management, emphasizing efficiency, convenience, and sustainability.The BAS at KFUEIT encompasses a range of critical functions:
1. Air Conditioning: The system optimizes temperature and ventilation, ensuring occupants' comfort while conserving energy.
2. Lighting Control: Smart lighting solutions automatically adjust brightness based on occupancy and natural light, reducing energy wastage.
3. Fire Control: Enhanced safety measures include advanced fire detection and suppression systems.
4. Access Control: The BAS manages access to different areas, improving security and preventing unauthorized entry.
5. Security Systems: Integrated security monitoring ensures swift responses to potential threats. 6. Elevator Control: Elevator operations are optimized for efficiency, reducing wait times and energy consumption.
This initiative not only represents a significant step towards modernization for KFUEIT but also underscores its commitment to sustainability, safety, and user-friendly environments. By embracing state-of-the-art technology, KFUEIT is setting a new standard for smart and sustainable building management in educational institutions.
2. Number of renewable energy sources in campus:
KFUEIT has adopted a forward-thinking renewable energy policy that encompasses five different sources of clean and sustainable energy for consumption. These sources include:1. Bio Diesel: KFUEIT has established a policy to utilize bio diesel as a renewable energy source. Bio diesel is produced from organic materials such as vegetable oil or animal fat and can serve as a cleaner alternative to traditional diesel fuel.
2. Clean Biomass: The university also prioritizes clean biomass as a renewable energy source. Clean biomass typically involves the use of organic materials, such as agricultural residues or wood, to generate heat or electricity in an environmentally friendly manner.
3. Solar Power: KFUEIT has embraced solar power as a key component of its renewable energy policy. Solar panels capture sunlight and convert it into electricity, providing a sustainable and environmentally friendly energy source.
4. Wind Power: Wind power is another renewable energy source included in the university's policy. Wind turbines harness the kinetic energy of the wind to generate electricity, offering a clean and renewable energy option.
5. Combined Heat and Power (CHP): KFUEIT has also recognized the benefits of combined heat and power systems, which simultaneously generate electricity and useful thermal energy from a single energy source. This approach enhances energy efficiency and sustainability.
By incorporating these diverse sources of renewable energy into its policy, KFUEIT demonstrates a commitment to environmental responsibility and the promotion of sustainable energy practices within its campus and broader community. This multi-faceted approach contributes to reducing carbon emissions and reliance on non-renewable energy sources, aligning with global efforts to combat climate change.